Section 81

EurekaMag Full Text Articles Chapter 80,905


Jamnig, A.; Pliatsikas, N.; Konpan, M.; Lu, J.; Kehagias, T.; Kotanidis, A.N.; Kalfagiannis, N.; Bellas, D.V.; Lidorikis, E.; Kovac, J.; Abadias, G.; Petrov, I.; Greene, J.E.; Sarakinos, K. 2020: 3D-to-2D Morphology Manipulation of Sputter-Deposited Nanoscale Silver Films on Weakly Interacting Substrates via Selective Nitrogen Deployment for Multifunctional Metal Contacts. ACS Applied Nano Materials 3(5): 4728-4738
Lee, H.; Cho, Y.; Jeong, K.; Park, T.; Leem, M.; Ahn, W.; Kim, H.; Kim, J.; Kim, H.; Cho, M.; Lee, E.; Kim, H.; Hwang, S.W. 2021: 3D-to-2D phase transformation through highly ordered 1D crystals from transition-metal oxides to dichalcogenides. Materials Today 47: 38-44
Xie, Q.; Yang, Y.; Qiu, X.; Ma, Y.; Lai, A.; Lin, E.; Mai, X. 2021: 3D-var assimilation of GTS observation with the gravity wave drag scheme improves summer high resolution climate simulation over the Tibetan Plateau. Climate Dynamics 57(1-2): 469-487
Lipton, R. 2007: 3D-vertical integration of sensors and electronics. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 579(2): 690-694
Vedyashkina, A.; Rinkevichyus, B. 2015: 3D-visualization of Caustics' Formation in Laser Refractography Problems. Physics Procedia 73: 205-210
Kober, C.; Hayakawa, Y.; Kinzinger, G.; Gallo, L.; Otonari-Yamamoto, M.; Sano, T.; Sader, R.A. 2007: 3D-visualization of the temporomandibular joint with focus on the articular disc based on clinical T1-, T2-, and proton density weighted MR images. International Journal of Computer Assisted Radiology and Surgery 2(3-4): 203-210
Entezari, A.; Filippi, M.; Carrera, E.; Kouchakzadeh, M.A. 2018: 3D-wave propagation in generalized thermoelastic functionally graded disks. Composite Structures 206: 941-951
Schneider, T. 1996: 3D-xy critical point behavior in high-Tc superconductors. Physica B: Condensed Matter 222(4): 374-378
Paul, S.; Barman, D.; Chowdhury, C.; Giri, P.K.; De, S.K. 2021: 3D/2D Bi2S3/Sn S2 heterostructures: superior charge separation and enhanced solar light-driven photocatalytic performance. CrystEngComm 23(11): 2276-2288
Wang, J.; Wang, G.; Wang, X.; Wu, Y.; Su, Y.; Tang, H. 2019: 3D/2D direct Z-scheme heterojunctions of hierarchical Ti O2 microflowers/g-C3N4 nanosheets with enhanced charge carrier separation for photocatalytic H2 evolution. Carbon 149: 618-626
Kuncewicz, C.; Rieger, F.; Pietrzykowski, M.; Stelmach, J. 2013: 3D/2D hybrid model for ribbon impellers operating in laminar regime. Chemical Engineering and Processing: Process Intensification 73: 50-58
Zhang, F.; Kim, D.H.; Zhu, K. 2018: 3D/2D multidimensional perovskites: Balance of high performance and stability for perovskite solar cells. Current Opinion in Electrochemistry 11: 105-113
McGott, D.L.; Muzzillo, C.P.; Perkins, C.L.; Berry, J.J.; Zhu, K.; Duenow, J.N.; Colegrove, E.; Wolden, C.A.; Reese, M.O. 2021: 3D/2D passivation as a secret to success for polycrystalline thin-film solar cells. Joule 5(5): 1057-1073
Yoo, H.J.; Cho, N.Z. 2016: 3D/2D rotational plane slicing method for 3D whole-core transport calculation. Annals of Nuclear Energy 87: 30-38
Guo, X.; Yang, W.; Wu, X.; Lin, L.; Lu, C. 2014: 3D/3D Hetero‐Interpenetrating Diamondoid Framework and Homo‐Interpenetrating pcu Network by a One‐Pot Reaction. European Journal of Inorganic Chemistry 15: 2481-2485
Bakarich, S.E.; Gorkin Iii, R.; Naficy, S.; Gately, R.; in het Panhuis, M.; Spinks, G.M. 2015: 3D/4D Printing Hydrogel Composites: a Pathway to Functional Devices. MRS Advances 1(8): 521-526
Rodriquez, M.; Gualtieri, M.; Mouhayar, Y.; Mejia, A.; Cruz, F.; Brookfield, K. 2012: 3D/4D Ultrasound Transvaginal Ultrasound can be a Useful Alternative to Saline Infusion Sonohysterography for Evaluation of Polyps. Fertility and Sterility 97(3): S21-S22
McCall, S.; Lowe, E.J. 2003: 3D/4D equivalence, the twins paradox and absolute time. Analysis 63(2): 114-123
Fang, T.; Zhao, X.; Ocegueda, O.; Shah, S.K.; Kakadiaris, I.A. 2012: 3D/4D facial expression analysis: An advanced annotated face model approach. Image and Vision Computing 30(10): 738-749
Yang, D.; Mei, H.; Yao, L.; Yang, W.; Yao, Y.; Cheng, L.; Zhang, L.; Dassios, K.G. 2021: 3D/4D printed tunable electrical metamaterials with more sophisticated structures. Journal of Materials Chemistry C 9(36): 12010-12036
Zolfagharian, A.; Mahmud, M.A.P.; Gharaie, S.; Bodaghi, M.; Kouzani, A.Z.; Kaynak, A. 2020: 3D/4D-printed bending-type soft pneumatic actuators: fabrication, modelling, and control. Virtual and Physical Prototyping 15(4): 373-402
Jenniskens, P.; Vaubaillon, J. 2007: 3D/Biela and the Andromedids: Fragmenting versus Sublimating Comets. The Astronomical Journal 134(3): 1037-1045
Stephens, D.; Herwig, F.; Woodward, P.; Denissenkov, P.; Andrassy, R.; Mao, H. 2021: 3D1D hydro-nucleosynthesis simulations – I. Advective–reactive post-processing method and its application to H ingestion into He-shell flash convection in rapidly accreting white dwarfs. Monthly Notices of the Royal Astronomical Society 504(1): 744-760
Weitzel, L.; Krabbe, A.; Kroker, H.; Thatte, N.; Tacconi-Garman, L.E.; Cameron, M.; Genzel, R. 1996: 3D: the next generation near-infrared imaging spectrometer. Astronomy and Astrophysics Supplement Series 119(3): 531-546
Pan, A. 2003: 3D?2D-like vortex transition above Bc2 in niobium films. Physica B: Condensed Matter 329-333: 1377-1378
Pei, S.; Shen, T.; Wang, X.; Gu, C.; Ning, Z.; Ye, X.; Xiong, N. 2020: 3DACN: 3D Augmented convolutional network for time series data. Information Sciences 513: 17-29
Liu, Y.; Zhang, T.; Li, Z. 2019: 3DCNN-Based Real-Time Driver Fatigue Behavior Detection in Urban Rail Transit. IEEE Access 7: 144648-144662
Navarrete, J.; Morell, V.; Cazorla, M.; Viejo, D.; García-Rodríguez, J.; Orts-Escolano, S. 2016: 3DCOMET: 3D compression methods test dataset. Robotics and Autonomous Systems 75: 550-557
Horaguchi, T. 2009: 3DCT Shoulder Virtual Arthroscopy Imaging for Anterior Shoulder Instability. Journal of Nihon University Medical Association 68(2): 101-104
Gorder, P. 2004: 3DESS: a search engine enters the third dimension. Computing in Science-Engineering 6(6): 4-7
Germaine, E.; Mydlarski, L.; Cortelezzi, L. 2013: 3DFLUX: a high-order fully three-dimensional flux integral solver for the scalar transport equation. Journal of Computational Physics 240: 121-144
Mandal, M.; Dhar, V.; Mishra, A.; Vipparthi, S.K. 2019: 3DFR: a Swift 3D Feature Reductionist Framework for Scene Independent Change Detection. IEEE Signal Processing Letters 26(12): 1882-1886
Wang, P.; Bai, X.; Billinghurst, M.; Zhang, S.; Wei, S.; Xu, G.; He, W.; Zhang, X.; Zhang, J. 2020: 3DGAM: using 3D gesture and CAD models for training on mixed reality remote collaboration. Multimedia Tools and Applications 80(20): 31059-31084
Xia, T.; Lin, J.; Li, Y.; Feng, J.; Hui, P.; Sun, F.; Guo, D.; Jin, D. 2021: 3DGCN: 3-Dimensional Dynamic Graph Convolutional Network for Citywide Crowd Flow Prediction. ACM Transactions on Knowledge Discovery from Data 15(6): 1-21
Zhu, Q.; Bao, J.; Huo, D.; Yang, M.; Wu, H.; Hou, C.; Zhao, Y.; Luo, X.; Fa, H. 2017: 3DGH-Fc based electrochemical sensor for the simultaneous determination of ascorbic acid, dopamine and uric acid. Journal of Electroanalytical Chemistry 799: 459-467
Potenziani, M.; Callieri, M.; Dellepiane, M.; Corsini, M.; Ponchio, F.; Scopigno, R. 2015: 3DHOP: 3D Heritage Online Presenter. Computers-Graphics 52: 129-141
Prakhya, S.M.; Lin, J.; Chandrasekhar, V.; Lin, W.; Liu, B. 2017: 3DHo PD: a Fast Low-Dimensional 3-D Descriptor. IEEE Robotics and Automation Letters 2(3): 1472-1479
Boyles, M.; Fang, S. 2003: 3DIVE: An immersive environment for interactive volume data exploration. Journal of Computer Science and Technology 18(1): 41-47
Helmer, A.; Lipprandt, M.; Frenken, T.; Eichelberg, M.; Hein, A. 2011: 3DLC: a Comprehensive Model for Personal Health Records Supporting new Types of Medical Applications. Journal of Healthcare Engineering 2(3): 321-336
Wang, G.; Wang, Y. 2009: 3DM: Domain-oriented Data-driven Data Mining. Fundamenta Informaticae 90(4): 395-426
Tei, A.I.; Doukha, Z.; Zafoune, Y. 2021: 3DMAT: data dissemination for disaster management using available technology in a smart city. Annals of Telecommunications 76(9-10): 633-645
Yang, Y.; Zhao, Y.; Mei, H.; Chen, C.; Cheng, L. 2021: 3DN C/Si C composites with different porosities for tunable lubrication performance. Ceramics International 47(10): 13948-13956
Yang, Y.; Zhao, Y.; Mei, H.; Cheng, L.; Zhang, L. 2021: 3DN C/Si C-Mo S2 self-lubricating composites with high friction stability and excellent elevated-temperature lubrication. Journal of the European Ceramic Society 41(14): 6815-6823
Satkin, S.; Rashid, M.; Lin, J.; Hebert, M. 2014: 3DNN: 3D Nearest Neighbor. International Journal of Computer Vision 111(1): 69-97
Ji, K.; Dai, H.; Deng, J.; Zang, H.; Arandiyan, H.; Xie, S.; Yang, H. 2015: 3DOM Bi VO 4 supported silver bromide and noble metals: High-performance photocatalysts for the visible-light-driven degradation of 4-chlorophenol. Applied Catalysis B: Environmental 168-169: 274-282
Li, R.; Zheng, H.; Li, D.; Zhao, K.; Li, J.; Chen, Y.; Yu, X.; Liu, J.; Zhao, Z. 2021: 3DOM Mn-Based Perovskite Catalysts Modified by Potassium: Facile Synthesis and Excellent Catalytic Performance for Simultaneous Catalytic Elimination of Soot and NOx from Diesel Engines. The Journal of Physical Chemistry C 125(46): 25545-25564
Yu, X.; Wang, L.; Zhao, Z.; Fan, X.; Chen, M.; Wei, Y.; Liu, J. 2017: 3DOM Si O2 -Supported Different Alkali Metals-Modified Mn Ox Catalysts: Preparation and Catalytic Performance for Soot combustion. ChemistrySelect 2(31): 10176-10185
Munakata, H.; Sasajima, K.; Kanamura, K. 2009: 3DOM Silica Composite Membrane Including Binary PAMPS-SPEES Polymer Electrolyte for DMFC. Fuel Cells 9(3): 226-230
Munakata, H.; Sasajima, K.; Kanamura, K. 2019: 3DOM Silica Composite Membrane Including a Binary Polymer Electrolyte for DMFC. ECS Transactions 11(1): 89-96
Ha, M.N.; Lu, G.; Liu, Z.; Wang, L.; Zhao, Z. 2016: 3DOM-la Sr Co Fe O6−δ as a highly active catalyst for the thermal and photothermal reduction of CO2 with H2O to CH4. Journal of Materials Chemistry A 4(34): 13155-13165
Storey, G.; Jiang, R.; Keogh, S.; Bouridane, A.; Li, C. 2019: 3DPalsy Net: a Facial Palsy Grading and Motion Recognition Framework Using Fully 3D Convolutional Neural Networks. IEEE Access 7: 121655-121664
Liu, Y.; Liu, J.; Argyriou, A.; Ci, S. 2018: 3DQo E-Oriented and Energy-Efficient 2D plus Depth Based 3D Video Streaming over Centrally Controlled Networks. IEEE Transactions on Multimedia 20(9): 2439-2453
Zhang, Z.T. 2013: 3DR-Tree Model Improvement Based on Enhance of Index Performance. Advanced Materials Research 765-767: 1332-1335
Cao, S.; Zhu, L.; Huang, X. 2017: 3DRISM-HI-D2MSA: an improved analytic theory to compute solvent structure around hydrophobic solutes with proper treatment of solute–solvent electrostatic interactions. Molecular Physics 116(7-8): 1003-1013
Lan, Y.; Duan, Y.; Shi, Y.; Huang, H.; Xu, K. 2021: 3DRM: Pair-wise relation module for 3D object detection. Computers-Graphics 98: 58-70
Wang, J.; Zhang, W.; Chen, X.; Lei, J.; Lai, X. 2020: 3DRTE: 3D Rotation Embedding in Temporal Knowledge Graph. IEEE Access 8: 207515-207523
Koutsoudis, A.; Stavroglou, K.; Pavlidis, G.; Chamzas, C. 2012: 3DSSE – a 3D Scene Search Engine. Journal of Cultural Heritage 13(2): 187-194
Evans, S.; Liddiard, R.; Steadman, P. 2016: 3DStock: a new kind of three-dimensional model of the building stock of England and Wales, for use in energy analysis. Environment and Planning B: Urban Analytics and City Science 44(2): 227-255
Ceglie, C.; Piro, G.; Striccoli, D.; Camarda, P. 2015: 3DStreaming: an open-source flexible framework for real-time 3D streaming services. Multimedia Tools and Applications 75(8): 4411-4440
Yang, Y.; Zhang, Y.C.; Li, J.Z. 2012: 3DTV Video Acquisition and Processing for Visual Discomfort Alleviation. Advanced Materials Research 532-533: 1214-1218
Kellnhofer, P.; Didyk, P.; Wang, S.; Sitthi-Amorn, P.; Freeman, W.; Durand, F.; Matusik, W. 2017: 3DTV at home. ACM Transactions on Graphics 36(4): 1-13
Tekalp, A.; Kurutepe, E.; Civanlar, M. 2007: 3DTV over IP. IEEE Signal Processing Magazine 24(6): 77-87
Tekalp, A.; Kurutepe, E.; Civanlar, M. 2007: 3DTV over IP. IEEE Signal Processing Magazine 24(99): 77-87
Domingues, C.; Otmane, S.; Mallem, M. 2010: 3DUI-EF: Towards a Framework for Easy Empirical Evaluation of 3D User Interfaces and Interaction Techniques. International Journal of Virtual Reality 9(1): 73-80
Zhang, Q.; An, P.; Zhang, Y.; Zhang, Z.; Wang, Y. 2011: 3DV quality model based depth maps for view synthesis in FTV system. Journal of Shanghai University (English Edition) 15(4): 335-341
Parker, S.; Kenney, C.; Gnani, D.; Thompson, A.; Mandelli, E.; Meddeler, G.; Hasi, J.; Morse, J.; Westbrook, E. 2006: 3DX: an X-ray pixel array detector with active edges. IEEE Transactions on Nuclear Science 53(3): 1676-1688
Poulsen, H. 2002: 3DXRD microscopy - a comparison with neutron diffraction. Applied Physics A: Materials Science-Processing 74: S1673-S1675
Offerman, S.; van Dijk, N.; Sietsma, J.; Lauridsen, E.; Margulies, L.; Grigull, S.; Poulsen, H.; van der Zwaag, S. 2005: 3DXRD microscopy for the study of solid-state phase transformation kinetics. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 238(1-4): 107-110
Poulsen, H.F. 2004: 3DXRD: Grain Maps, Grain Dynamics and Grain Refinements. Crystallography Reviews 10(1): 29-43
Cooper, J.R.; Loram, J.W.; Johnson, J.D.; Hodby, J.W.; Changkang, C. 1997: 3DXYScaling of the Irreversibility Line of YBa2Cu3O7Crystals. Physical Review Letters 79(9): 1730-1733
Moloni, K.; Friesen, M.; Li, S.; Souw, V.; Metcalf, P.; Hou, L.; McElfresh, M. 1997: 3DXYand Lowest Landau Level Fluctuations in Deoxygenated YBa2Cu3O7−δThin Films. Physical Review Letters 78(16): 3173-3176
Muñoz, P.; R-Moreno, M.D.; Castaño, B. 2017: 3Dana: a path planning algorithm for surface robotics. Engineering Applications of Artificial Intelligence 60: 175-192
Perraton, D.; Di Benedetto, H.; Sauzéat, C.; Hofko, B.; Graziani, A.; Nguyen, Q.T.; Pouget, S.; Poulikakos, L.D.; Tapsoba, N.; Grenfell, J. 2016: 3Dim experimental investigation of linear viscoelastic properties of bituminous mixtures. Materials and Structures 49(11): 4813-4829
An, J.; Sarai, A. 1999: 3Din Sight: An Integrated Database and Search Tool for Structure, Function and Property of Biomolecules. Trends in Glycoscience and Glycotechnology 11(62): 429-437
Boyles, M.; Fang, S. 2001: 3Dive: An Immersive Environment for Interactive Volume Data Exploration. International Journal of Virtual Reality 5(1): 38-51
Ben-Shabat, Y.; Lindenbaum, M.; Fischer, A. 2018: 3Dm FV: Three-Dimensional Point Cloud Classification in Real-Time Using Convolutional Neural Networks. IEEE Robotics and Automation Letters 3(4): 3145-3152
Lorenzo, O.G.; Pena, T.F.; Cabaleiro, J.C.; Pichel, J.C.; Rivera, F.F. 2014: 3Dy RM: a dynamic roofline model including memory latency information. The Journal of Supercomputing 70(2): 696-708
Gaich, A.; Pötsch, M. 2018: 3D Bilder und ihre Anwendung im Tagbau. BHM Berg- und Hüttenmännische Monatshefte 163(4): 141-149
Hadisi, Z.; Walsh, T.; Hossein Dabiri, S.M.; Seyfoori, A.; Godeau, B.; Charest, G.; Fortin, D.; Akbari, M. 2020: 3D printing for the future of medicine. Journal of 3D Printing in Medicine 4(1): 45-67
Xu, H.; Zhang, K.; Liu, C.; Tian, L.; Du, Y. 2018: 3D‐1D Heterostructure of Co Zn Oxyphosphide Nanosheets Anchored on Carbon Nanotubes as Electrocatalysts for the Oxygen Evolution Reaction. ChemElectroChem 5(18): 2558-2563
Pati, F.; Gantelius, J.; Svahn, H.A. 2016: 3D‐Biodruck von Gewebe‐ und Organmodellen. Angewandte Chemie 128(15): 4728-4743
Artemkina, S.; Naumov, N.; Virovets, A.; Fedorov, V. 2004: 3D‐Coordination Cluster Polymers [Ln(H 2 O) 3 Re 6 Te 8 (CN) 6 ]· n H 2 O (Ln = la 3+ , Nd 3+ ): Direct Structural Analogy with the Mononuclear Ln M(CN) 6 · n H 2 O Family. European Journal of Inorganic Chemistry 1: 142-146
Loescher, S.; Groeer, S.; Walther, A. 2018: 3D‐DNA‐Origami‐Nanopartikel: von grundlegenden Designprinzipien hin zu neuartigen Anwendungen in der weichen Materie und den (Bio‐)Nanowissenschaften. Angewandte Chemie 130(33): 10594-10607
Ghosh, S.; Das, P.; Ganguly, S.; Remanan, S.; Das, T.K.; Bhattacharyya, S.K.; Baral, J.; Das, A.K.; Laha, T.; Das, N.C. 2019: 3D‐Enhanced, High‐Performing, Super‐hydrophobic and Electromagnetic‐Interference Shielding Fabrics Based on Silver Paint and their use in Antibacterial Applications. ChemistrySelect 4(40): 11748-11754
Vincent, J.; Borderies, P.; Poirier, J.; Gobin, V. 2016: 3D‐FDTD‐based hybridisation technique for wave interaction with scatterers in layered media. Electronics Letters 52(8): 573-574
Riyajuddin, S.; Tarik Aziz, S.K.; Kumar, S.; Nessim, G.D.; Ghosh, K. 2020: 3D‐Graphene Decorated with g‐C 3 N 4 /Cu 3 P Composite: a Noble Metal‐free Bifunctional Electrocatalyst for Overall Water Splitting. ChemCatChem 12(5): 1394-1402
Jiang, X.; Xie, M.; Wei, J.; Wang, K.; Peng, L. 2019: 3D‐MIMO beamforming realised by AQPSO algorithm for cylindrical conformal phased array. IET Microwaves, Antennas-Propagation 13(15): 2701-2705
Pöhls, U.G.; Meurer, B.; Schälike, M.; Schild, R.L. 2005: 3D‐Sonographie in der Gynäkologie. Geburtshilfe und Frauenheilkunde 65(5): R85-R104
Jeong, H.; Lee, J. 2019: 3D‐Superstructured Networks Comprising Fe‐MIL‐88A Metal‐Organic Frameworks Under Mechanochemical Conditions. European Journal of Inorganic Chemistry 42: 4597-4600
Jeong, K.H.; Ghalichechian, N. 2019: 3D‐printed 4‐zone Ka‐band Fresnel lens: design, fabrication, and measurement. IET Microwaves, Antennas-Propagation 14(1): 28-35
Mendonça, D.M.H.; Rocha, D.P.; Dutra, G.S.V.; Cardoso, R.M.; Batista, A.D.; Richter, E.M.; Munoz, R.A.A. 2019: 3D‐printed Portable Platform for Mechanized Handling and Injection of Microvolumes Coupled to Electrochemical Detection. Electroanalysis 31(4): 771-777
Morales, C.D.; Morlaas, C.; Chabory, A.; Pascaud, R.; Grzeskowiak, M.; Mazingue, G. 2021: 3D‐printed ceramics with engineered anisotropy for dielectric resonator antenna applications. Electronics Letters 57(18): 679-681
Parthiban, P.; Seet, B.; Li, X.J. 2020: 3D‐printed circularly polarized concave patch with enhanced bandwidth and radiation pattern. Microwave and Optical Technology Letters 63(2): 572-580
Zhang, S.; Arya, R.K.; Pandey, S.; Vardaxoglou, Y.; Whittow, W.; Mittra, R. 2016: 3D‐printed planar graded index lenses. IET Microwaves, Antennas-Propagation 10(13): 1411-1419
Adams, J.; Slimmer, S.; Lewis, J.; Bernhard, J. 2015: 3D‐printed spherical dipole antenna integrated on small RF node. Electronics Letters 51(9): 661-662
Thavornyutikarn, B.; Lertwimol, T.; Kosorn, W.; Hankamolsiri, W.; Nampichai, N.; Janvikul, W. 2021: 3D‐printing antibacterial composite filaments containing synergistic antibacterial activity of green tea and tannic acid. Polymers for Advanced Technologies 32(12): 4733-4744
Lee, H.H.; Kang, S.H.; Jung, C.W. 2017: 3D‐spatial efficiency optimisation of MR‐WPT using a reconfigurable resonator‐array for laptop applications. IET Microwaves, Antennas-Propagation 11(11): 1594-1602
Azemi, S.N.; Baum, T.; Ghorbani, K.; Rowe, W.S. 2017: 3D‐tapered resonators for FSSs with incident angle independence. IET Microwaves, Antennas-Propagation 11(15): 2228-2234
Mitra, A.N. 1999: 3D–4D INTERLINKAGE OF qqq WAVE FUNCTIONS UNDER 3D SUPPORT FOR PAIRWISE BETHE–SALPETER KERNELS. International Journal of Modern Physics A 14(30): 4781-4802
Zhuang, Y.; Song, W.; Ning, G.; Sun, X.; Sun, Z.; Xu, G.; Zhang, B.; Chen, Y.; Tao, S. 2017: 3D–printing of materials with anisotropic heat distribution using conductive polylactic acid composites. Materials-Design 126: 135-140
Hadibi, T.; Boubekri, A.; Mennouche, D.; Benhamza, A.; Abdenouri, N. 2021: 3E analysis and mathematical modelling of garlic drying process in a hybrid solar-electric dryer. Renewable Energy 170: 1052-1069
Nathanielsz, P.; Zhu, M.; Zhang, L.; Miller, M.; Hess, B.; Nijland, M.; Moss, G.; Ford, S. 2007: 3E-4 Maternal obesity and high energy diet accelerates fetal pancreatic beta cell development. Early Human Development 83: S63-S64
Zhu, X.; Ge, R.; Sun, J.; He, C. 2013: 3E: Energy-efficient elastic scheduling for independent tasks in heterogeneous computing systems. Journal of Systems and Software 86(2): 302-314
Halpern, J.P.; Eracleous, M.; Mukherjee, R.; Gotthelf, E.V. 2001: 3EG J2016+3657: Confirming an EGRET Blazar behind the Galactic Plane. The Astrophysical Journal 551(2): 1016-1023
Carramiñana, A. 2007: 3EG J2020+4017, the γ-Cygni source- before GLAST. Astrophysics and Space Science 309(1-4): 373-378
Pitman, S. 2015: 3F2-hypergeometric functions and supersingular elliptic curves. Involve, a Journal of Mathematics 8(3): 481-490
Passemard, S.; Schaer, M.; Laurent, M.; Elmaleh, M.; Hernandez, K.; Boespflug-Tanguy, O.; deVillemeur, T.B.; Isidor, B.; Gérard, B.; Gressens, P.; Eliez, S.; Verloes, A. 2011: 3FC2.1 ASPM mutations differentially affect different areas of the cortex; Implications for the definition of microcephalia vera. European Journal of Paediatric Neurology 15: S27-S28
Debes, N.M.; Hansen, A.; Skov, L.; Larsson, H. 2011: 3FC2.4 Functional MRi of medication-naive children with Tourette syndrome does not reveal altered brain activity compared with healthy controls. European Journal of Paediatric Neurology 15: S28-S29
Uldall, P. 2011: 3FC3.2 Mortality and causes of death in children referred to a tertiary epilepsy Center. European Journal of Paediatric Neurology 15: S29-S30
Salvetti, D.; Chiaro, G.; La Mura, G.; Thompson, D.J. 2017: 3FGLzoo: classifying 3FGL unassociated Fermi-LAT γ-ray sources by artificial neural networks. Monthly Notices of the Royal Astronomical Society 470(2): 1291-1297
Mitani, S. 1940: 3F^|^älle von den congenitalen Oesopha oatresien mit Oesophagotrachealen Fistel. Journal of Nippon Medical School 11(7): 1085-1096
Tang, L.F.; Huang, L.N. 2013: 3G Car-Based Networking Technology and its Application. Advanced Materials Research 651: 896-900
Kim, D.; Lee, J.; Kim, Y.; Yoon, B.; In, H.P. 2013: 3G IP Multimedia Subsystem based framework for lawful interception. Annals of telecommunications - annales des télécommunications 69(7-8): 347-361
Guriev, S.; Melnikov, N.; Zhuravskaya, E. 2020: 3G Internet and Confidence in Government. The Quarterly Journal of Economics 136(4): 2533-2613
Liu, H.L.; Tian, D.F. 2013: 3G Mobile Network Management in the Management Information Model System Design. Advanced Materials Research 631-632: 1309-1312
Hawwar, Y.; Farag, E.; Vanakayala, S.; Pauls, R.; Yang, X.; Subramanian, S.; Sadhanala, P.; Yang, L.; Wang, B.; Li, Z.; Chen, H.; Lu, Z.; Clark, D.; Fosket, T.; Mallela, P.; Shelton, M.; Laurens, D.; Salaun, T.; Gougeon, L.; Aubourg, N.; Morvan, H.; Le Henaff, N.; Prat, G.; Charles, F.; Creach, C.; Calvez, Y.; Butel, P. 2006: 3G UMTS wireless system physical layer: baseband processing hardware implementation perspective. IEEE Communications Magazine 44(9): 52-58
Qiu, Y.; Xia, X.; Lin, H.; Zhou, G.M. 2013: 3G and DDNS-Based Remote Monitoring and Management System for the Orchard Environment. Advanced Materials Research 765-767: 2259-2263
Chia, S.; Gill, T.; Ibbetson, L.; Lister, D.; Pollard, A.; Irmer, R.; Almodovar, D.; Holmes, N.; Pike, S. 2008: 3G evolution. IEEE Microwave Magazine 9(4): 52-63
Yan, X. 2004: 3G licensing in Hong Kong: the debate. Telecommunications Policy 28(2): 213-226
Madden, G.; Ahmad, H. 2013: 3G spectrum auction aftermarket network deployment. Applied Economics Letters 20(3): 300-303
Yuan, A.; Li, X.; Lu, X. 2019: 3G structure for image caption generation. Neurocomputing 330: 17-28
Wilson, J. 2006: 3G to Web 2.0? can Mobile Telephony Become an Architecture of Participation?. Convergence: The International Journal of Research into New Media Technologies 12(2): 229-242
Young-Kwan Kim; Yi, B. 2005: 3G wireless and cdma2000 1/spl times/ evolution in Korea. IEEE Communications Magazine 43(4): 36-40
Zeng, W.; Wen, J. 2002: 3G wireless multimedia: technologies and practical issues. Wireless Communications and Mobile Computing 2(6): 563-572
Hansen, W. 2011: 3G-inequality for planar domains. Probability Theory and Related Fields 152(1-2): 357-366
Zhang, J.; Capone, A. 2006: 3G/4G/WLAN/WMAN planning and optimization. IEEE Wireless Communications 13(6): 6-7
Hudson, J.; Seth-Smith, N. 2006: 3G: the Evolution of the Serial Digital Interface (SDI). SMPTE Motion Imaging Journal 115(11-12): 472-481
Arsalane, N.; Mouhamadou, M.; Decroze, C.; Carsenat, D.; Garcia-Fernandez, M.A.; Monedière, T. 2012: 3GPP Channel Model Emulation with Analysis of MIMO-LTE Performances in Reverberation Chamber. International Journal of Antennas and Propagation 2012: 1-8
Kaushik, D.; Borah, R.; Gogoi, P. 2016: 3GPP LTE Downlink PHY Transceiver using Closed-loop Spatial Multiplexing in Frequency Selective Fading Environment. International Journal of Computer Applications 134(12): 19-24
Vinel, A. 2012: 3GPP LTE Versus IEEE 802.11p/WAVE: which Technology is Able to Support Cooperative Vehicular Safety Applications?. IEEE Wireless Communications Letters 1(2): 125-128
Mzoughi, H.; Zarai, F.; Obaidat, M.S.; Kamoun, L. 2017: 3GPP LTE-Advanced Congestion Control Based on MIH Protocol. IEEE Systems Journal 11(4): 2345-2355
Laselva, D.; Lopez-Perez, D.; Rinne, M.; Henttonen, T. 2018: 3GPP LTE-WLAN Aggregation Technologies: Functionalities and Performance Comparison. IEEE Communications Magazine 56(3): 195-203
Kumar, A.; Sengupta, J.; Liu, Y. 2010: 3GPP LTE: the Future of Mobile Broadband. Wireless Personal Communications 62(3): 671-686
Bouazizi, I.; Jarvinen, K.; Hannuksela, M. 2010: 3GPP Mobile Multimedia Services [Standards in a Nutshell. IEEE Signal Processing Magazine 27(5): 125-130
Lien, S.; Deng, D.; Lin, C.; Tsai, H.; Chen, T.; Guo, C.; Cheng, S. 2020: 3GPP NR Sidelink Transmissions Toward 5G V2X. IEEE Access 8: 35368-35382
Ali, Z.; Lagen, S.; Giupponi, L.; Rouil, R. 2021: 3GPP NR V2X Mode 2: Overview, Models and System-Level Evaluation. IEEE Access 9: 89554-89579
Jiang, T.; Zhang, J.; Tang, P.; Tian, L.; Zheng, Y.; Dou, J.; Asplund, H.; Raschkowski, L.; D'Errico, R.; Jamsa, T. 2021: 3GPP Standardized 5G Channel Model for IIo T Scenarios: a Survey. IEEE Internet of Things Journal 8(11): 8799-8815
Lien, S.; Tsai, H. 2021: 3GPP V2X on Unlicensed Spectrum: Performance Analysis and Optimum Channel Access Strategies. IEEE Transactions on Vehicular Technology 70(9): 9230-9243
Baek, S.; Kim, D.; Tesanovic, M.; Agiwal, A. 2021: 3GPP new Radio Release 16: Evolution of 5G for Industrial Internet of Things. IEEE Communications Magazine 59(1): 41-47
Barbuzzi, A.; Perala, P.H.J.; Boggia, G.; Pentikousis, K. 2012: 3GPP radio resource control in practice. IEEE Wireless Communications 19(6): 76-83
Yajima, S.; Okamura, K.; Shishido, T. 1974: 3Gd2O3·5Fe2O3GLASS OBTAINED BY RAPID QUENCHING APPARATUS USING LASER BEAM. Chemistry Letters 3(12): 1531-1534
Elvidge, J.A.; Jones, J.R.; Long, M.A.; Mane, R.B. 1977: 3H N.M.R. Demonstration of the pattern of tritiation of alkanes by ethylaluminium dichloride/tritiated water. Tetrahedron Letters 18(49): 4349-4350
Long, M.A.; Garnett, J.L.; West, J.C. 1978: 3H N.M.R. studies of tritiation of asomatics by boron tribromide and aluminium chloride catalysed tritiated water exchange. Tetrahedron Letters 19(43): 4171-4174
Burnell, E.E.; de Lange, C.A.; Capitani, D.; Angelini, G.; Ursini, O. 2010: 3H NMR of the tritiated isotopologues of methane in nematic liquid-crystal solvents. Chemical Physics Letters 486(1-3): 21-26
Amroun, A.; Breton, V.; Cavedon, J.; Frois, B.; Goutte, D.; Juster, F.; Leconte, P.; Martino, J.; Mizuno, Y.; Phan, X.; Platchkov, S.; Sick, I.; Williamson, S. 1994: 3H and 3He electromagnetic form factors. Nuclear Physics A 579(3-4): 596-626
Hennell, M.; Delves, L. 1971: 3H and 3He form factors with the HJ potential. Physics Letters B 34(3): 195-196
Yang, S.; Jackson, A. 1971: 3H and 3He form factors with the Reid potential. Physics Letters B 36(1): 1-3
Skibiński, R.; Golak, J.; Topolnicki, K.; Witała, H.; Epelbaum, E.; Glöckle, W.; Krebs, H.; Kamada, H.; Nogga, A. 2013: 3H at Next-to-Next-to-Next-to Leading Order of the Chiral Expansion. Few-Body Systems 54(7-10): 1315-1318
Sadekov, I.D.; Maksimenko, A.A.; Minkin, V.I. 1996: 3H(3R)-benzo-2,1-oxatelluroles as synthons in synthesis of o-alkyltellurophenyl carbonyl compounds. Tetrahedron 52(9): 3365-3374
Brown, L.; Rohrer, U. 1974: 3H(p, n)3He reaction with polarized protons from threshold to 2.9 me V. Nuclear Physics A 221(2): 325-332
Meyerhof, W.E.; Suffert, M.; Feldman, W. 1970: 3H(p,γ)4He reaction from 3 TO 18 me V. Nuclear Physics A 148(1): 211-224
Graziano, M.L.; Iesce, M.R.; Carotenuto, A.; Scarpati, R. 1977: 3H-1,2,4-Dioxazoles from 1,3-Oxazoles. Synthesis 08: 572-573
Hortmann, A.G.; Aron, A.J.; Bhattacharya, A.K. 1978: 3H-1,2-Benzodithiole oxides: studies directed toward the generation of o-thiobenzoquinone methide and benzo thiete. The Journal of Organic Chemistry 43(17): 3374-3378
Uskoković, M.; Iacobelli, J.; Wenner, W. 1962: 3H-1,4-Benzodiazepine-2,5(1H,4H)-dione and Related Compounds. The Journal of Organic Chemistry 27(10): 3606-3608
Ried, W.; Teubner, R. 1978: 3H-1,5-Benzodiazepine aus Ethinylketonen undo-Phenylendiaminen. Justus Liebigs Annalen der Chemie 5: 741-744
Behringer, H.; Deichmann, D. 1967: 3H-1.2.4-dithiazol-thione-(3) und 2H-1.3.4-dithiazol-thione-(2) (4-azatrithione und 4-aza-iso-trithione). Tetrahedron Letters 8(11): 1013-1017
Pews, R.G. 1979: 3H-2,1,3-benzolhiadiazine 2,2-dioxide. a novel heterocyclic system. Journal of Heterocyclic Chemistry 16(5): 1069-1071
Anastassiou, A.G.; Reichmanis, E. 1974: 3H-3-Benzazonin und das 3-Benzazoninyl-Anion. Angewandte Chemie 86(11): 410-411
Anastassiou, A.G.; Reichmanis, E. 1974: 3H-3-Benzazonine and the 3-Benzazoninyl Anion. Angewandte Chemie International Edition in English 13(6): 404-405
Lamara, K.; Redhouse, A.D.; Smalley, R.K.; Robin Thompson, J. 1994: 3H-Azepines and related systems. Part 5. Photo-induced ring expansions of o-Azidobenzonitriles to 3-Cyano- and 7-Cyano-3H- azepin-2(1H)-ones. Tetrahedron 50(18): 5515-5526
Puchinger, H.; Wieland, T. 1969: 3H-Desmethylphalloin. Justus Liebigs Annalen der Chemie 725(1): 238-240
Qadeer, G.; Rama, N.H.; Hussain, M.T.; Wong, W. 2006: 3H-Furo[3,4-c]isochromene-1,5-dione. Acta Crystallographica Section E Structure Reports Online 62(9): O4022-O4023
Lednicer, D.; Emmert, D.E. 1970: 3H-Indol-3-ols by a novel ring contraction. Journal of Heterocyclic Chemistry 7(3): 575-581
Oparina, L.A.; Shabalin, D.A.; Kolyvanov, N.A.; Ushakov, I.A.; Mal'kina, A.G.; Vashchenko, A.V.; Trofimov, B.A. 2019: 3H-Pyrroles as a platform for the catalyst-free construction of dihydropyrrolo[2,1-b]oxazoles: [4 + 2]-cycloaddition vs [2 + 3]-annulation with 1-cyano-3-hydroxyalkynes. Tetrahedron Letters 60(4): 344-347
Shabalin, D.A.; Dvorko, M.Y.; Schmidt, E.Y.; Ushakov, I.A.; Protsuk, N.I.; Kobychev, V.B.; Soshnikov, D.Y.; Trofimov, A.B.; Vitkovskaya, N.M.; Mikhaleva, A.I.; Trofimov, B.A. 2015: 3H-Pyrroles from ketoximes and acetylene: synthesis, stability and quantum-chemical insight. Tetrahedron 71(21): 3273-3281
Hartke, K.; Radau, S. 1974: 3H-Pyrrolizine und Azapentalene. Justus Liebigs Annalen der Chemie 12: 2110-2123
Matthiessen, H.v.; Koldovsky, U.; Feldhammer, B. 2008: 3H-Thymidin-Inkorporation unter endokrinem Einfluß und Hormonrezeptorgehalt menschlicher Mammakarzinome. Deutsche Medizinische Wochenschrift 105(41): 1424-1427
Hecker, M.; Schroeter, A. 1984: 3H-Thymidininkorporation nach Isoleucinlimitation in "stringent" und "relaxed" kontrollierten Stämmen von Escherichia coli. Zeitschrift für allgemeine Mikrobiologie 24(1): 57-60
Pollow, K.; Juchem, M.; Grill, H.J.; Manz, B.; Beier, S.; Henderson, D.; Elger, W. 1989: 3H-ZK 98,734, a new 11β-aryl substituted antigestagen: binding characteristics to receptor and serum proteins. Acta Endocrinologica 120(3_Suppl): S161-S162
Lamara, K.; Smalley, R.K. 1991: 3H-azepines and related systems. Part 4. Preparation of 3H-azepin-2-ones and 6H-azepino[2,1-b]quinazolin-12-ones by photo-induced ring expansions of aryl azides. Tetrahedron 47(12-13): 2277-2290
Panin, L.E.; Trubitsyna, O.M.; Tret'yakova, T.A.; Usynin, I.F. 1992: 3H-corticosterone reception by rat hepatocytes. Bulletin of Experimental Biology and Medicine 114(4): 1429-1432
Zimmermann, T.; Brede, O. 2004: 3H-indolium salts efficiently prepared from N-substituted anilines and α-branched ketones by an one-pot synthesis. Journal of Heterocyclic Chemistry 41(1): 103-108
Hutchinson, D.W.; Wilkes, N.M.; Au, H.Y.N. 1981: 3H-labelled bilirubin and biliverdin. Journal of Labelled Compounds and Radiopharmaceuticals 18(10): 1401-1404
Krzymowski, T.; Stefanczyk, S.; Kotwica, J.; Czarnocki, J.; Glazer, T.; Janowski, T.; Chmiel, J. 1982: 3H-oestradiol-17β counter current transfer from the ovarian vein into the ovarian artery in cows. Animal Reproduction Science 4(3): 199-206
Henning, U.; Krieger, K.; Klimke, A. 1998: 3H-spiperone binds with high affinity to a non-dopaminergic site on human B-lymphocytes, EBV transformed lymphoblasts and macrophages. European Neuropsychopharmacology 8: S250-S251
Hendee, W.; Ibbott, G.; Crusha, K. 1972: 3H-toluene, 3H-water and 3H-hexadecane as internal standards for toluene- and dioxane-based liquid scintillation cocktails. The International Journal of Applied Radiation and Isotopes 23(2): 90-95
Khelil, A.; Beghdad, R.; Khelloufi, A. 2020: 3HA: Hybrid Hole Healing Algorithm in a Wireless Sensor Networks. Wireless Personal Communications 112(1): 587-605
Guzman-Ramirez, L. 2016: 3He Abundances in Planetary Nebulae. Proceedings of the International Astronomical Union 12(S 323): 99-103
Mikhin, N.; Maidanov, V. 2007: 3He Anomalously High Spin Diffusion in Solid Para-Hydrogen. Journal of Low Temperature Physics 148(5-6): 701-705
Carella, E.; González, M. 2013: 3He Behaviour in Li2Ti O3 Ceramics for Fusion Breeding Blanket Applications. Energy Procedia 41: 26-33
Walton, D. 1966: 3He Cryostat for Operation to 0.2°K. Review of Scientific Instruments 37(6): 734-736
Mate, C.F.; Harris‐Lowe, R.; Davis, W.L.; Daunt, J.G. 1965: 3He Cryostat with Adsorption Pumping. Review of Scientific Instruments 36(3): 369-373
Roman, S.; Basak, A.; England, J.; Nelson, J.; Sanderson, N.; Santos, F.; Eiró, A. 1977: 3He D-state effects in (d, 3He) reactions. Nuclear Physics A 289(2): 269-274
Saarela, M.; Paaso, J.; Krotscheck, E.; SchÖRkhuber, K. 2001: 3He DIMERS IN TWO-DIMENSIONAL 3He-4He MIXTURE FILMS. International Journal of Modern Physics B 15(10n 11): 1605-1608
Yamaguchi, H.; Oda, T.; Hieda, M.; Matsushita, T.; Wada, N. 2012: 3He Effect on 2D Superfluidity in 3He–4He Mixture Films on Planar Gold. Journal of Low Temperature Physics 171(5-6): 650-656
Bunkov, Y.M. 2009: 3He Experiments: Insights into Cosmology and Atomic Physics. Journal of Low Temperature Physics 158(1-2): 118-128
Steel, S.C.; Zawadzki, P.; Harrison, J.P.; Sachrajda, A. 1990: 3He Film flow: 4He substrate coating effect. Physica B: Condensed Matter 165-166: 599-600
Billups, W.; Gonzalez, A.; Gesenberg, C.; Luo, W.; Marriott, T.; Alemany, L.B.; Saunders, M.; Jiménez-Vázquez, H.A.; Khong, A. 1997: 3He NMR spectra of highly reduced C60. Tetrahedron Letters 38(2): 175-178
Saunders, M.; Jimenez-Vazquez, H.A.; Bangerter, B.W.; Cross, R.J.; Mroczkowski, S.; Freedberg, D.I.; Anet, F.A.L. 1994: 3He NMR: a Powerful new Tool for Following Fullerene Chemistry. Journal of the American Chemical Society 116(8): 3621-3622
Robinson, H.G.; Myint, T. 1964: 3He NUCLEAR ZEEMAN MASER. Applied Physics Letters 5(6): 116-118
Sayres, A.; Coppola, M. 1964: 3He Neutron Spectrometer Using Pulse Risetime Discrimination. Review of Scientific Instruments 35(4): 431-437
Yuan, L.; Efros, V.D.; Leidemann, W.; Tomusiak, E.L. 2010: 3He Transverse Electron Scattering Response Function with Δ Degrees of Freedom. Few-Body Systems 50(1-4): 375-377
Lee, D.M.; Markowitz, S.S. 1974: 3He activation analysis for S, Cl, K and Ca. Journal of Radioanalytical Chemistry 19(1): 159-167
Stensland, A.; Baumberger, T.; Mork, K.A.; Lilley, M.D.; Thorseth, I.H.; Pedersen, R.B. 2019: 3He along the ultraslow spreading AMOR in the Norwegian-Greenland Seas. Deep Sea Research Part I: Oceanographic Research Papers 147: 1-11
Webber, W. 1997: 3He and 2H measurements and what they tell us about cosmic ray propagation in the galaxy. Advances in Space Research 19(5): 755-758
Strueve, W.; Hajduk, C.; Sauer, P.; Theis, W. 1987: 3He and 3H electromagnetic form factors. Nuclear Physics A 465(4): 651-685
Yazdanpanah, M.; Mirjalili, A.; Tehrani, S.A.; Taghavi-Shahri, F. 2009: 3He and 3H polarized structure functions, using the constituent quark model. Nuclear Physics A 831(3-4): 243-262
Adachi, G.; Sakaguchi, H.; Nagao, K. 1992: 3He and 4He from D2 absorbed in la Ni5. Journal of Alloys and Compounds 181(1-2): 469-476
Craig, H.; Horibe, Y. 1994: 3He and methane in Sakurajima Caldera, Kagoshima Bay, Japan. Earth and Planetary Science Letters 123(1-3): 221-226
Jean-Baptiste, P.; Belviso, S.; Alaux, G.; Nguyen, B.; Mihalopoulos, N. 1990: 3He and methane in the Gulf of Aden. Geochimica et Cosmochimica Acta 54(1): 111-116
Bochsler, P.; Agafonov, Y.N.; Bühler, F.; Busemann, H.; Eismont, N.A.; Grimberg, A.; Heber, V.S.; Salerno, E.; Wieler, R.; Zastenker, G.N. 2005: 3He and4He in the local interstellar gas as observed with the COLLISA foil experiment on the Mir space station. Proceedings of the International Astronomical Union 1(S 228): 77-80
Watanabe, M.; Nakahara, H.; Murakami, Y. 1979: 3He bombardment of Manganese for the production of 55Co. The International Journal of Applied Radiation and Isotopes 30(10): 625-630
Zadro, M.; Blagus, S.; Miljanić, .; Lattuada, M.; Riggi, F.; Spitaleri, C. 1986: 3He break-up and quasi-free7Li(p, α)4He reaction at low energies. Zeitschrift für Physik A Atomic Nuclei 325(1): 119-120
Okihana, A.; Fukunaga, K.; Kakigi, S.; Ohsawa, T.; Sekioka, T.; Yokota, H.; Takashima, R. 1987: 3He breakup reaction by 65 me V protons in the FSi region. Nuclear Physics A 463(1-2): 423-428
Snow, C.; Browning, J.; Bond, G.; Rodriguez, M.; Knapp, J. 2014: 3He bubble evolution in Er T2: a survey of experimental results. Journal of Nuclear Materials 453(1-3): 296-306
Galasiewicz, Z. 1971: 3He concentration waves as type of temperature waves in 3He - he Ii solutions. Physics Letters A 34(1): 7-8
Harrison, R.B.; Hatton, J. 1972: 3He diffusion in liquid isotopic mixtures. Journal of Low Temperature Physics 6(1-2): 43-50
Saarela, M. 2000: 3He dimers in two-dimensional 3He–4He mixture films. Physica B: Condensed Matter 284-288: 331-332
Ihas, G.; Avenel, O.; Aarts, R.; Varoquaux, E. 1994: 3He effect on flow dissipation of superfluid4He through a microaperture. Physica B: Condensed Matter 194-196: 583-584
Duggan, J.; Park, J.; Danielopoulos, S.; Miller, P.; Lin, J.; Duncan, M.; Dangle, R. 1970: 3He elastic scattering from 10B and 14C in the range 4 to 18 me V. Nuclear Physics A 151(1): 107-119
Kozlovsky, I.; Goldshtein, V.; Kuplennikov, E.; Malyarzh, E.; Tartakovsky, V.; Shostak, V. 1981: 3He electrodisintegration: Angular distributions and energy spectra. Nuclear Physics A 368(3): 493-502
Zhang, T.X.; Ohsawa, Y. 1995: 3He enrichments by magnetosonic waves in current-driven instabilities. Solar Physics 158(1): 115-137
Guyer, R. 1990: 3He films and the RKKY interaction. Physica B: Condensed Matter 165-166: 701-702
Derzon, M.S.; Slaughter, D.R.; Prussin, S.G. 1985: 3He gas scintillation spectrometer for fusion neutron measurements. Review of Scientific Instruments 56(5): 1090-1092
Galli, D.; Stanghellini, L.; Tosi, M.; Palla, F. 1997: 3He in Planetary Nebulae: a Challenge to Stellar Evolution Models. The Astrophysical Journal 477(1): 218-225
Lal, D.; Craig, H.; Wacker, J.; Poreda, R. 1989: 3He in diamonds: the cosmogenic component. Geochimica et Cosmochimica Acta 53(2): 569-574
Balser, D.S.; Bania, T.M.; Rood, R.T.; Wilson, T.L. 1999: 3He in the Milky way Interstellar Medium: Abundance Determinations. The Astrophysical Journal 510(2): 759-783
Aaltonen, J.; Dmitriev, V.D.; Gromova, E.A.; Heselius, S.-.; Jakovlev, V.A. 1996: 3He induced nuclear reactions on237Np targets. Journal of Radioanalytical and Nuclear Chemistry Articles 203(1): 67-77
Bromley, D A.; Almqvist, E. 1960: 3He induced reactions. Reports on Progress in Physics 23(1): 544-629
Roobol, L.P.; Ockers, W.; Remeijer, P.; Steel, S.C.; Jochemsen, R.; Frossati, G. 1994: 3He low temperature viscosity. Physica B: Condensed Matter 194-196: 773-774
Gilles, H.; Monfort, Y.; Hamel, J. 2003: 3He maser for earth magnetic field measurement. Review of Scientific Instruments 74(10): 4515-4520
Drabkin, G.; Noskin, V.; Tarovik, E.; Yagud, A. 1973: 3He mass diffusion near the λ-line in liquid he i. Physics Letters A 43(1): 83-84
Keith, C.D.; Gould, C.R.; Haase, D.G.; Roberson, N.R.; Tornow, W.; Wilburn, W.S. 1992: 3He melting curve thermometry in a nuclear polarization experiment. Hyperfine Interactions 75(1-4): 525-532
Roobol, L.P.; Remeijer, P.; van Woerkens, C.M.; Ockers, W.; Steel, S.C.; Jochemsen, R.; Frossati, G. 1994: 3He melting curves in high magnetic fields. Physica B: Condensed Matter 194-196: 741-742
Beddingfield, D.; Johnson, N.; Menlove, H. 2000: 3He neutron proportional counter performance in high gamma-ray dose environments. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 455(3): 670-682
Heil, W.; Andersen, K.; Hofmann, D.; Humblot, H.; Kulda, J.; Lelievre-Berna, E.; Schärpf, O.; Tasset, F. 1997: 3He neutron spin filter at ILL. Physica B: Condensed Matter 241-243: 56-63
Heil, W.; Dreyer, J.; Hofmann, D.; Humblot, H.; Lelievre-Berna, E.; Tasset, F. 1999: 3He neutron spin-filter. Physica B: Condensed Matter 267-268: 328-335
Mizusaki, T.; Hirayoshi, Y.; Maekawa, S.; Hirai, A. 1974: 3He nuclear magnetic relaxation in solid helium near its melting temperature. Physics Letters A 50(3): 165-166
Buzerak, R.F.; Rollefson, R.J. 1980: 3He on Mg O: Nuclear magnetic relaxation properties. Journal of Low Temperature Physics: 38-38(1-2): 105-118
Bizard, G.; Le Brun, C.; Berger, J.; Duflo, J.; Goldzahl, L.; Plouin, F.; Oostens, J.; Van Den Bossche, M.; Vu Hai, L.; Fabbri, F.; Picozza, P.; Satta, L. 1977: 3He production in 4He fragmentation on protons at 6.85 Ge V/c. Nuclear Physics A 285(3): 461-468
Pan, S.H.; Hudson, E.W.; Davis, J.C. 1999: 3He refrigerator based very low temperature scanning tunneling microscope. Review of Scientific Instruments 70(2): 1459-1463
Zhou, X.; Zhang, L.; Wang, W.; Liu, Q.; Peng, S.; Ding, W.; Long, X.; Cheng, G.; Liang, J.; Fu, Y. 2015: 3He retention and structural evolution in erbium tritides: Phase and aging effects. Journal of Nuclear Materials 461: 157-163
Thiébaut, S.; Douilly, M.; Contreras, S.; Limacher, B.; Paul-Boncour, V.; Décamps, B.; Percheron-Guégan, A. 2007: 3He retention in la Ni5 and Pd tritides: Dependence on stoichiometry, 3He distribution and aging effects. Journal of Alloys and Compounds 446-447: 660-669
Miley, G.H. 1988: 3He sources for D-3He fusion power. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 271(1): 197-202
Fukuda, K.; Hirayoshi, Y.; Hirai, A. 1974: 3He spin diffusion coefficient and temperature variation of roton gap energy in dilute 3He-4He mixtures. Physics Letters A 47(5): 377-378
Sprague, D.; Alikacem, N.; Sheldon, P.; Hallock, R. 1994: 3He spin diffusion in thin4He films. Physica B: Condensed Matter 194-196: 631-632
Jacob, R.E.; Morgan, S.W.; Saam, B. 2002: 3He spin exchange cells for magnetic resonance imaging. Journal of Applied Physics 92(3): 1588-1597
McInerney, M.F. 1981: 3He superfluid phases in a magnetic field. Journal of Low Temperature Physics 45(3-4): 249-269
Trocellier, P.; Gosset, D.; Simeone, D.; Costantini, J.M.; Deschanels, X.; Roudil, D.; Serruys, Y.; Grynszpan, R.; Saudé, S.; Beauvy, M. 2003: 3He thermal diffusion coefficient measurement in crystalline ceramics by μnra depth profiling. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 210: 507-512
Engert, J.; Fellmuth, B. 2000: 3He vapour-pressure measurements between 0.65 and. Physica B: Condensed Matter 284-288: 2002-2003
Funck, C.; Langanke, K. 1990: 3He(3H, γ)6LI: SOURCE OF 6Li PRODUCTION IN THE BIG BANG?. International Journal of Modern Physics A 05(01): 195-202
Uesaka, T.; Nishikawa, J.; Okamura, H.; Suda, K.; Sakai, H.; Tamii, A.; Sekiguchi, K.; Yako, K.; Sakoda, S.; Kato, H.; Hatano, M.; Maeda, Y.; Saito, T.; Uchigashima, N.; Sakamoto, N.; Satou, Y.; Ohnishi, T.; Wakui, T.; Wakasa, T.; Itoh, K. 2002: 3He(d,p)4He reaction at intermediate energies and impulse picture of the (d,p) reactions. Physics Letters B 533(1-2): 1-7
Oryu, S.; Uzu, E.; Sunahara, H.; Yamada, T.; Tabaru, G.; Hino, T.; Kaneko, T. 1998: 3He(d,p)4He reaction calculation with three-body Faddeev equations. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 402(2-3): 402-407
Higinbotham, for the Jefferson Lab, D. 2004: 3He(e,e'p)d and 3He(e,e'p)pn at high momentum transfer. The European Physical Journal A 19(S 1): 171-174
Middleton, D.G.; Annand, J.R.M.; Ases Antelo, M.; Ayerbe, C.; Barneo, P.; Baumann, D.; Bermuth, J.; Bernauer, J.; Blok, H.P.; Böhm, R.; Bosnar, D.; Ding, M.; Distler, M.O.; Friedrich, J.; García Llongo, J.; Glazier, D.I.; Grabmayr, P.; Hehl, T.; Heim, J.; Hesselink, W.H.A.; Jans, E.; Jover Mañas, G.; Kohl, M.; Lapikás, L.; MacGregor, I.J.D.; Martin, I.; McGeorge, J.C.; Merkel, H.; Merle, P.; Monstad, K.; Moschini, F.; Müller, U.; Pérez Benito, R.; Pospischil, T.; Potokar, M.; Rosner, G.; Seimitz, M.; de Vries, H.; Walcher, T.; Watts, D.P.; Weinriefer, M.; Weiss, M.; Zihlmann, B. 2008: 3He(e,e′pp) and 3He(e,e′pn) reactions at Am PS and MAMi. Few-Body Systems 44(1-4): 171-174
King, D.E.; Czanderna, A. 1990: 3He+ ISS of 11-mercaptoundecanoic acid self-assembled monolayers onto gold. Surface Science 235(2-3): L329-L332
Jull, A.J.T.; Lal, D.; Taylor, S.; Wieler, R.; Grimberg, A.; Vacher, L.; McHargue, L.R.; Freeman, S.P.H.T.; Maden, C.; Schnabel, C.; Xu, S.; Finkel, R.C.; Kim, K.J.; Marti, K. 2007: 3He,20,21,22Ne,14C,10Be,26Al, and36Cl in magnetic fractions of cosmic dust from Greenland and Antarctica. Meteoritics-Planetary Science 42(10): 1831-1840
Guilleumas, M.; Pi, M.; Barranco, M.; Suraud, E. 1995: 3He-3He drop collisions in the Vlasov dynamics. Zeitschrift fr Physik D Atoms, Molecules and Clusters 34(1): 35-46
Steele, L.M.; Yeager, C.J.; Finotello, D. 1992: 3He-4He mixture films in Anopore membranes. Journal of Low Temperature Physics 89(3-4): 661-664
Bashkin, E.; Meyerovich, A. 1981: 3He-4He quantum solutions. Advances in Physics 30(1): 1-92
Buchholtz, L. 1994: 3He-B in a realistic thin film: Current on a rough substrate. Physica B: Condensed Matter 194-196: 785-786
Buchholtz, L. 1994: 3He-B in a thin film: a comparison of boundary conditions. Physica B: Condensed Matter 194-196: 783-784
Guyer, R.A. 1973: 3He-CMN boundary resistance. Journal of Low Temperature Physics 10(1-2): 157-165
Lauter, H.; Godfrin, H.; Frank, V.; Schildberg, H. 1990: 3He-Layers on Graphite. Physica B: Condensed Matter 165-166: 597-598
Finotello, D. 1990: 3He-induced free vortices in thin superfluid films. Physica B: Condensed Matter 165-166: 767-768
Michel, R.; Galas, M. 1983: 3He-induced reactions on cobalt. Nuclear Physics A 404(1): 77-92
Lauter, H. 1990: 3He-layers on graphite. Physica B: Condensed Matter 165-166: 597-598
Greywall, D.S.; Busch, P.A. 1982: 3He-melting-curve thermometry. Journal of Low Temperature Physics 46(5-6): 451-465
Lim, T. 1975: 3He-n vertex constant and the structure of 4He. Physics Letters B 55(3): 252-254
Myers, D.J.; Halsey, W.G.; King, J.S.; Vincent, D.H. 1980: 3He-release from copper. Radiation Effects 51(3-4): 251-252
Pálla, G.; Pegel, C. 1974: 3He-scattering from the stable even Sm-isotopes at e τ=40.9 me V. Zeitschrift für Physik 268(1): 51-55
Pérez, N.M. 1994: 3He/4He Isotopic Ratios in Volcanic-Hydrothermal Discharges from the Canary Islands, Spain: Implications on the Origin of the Volcanic Activity. Mineralogical Magazine 58A(2): 709-710
Uhlig, K.; Hehn, W. 1994: 3He/4He dilution refrigerator combined with Gifford-Mc Mahon cooler. Cryogenics 34(7): 587-589
Uhlig, K. 2002: 3He/4He dilution refrigerator precooled by Gifford–Mc Mahon cooler II. Measurements of the vibrational heat leak. Cryogenics 42(9): 569-575
Uhlig, K.; Hehn, W. 1993: 3He/4He dilution refrigerator with Gifford-Mc Mahon precooling. Cryogenics 33(11): 1028-1031
Sano, Y.; Nakamura, Y.; Wakita, H.; Notsu, K.; Kobayashi, Y. 1986: 3He/4He ratio anomalies associated with the 1984 Western Nagano Earthquake: Possibly induced by a diapiric magma. Journal of Geophysical Research: Solid Earth 91(B 12): 12291-12295
Nicolaysen, K. 1998: 3He/4He ratios in Kerguelen Archipelago Basalts: new Evidence for an Undegassed Mantle Plume Component. Mineralogical Magazine 62A(2): 1083-1084
Uesaka, T.; Sakai, H.; Okamura, H.; Tamii, A.; Satou, Y.; Ohnishi, T.; Sekiguchi, K.; Yako, K.; Suda, K.; Sakoda, S.; Nishikawa, J.; Hatano, M.; Kato, H.; Maeda, Y.; Sakamoto, N.; Wakasa, T.; Itoh, K. 2001: 3He4He reaction at intermediate energies. Nuclear Physics A 684(1-4): 606-608
Krohn Jr., V.E. 1964: 3He–Ne–CH4 Mixtures in a Proportional Counter for Thermal Neutrons. Review of Scientific Instruments 35(7): 853-854
Ma, J.; Kim, S.; Chan, M.H. 1994: 3He- 4He mixture in aerogel. Physica B: Condensed Matter 197(1-4): 249-253
Inan, H.Z.; Inan, T. 2015: 3Hs Education: Examining hands-on, heads-on and hearts-on early childhood science education. International Journal of Science Education 37(12): 1974-1991
Kingsbury, C.A.; Durham, D.L.; Hutton, R. 1978: 3JCH coupling constants in oxiranes, thiiranes, and cyclopropanes. The Journal of Organic Chemistry 43(25): 4696-4700
Srivastava, P.; Srivastava, S. 1985: 3JSn CCH(o) of the adducts of phenyltin compounds. Spectrochimica Acta Part A: Molecular Spectroscopy 41(5): 687-690
Cabrera, O.; Franch, X.; Marco, J. 2017: 3LCon Ont: a three-level ontology for context modelling in context-aware computing. Software-Systems Modeling 18(2): 1345-1378
Faraji, S.; Ijspeert, A. J. 2017: 3LP: a linear 3D-walking model including torso and swing dynamics. The International Journal of Robotics Research 36(4): 436-455
Tullo, A. 2000: 3M Discontinues Scotchgard Line. Chemical-Engineering News Archive 78(21): 9-10
Tullo, A. 2000: 3M Study Raised EPA's Concerns. Chemical-Engineering News Archive 78(22): 12-13
Torisu, T.; Kaku, N.; Tumura, H.; Taira, H.; Tomari, K. 2003: 3M integral bipolar cup system for dysplastic osteoarthritis. The Journal of Bone and Joint Surgery. British volume 85-B(6): 822-825
Frankish, P. 1989: 3M researchers carry out fourth space shuttle experiment. Vacuum 39(6): 604-605
Reisch, M. 1994: 3M, Union Carbide join breast implant fund. Chemical-Engineering News Archive 72(16): 5-6
Wang, W.; Liu, Y.; Srikant, R.; Ying, L. 2021: 3M-RL: Multi-Resolution, Multi-Agent, Mean-Field Reinforcement Learning for Autonomous UAV Routing. IEEE Transactions on Intelligent Transportation Systems: 1-12
Wei, B.; Feng, X.; Wang, W. 2021: 3M: a Multi-Scale and Multi-Directional Method for Multi-Focus Image Fusion. IEEE Access 9: 48531-48543
Tjahjadi, T.; Bowen, D.; Bevan, J.R. 1990: 3M: a user modelling interface of an expert system for X-ray topographic image interpretation. Interacting with Computers 2(3): 259-278
Van den Heuvel, G.; Kroeze, L.; Ligtenberg, M.; Grunberg, K.; von Rhein, D.; Jansen, E.; de Voer, R.; Van den Heuvel, M. 2020: 3MO Mutational signatures in the perspective of tumour mutational burden in patients with non-small cell lung cancer. Annals of Oncology 31: S1217-S1218
Marinelli, D.; Pisegna, S.; Giammaruco, M.; Chesi, P.; Mammone, G.; Ceddia, S.; Gazzaniga, P.; Cortesi, E.; Gelibter, A. 2021: 3MO Oncogenic non-G12C KRAS mutations in KRAS G12C mutated lung adenocarcinomas in TRACERx and GENIE: a reservoir for intrinsic resistance to KRAS G12C inhibitors. Annals of Oncology 32: S1345-S1346
Park, J.; Kim, J.; Shin, Y.; Lee, J.; Park, J. 2010: 3MW class offshore wind turbine development. Current Applied Physics 10(2): S307-S310
Lee, H.; Okada, H.; Wakahara, A.; Ohshima, T.; Itoh, H.; Kawakita, S.; Imaizumi, M.; Matsuda, S.; Yoshida, A. 2003: 3Me V electron irradiation-induced defects in Cu in Se2 thin films. Journal of Physics and Chemistry of Solids 64(9-10): 1887-1890
Dinnebier, R.E.; Pannach, M.; Freyer, D. 2013: 3Mg(OH)2·Mg SO4·8H2O: a Metastable Phase in the System Mg(OH)2-Mg SO4-H2O. Zeitschrift für anorganische und allgemeine Chemie 639(10): 1827-1833
Ikhe, A.B.; Han, S.C.; Prabakar, S.J.R.; Park, W.B.; Sohn, K.; Pyo, M. 2020: 3Mg/Mg2Sn anodes with unprecedented electrochemical performance towards viable magnesium-ion batteries. Journal of Materials Chemistry A 8(28): 14277-14286
Chonacky, N.; Winch, D. 2005: 3Ms for Instruction, Part 2: Maple, Mathematica, and Matlab. Computing in Science and Engineering 7(4): 14-23
Chonacky, N.; Winch, D. 2005: 3Ms for Instruction: Reviews of Maple, Mathematica, and Matlab. Computing in Science-Engineering 7(3): 7-13
Paulson, J. 2009: 3M™ Rapid Detection Flu a + B Test. Molecular Diagnosis-Therapy 13(1): 15-18
Diana, A.; Della Corte, C.; Carlino, F.; Ciaramella, V.; Franzese, E.; Centonze, S.; Trovato, C.; Vassallo, I.; Iovino, F.; Procaccini, E.; Ciardiello, F.; Morgillo, F.; Orditura, M. 2020: 3O Efficacy of the triple combination of Estrogen Receptor, CDK4/6 and PI3K pathway inhibitors in ex-vivo models of breast cancer. Annals of Oncology 31: S245-S246
Nederlof, I.; Hajizadeh, S.; Sobhani, F.; Raza, S.; Desmedt, C.; Salgado, R.; Kok, M.; Yuan, Y.; Horlings, H. 2021: 3O Spatial analysis of lymphocytes and fibroblasts identifies biological relevant patterns in estrogen receptor positive breast cancer. Annals of Oncology 32: S22-S23
Cartland, H.E.; Pimentel, G.C. 1990: 3P mercury, cadmium, and zinc photosensitized chemistry of vinyl halides in krypton matrix. The Journal of Physical Chemistry 94(2): 536-540
Marzuki, M.A. 2018: 3P-Student Friendly: Instructional Transformation in Boosting Creative Teaching-Learning of the 21st Century. Advanced Science Letters 24(11): 8332-8334
Alberg, M.; Henley, E.; Wilets, L.; Kunz, P. 1990: 3P0 AND 3S1 contributions to. Nuclear Physics A 508: 323-327
Wang, Y.; Peng, Q.; Liang, H.; Brik, M.G.; Suchocki, A. 2019: 3P0 → 1D2 non-radiative relaxation control via IVCT state in Pr3+-doped Na2Ln2Ti3O10 (Ln=La, Gd) micro-crystals with triple-layered perovskite structure. Journal of Luminescence 213: 510-518
Alanakyan, R. 1994: 3P0, bottomium decays in the minimal supersymmetric standard model. Physics Letters B 321(4): 378-380
Zverev, M.; Clark, J.; Khodel, V. 2003: 3P2–3F2 pairing in dense neutron matter: the spectrum of solutions. Nuclear Physics A 720(1-2): 20-42
Baldo, M.; Elgarøy, .; Engvik, L.; Hjorth-Jensen, M.; Schulze, H. 1998: 3P2−3F2pairing in neutron matter with modern nucleon-nucleon potentials. Physical Review C 58(4): 1921-1928
Song, D.Z.; Yun, C.; Zhang, D.; Fan, M. 2012: 3P4R Grinding Robot Kinematics Analysis. Advanced Materials Research 466-467: 535-540
Ibraheem, A.M.; Rahouma, K.H.; Hamed, H.F.A. 2021: 3PCNNB-Net: Three Parallel CNN Branches for Breast Cancer Classification Through Histopathological Images. Journal of Medical and Biological Engineering 41(4): 494-503
Zou, J.; Shan, L. 2013: 3PL-HUB Supply Chain Logistics Cost Simulation Study Based on System Dynamics. Advanced Materials Research 779-780: 1752-1757
Kakouros, S.; Räsänen, O. 2016: 3PRO – An unsupervised method for the automatic detection of sentence prominence in speech. Speech Communication 82: 67-84
Barišić, N. 2011: 3PS1.4 Genetic heterogeneity and patophysiological mechanisms in congenital myasthenic syndromes. European Journal of Paediatric Neurology 15: S4-S5
Dorn, V. 2011: 3PS4.2 Diplopia. European Journal of Paediatric Neurology 15: S6-S7
Dai, Y.; Li, B.D.; Quan, H.D.; Lü, C.X. 2010: 3PW12O40: a high-efficient and green catalyst for the acetalization of carbonyl compounds. Chinese Chemical Letters 21(6): 678-681
Babu, J.K.; Rao, B.S.; Suresh, K.; Sridhar, M.; Murthy, K. 2019: 3Photoluminescence study of activator ions (Eu, Tb) co-doped in different host environments (Ca O, Ca Si O3, Ca Al2O4 and Ca Si Al2O6). Materials Today: Proceedings 18: 2530-2539
Kawano, T.; Kikukawa, Y. 1994: 3Pn−1 model with quarks and "η′" mass by means of fermions coupled to domain wall. Nuclear Physics B - Proceedings Supplements 34: 602-604
Rainayee, D.R.A.; Rouf Ahmad Mir, R.A.M.; Ahmad, A. 2012: 3P's influencing Customer Satisfaction in Retail Banking: An empirical study. International Journal of Scientific Research 2(5): 371-373
Phillips, D.K. 1985: 3R Standards Implementation. Journal of Transportation Engineering 111(2): 131-137
Coutinho, S.; Tavares, M.; Barboza, C.; Frazão, N.; Moreira, E.; Azevedo, D.L. 2017: 3R and 2H polytypes of Mo S2: DFT and DFPT calculations of structural, optoelectronic, vibrational and thermodynamic properties. Journal of Physics and Chemistry of Solids 111: 25-33
Liu, O.P.; Ting, H.; Tee, O.P.; Hoon, O.P. 2010: 3R,1R or 3R + 1R? the Teachers' Dilemma. Procedia - Social and Behavioral Sciences 7: 191-200
Neo, H.; Teo, C.; Goh, J.X. 2017: 3R-IG: An Edutainment Approach to Reduce, Reuse and Recycle. Advanced Science Letters 23(11): 10492-10496
Ahmed Khan, T.; Shazia Adeel, S.; Batool, K.; Ahmad Khan, B. 2020: 3Rs expression in quality control paradigms of human vaccines. Pharmacy-Pharmacology International Journal 8(4): 201-207
Argenti, L.; Moccia, R. 2007: 3S,3Po,e,3De,oresonance series in helium. Journal of Physics B: Atomic, Molecular and Optical Physics 40(18): 3655-3675
Norton, G.; Schroeder, J.; Klody, G.; Strathman, M. 1989: 3S-R10 automated RBS system. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 40-41: 785-789
Geißler, H. 1962: 3S-Terme des Heliums. Berechnung mit Hilfe des Variationsverfahrens. Annalen der Physik 464(5-6): 217-220
Wang, Y.; Yang, C. 2016: 3S-cart: a Lightweight, Interactive Sensor-Based Cart for Smart Shopping in Supermarkets. IEEE Sensors Journal 16(17): 6774-6781
Zhong, M.; Liu, M.; He, Y. 2013: 3SEPIAS: a Semi-Structured Search Engine for Personal Information in d Ataspace System. Information Sciences 218: 31-50
Bahrim, C.; Thumm, U.; Fabrikant, I I. 2001: 3Seand1Sescattering lengths for e-+ Rb, Cs and Fr collisions. Journal of Physics B: Atomic, Molecular and Optical Physics 34(6): L195-L201
Elschner, S.; Brand, J.; Goldacker, W.; Hollik, M.; Kudymow, A.; Strauss, S.; Zermeno, V.; Hanebeck, C.; Huwer, S.; Reiser, W.; Noe, M. 2018: 3S–Superconducting DC-Busbar for High Current Applications. IEEE Transactions on Applied Superconductivity 28(4): 1-5
Re, M.; Brighina, E.; Arrigoni, F.; Bonato, S.; D'Angelo, M.; Turconi, A.; Reni, G.; Bresolin, N.; Triulzi, F. 2012: 3T MR Brain findings in genetically defined hereditary spastic paraplegia. Gait-Posture 35: S41-S42
Lanfermann, H.; Pilatus, U.; Preibisch, C.; Hattingen, E.; Weidauer, S.; Bink, A.; Gürvit, .; Porto, L.; Wallenhorst, T.; Volz, S.; Lienerth, C.; Zanella, F.E. 2006: 3T in der Neuroradiologie- Spannungsfeld zwischen Wunsch und Wirklichkeit. Clinical Neuroradiology 16(2): 91-108
Bocchio, R. 1977: 3T muscovite from a staurolite-zone south-alpine gneiss, Cermeledo, Italy. Mineralogical Magazine 41(319): 400-402
Chukanov, N.V.; Aksenov, S.M.; Kasatkin, A.V.; Škoda, R.; Nestola, F.; Nodari, L.; Ryanskaya, A.D.; Rastsvetaeva, R.K. 2019: 3T polytype of an iron-rich oxyphlogopite from the Bartoy volcanic field, Transbaikalia: Mössbauer, infrared, Raman spectroscopy, and crystal structure. Physics and Chemistry of Minerals 46(10): 899-908
Gudenas, I. 2003: 3T technology: a new approach to employee training. Employment Relations Today 30(3): 15-22
Haubold, J.; Theysohn, J.; Geis, C.; Körsmeier, K.; Landgraeber, S.; Kraff, O.; Lazik-Palm, A. 2017: 3T-MRT zur Verlaufsbeurteilung nach hüftgelenkserhaltender Knorpeltherapie – Vergleich zwischen autologer Chondrozytentransplantation und Mikrofrakturierung. RöFo - Fortschritte auf dem Gebiet der Röntgenstrahlen und der bildgebenden Verfahren 189(01): S1-S124
Kim, C.; Kwon, K. 2017: 3T‐2R non‐volatile TCAM with voltage limiter and self‐controlled bias circuit. Electronics Letters 53(13): 837-839
Feng, C.; Wang, Y.; Liu, J.; Tsang, Y.H.; Song, Y.; Yu, Z. 2013: 3W high-power laser passively mode-locked by graphene oxide saturable absorber. Optics Communications 298-299: 168-170
Liu, X.; Thomsen, C.; Pedersen, T.B. 2011: 3XL: Supporting efficient operations on very large OWL Lite triple-stores. Information Systems 36(4): 765-781
Zhang, F.; Vanmeensel, K.; Inokoshi, M.; Batuk, M.; Hadermann, J.; Van Meerbeek, B.; Naert, I.; Vleugels, J. 2014: 3Y-TZP ceramics with improved hydrothermal degradation resistance and fracture toughness. Journal of the European Ceramic Society 34(10): 2453-2463
Kretschmer, V.; Karger, R.; Weippert-Kretschmer, M. 1997: 3a Emergency and massive transfusion. Baillière's Clinical Anaesthesiology 11(2): 261-276
Rees, C.W. 1979: 3a H-indenes and their heterocyclic analogues. Pure and Applied Chemistry 51(6): 1243-1253
Çaylak, N.; Hökelek, T.; Uludağ, N.; Patır, S. 2007: 3a,4,10,10b-Tetrahydro-2H-furo[2,3-a]carbazol-5(3H)-one. Acta Crystallographica Section E Structure Reports Online 63(9): O3913-O3914
Murray-Rust, P.; Murray-Rust, J.; Middlemiss, D. 1980: 3a,4,9,9a-Tetrahydro-2-methyl-4β-phenylbenz isoindoline. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 36(7): 1678-1680
Yan, J.; Li, J.; Rao, G. 2006: 3a,5b-Dimethyl-2,3,3a,4,5,5a,5b,6,7,13,13a,13b-dodecahydro-1H-8-azacyclopenta chrysen-3-ol. Acta Crystallographica Section E Structure Reports Online 62(8): O3506-O3507
Miyano, M.; Stealey, M.A. 1982: 3a,6,7,7a-Tetrahydro-1H-indene-4-carboxylic acid. The Journal of Organic Chemistry 47(16): 3184-3186
Trofimenko, S. 1965: 3a,6a-Diazapentalene (Pyrazolo[1,2-a]pyrazole). Journal of the American Chemical Society 87(19): 4393-4394
Trofimenko, S. 1966: 3a,6a-Diazapentalenes. Synthesis and Chemistry1. Journal of the American Chemical Society 88(23): 5588-5592
An, H.; Lu, Z.; Shen, Y.; Lu, S.; Xu, J. 2005: 3a,8c-Dichloro-8b-phenyl-3a,3b,8b,8c-tetrahydro-2-methyl-1H-[1]benzothieno[2′,3′:3,4]cyclobuta[1,2-c]pyrrole-1,3(2H)-dione. Acta Crystallographica Section E Structure Reports Online 61(12): O4331-O4332
Dusausoy, Y.; Protas, J. 1978: 3a-4:8-8a-η-(Diméthyl-5,7 cyclohepta furanne one-6) chrome tricarbonyle. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 34(5): 1714-1716
Nakagawa, M.; Kato, S.; Kataoka, S.; Hino, T. 1979: 3a-Hydroperoxypyrroloindole from tryptophan. Isolation and transformation to formylkynurenine. Journal of the American Chemical Society 101(11): 3136-3137
Birt, T. 1929: 3a.Zu Ciceros Paradoxa 46. Philologus 85(1-4): 100-101
Cradock, S. 1971: 3a1 Level in Si H4. The Journal of Chemical Physics 55(2): 980-981
Blauhut, B.; Lundsgaard-Hansen, P.; Gabriel, C. 1997: 3b Critical haemoglobin or haematocrit levels. Baillière's Clinical Anaesthesiology 11(2): 277-288
Birt, T. 1929: 3b. Zu Petron 38. Philologus 85(1-4): 101-102
Franceschini, G.; Lorenzani, E.; Cavatorta, M.; Bellini, A. 2008: 3boost: a High-Power Three-Phase Step-Up Full-Bridge Converter for Automotive Applications. IEEE Transactions on Industrial Electronics 55(1): 173-183
Troncy, R.; Rizzo, G.; Jameson, A.; Corcho, O.; Plu, J.; Palumbo, E.; Ballesteros Hermida, J.C.; Spirescu, A.; Kuhn, K.; Barbu, C.; Rossi, M.; Celino, I.; Agarwal, R.; Scanu, C.; Valla, M.; Haaker, T. 2017: 3cixty: Building comprehensive knowledge bases for city exploration. Journal of Web Semantics 46-47: 2-13
Alforidi, A.; Aslam, D.; Li, D.; Liang, X.; , 2019: 3d - Printed Multilayer Processes for Lightweight Wearable and Flexible Microsystems. International Journal of Advanced Research 7(12): 742-745
Mimani, A.; Munjal, M.L. 2011: 3d Acoustic Analysis of Spherical Chamber Having Single Inlet and Multiple Outlet: An Impedance Matrix Approach. International Journal of Applied Mechanics 03(04): 685-710
Wang, P.S.P. 2000: 3d Articulated Object Understanding, Learning, and Recognition from 2d Images. International Journal of Pattern Recognition and Artificial Intelligence 14(07): 863-873
Asdente, M.; Friedel, J. 1961: 3d Band Structure of Cr. Physical Review 124(2): 384-390
Qi, Y.; Tan, W.; Wang, Y.; Hong, W.; Wu, Y. 2011: 3d Bistatic Omega-K Imaging Algorithm for Near Range Microwave Imaging Systems with Bistatic Planar Scanning Geometry. Progress In Electromagnetics Research 121: 409-431
Ahmed, S.E.; Rashed, Z.Z. 2021: 3d Buoyancy-Driven Flow Within Cubic Enclosures Filled with Hydrodynamically and Thermally Heterogeneous Porous Media Using Non-Homogeneous Nanofluid Model. Journal of Porous Media 24(11): 17-35
Hazony, Y.; Ok, H.N. 1969: 3d Charge Density Distribution and Crystal Field in Fe Cl2: a Mössbauer Study. Physical Review 188(2): 591-593
Leveque, J.; Hinaje, M.; Berger, K.; Panfilov, M. 2018: 3d Computation of Electric Field by a Stochastic Method. Progress In Electromagnetics Research M 67: 119-128
Modric, T.; Vujevic, S.; Paladin, I. 2017: 3d Computation of the Overhead Power Lines Electric Field. Progress In Electromagnetics Research M 53: 17-28
Modric, T.; Vujevic, S.; Lovric, D. 2015: 3d Computation of the Power Lines Magnetic Field. Progress In Electromagnetics Research M 41: 1-9
Ortiz de Solorzano, C.; Chin, K.; Knowles, D.; Jones, A.; Garcia, E.; Gray, J.; Lockett, S. 1999: 3d Confocal Microscopy and Image Analysis for Measurement of Genetic Instability. Microscopy and Microanalysis 5(S 2): 1022-1023
A., G.A.; I., B.A.; Yu., S.V.; M., S.I. 1997: 3d Domain mapping in Sn2P2S6uniaxial ferroelectrics based on the photorefractive measurements. Ferroelectrics 202(1): 211-217
Nasser, J.; Topçu, S.; Chassagne, L.; Bousseksou, A.; Guillon, T.; Alayli, Y. 2007: 3d Electrons-molecular vibrations coupling in spin conversion compounds molecules: a quantitative study for the [Fe(phen)2(NCS)2] molecules. Chemical Physics Letters 446(4-6): 385-390
Geballe, T.H.; Matthias, B.T.; Caroli, B.; Corenzwit, E.; Maita, J.P.; Hull, G.W. 1968: 3d Elements in Superconducting Pd Sb. Physical Review 169(2): 457-465
AlShehri, S.A.; Khatun, S.; Jantan, A.B.; Raja Abdullah, R.S.A.; Mahmud, R.; Awang, Z. 2011: 3d Experimental Detection and Discrimination of Malignant and Benign Breast Tumor Using Nn-Based Uwb Imaging System. Progress In Electromagnetics Research 116: 221-237
Pan, G.; Wu, Z. 2005: 3d Face Recognition from Range Data. International Journal of Image and Graphics 05(03): 573-593
Hohberg, J. 2019: 3d Fem Analysis of the Construction Pit for a Tbm-Driven Flood Discharge Gallery. Acta Polytechnica CTU Proceedings 23: 31-37
Massaro, A.; Cingolani, R.; Passaseo, A. 2011: 3d Fem Modeling and Technology of Piezoelectric Ring Mems Antenna. Progress In Electromagnetics Research C 23: 123-135
Lesniewska, E.; Rajchert, R. 2013: 3d Field-Circuit Analysis of Measurement Properties of Current Transformers with Axially and Radially Connected Cores Made of Different Magnetic Materials. Progress In Electromagnetics Research M 28: 1-13
Lapusta, Y.; Harich, J.; Wagner, W. 2003: 3d Finite Element Modeling of Fiber-Matrix Instabilities in Compression. International Journal of Fracture 122(3-4): L125-L130
Jiang, Z.Y. 2008: 3d Finite Element Modelling of Complex Strip Rolling. International Journal of Modern Physics B 22(31n 32): 5850-5856
Chen, M. 2004: 3d Fracture Mechanics for a Mode i Crack in Piezoelectric Media. International Journal of Computational Methods 01(03): 445-456
Azemi, S.N.; Ghorbani, K.; Rowe, W.S.T. 2012: 3d Frequency Selective Surfaces. Progress In Electromagnetics Research C 29: 191-203
Loukili, I.; Moutaki, S.; Ghafiri, A. 2018: 3d Geological Modeling of the Underground Using Gdm Multilayers 2014 Softwareapplication to the City of Casablanca in Morocco. International Journal of Advanced Research 6(9): 1060-1067
Devecchi, F.P.; Froehlich, M.L. 2006: 3d Gravity and Nonlinear Cosmology. Modern Physics Letters A 21(05): 445-450
Nader, J.; Dagher, H. 2011: 3d Hybrid Ballistic Fabric Testing Using a 3d Digital Image Correlation System. Experimental Techniques 35(2): 55-60
Reyes-Iturbide, J.; Velázquez, P.F.; Rosado, M.; Matías Schneiter, E.; Ramírez-Ballinas, I. 2019: 3d Hydrodynamic Numerical Models for Nebulae Around Runaway Wolf-Rayet Stars. Revista Mexicana de Astronomía y Astrofísica 55(2): 211-219
Li, W. 2011: 3d Image Reconstruction for Submerged Objects Using Ramp Response Signatures. International Journal of Computational Methods 08(04): 825-836
Yan, X.; Bowman, V.; Murti, G.; Goorha, R.; Hyatt, A.; Baker, T.S. 2001: 3d Image Reconstruction of Frog Virus 3 at 2.6nm. Microscopy and Microanalysis 7(S 2): 746-747
Cai, J.; Tong, C.; Zhong, W.; Ji, W. 2012: 3d Imaging Method for Stepped Frequency Ground Penetrating Radar Based on Compressive Sensing. Progress In Electromagnetics Research M 23: 153-165
Guzey, V. 2011: 3d Imaging of Sea Quarks and Gluons at An Electron-Ion Collider. International Journal of Modern Physics: Conference Series 04: 1-8
Nasri, N.; Rached, M.; Chenini, S.; Kachouri, A. 2018: 3d Indoor Localization Through a Wireless Acoustic sensor Networks. Progress In Electromagnetics Research B 81: 123-139
Schulte, M.; Drope, C. 2005: 3d Ising Nonuniversality: a Monte Carlo Study. International Journal of Modern Physics C 16(08): 1217-1224
Ambjørn, J.; Jurkiewicz, J.; Loll, R. 2002: 3d Lorentzian, dynamically triangulated quantum gravity. Nuclear Physics B - Proceedings Supplements 106-107: 980-982
Arabi, E.; Shamim, A. 2013: 3d Lumped Components and Miniaturized Bandpass Filter in An Ultra-Thin M-Lcp for Sop Applications. Progress In Electromagnetics Research C 44: 197-210
Rama, S.K.; Sen, S. 1992: 3d Manifolds, Graph Invariants and Chern-Simons Theory. Modern Physics Letters A 07(23): 2065-2076
Kelly, T.F.; Larson, D.J.; Miller, M.K.; Flinn, J.E. 1999: 3d Mapping of Light-Element Segregation in 316 Stainless Steel by Atom Probe. Microscopy and Microanalysis 5(S 2): 116-117
Aragone, C.; Arias, P. 1990: 3d Maxwell-Chern-Simons Spontaneous Symmetry Breaking. Modern Physics Letters A 05(21): 1651-1657
Xu, X.; Wang, H.; Cui, Q.; Wu, J.; Zhou, T.; Li, J.; Wang, J. 2019: 3d Medical Image Reconstruction of Modified Closed Reduction and Three Hollow Nail for the Treatment of Gardon Iv Femoral Neck Fracture. Journal of Medical Imaging and Health Informatics 9(5): 980-985
Filimon, S.; Petrovic, D.; Volbeda, J.; Bannenberg, T.; Jones, P.G.; Freiherr von Richthofen, C.; Glaser, T.; Tamm, M. 2014: 3d Metal Complexes Supported by a Bis(imidazolin‐2‐imino)pyridine Pincer Ligand – Synthesis, Structural Characterisation, and Magnetic Properties. European Journal of Inorganic Chemistry 35: 5997-6012
Rakitskaya, T.L.; Bandurko, A.Y.; Truba, A.S.; Raskola, L.A.; Golub, A.A. 2006: 3d Metal complexes with 2-hydroxy-3-methoxybenzaliminopropyl and 4-hydroxy-3-methoxybenzaliminopropyl immobilized on aerosil as catalysts of ozone decomposition. Russian Journal of General Chemistry 76(8): 1266-1271
Bai, F.; Franchois, A.; Pizurica, A. 2016: 3d Microwave Tomography with Huber Regularization Applied to Realistic Numerical Breast Phantoms. Progress In Electromagnetics Research 155: 75-91
Zheng, Y.; Li, S.Z.; Chang, J.; Wang, Z. 2010: 3d Modeling of Faces from Near Infrared Images Using Statistical Learning. International Journal of Pattern Recognition and Artificial Intelligence 24(01): 55-71
Jiao, G.; Zuo, T.; Ma, C.; Han, Z.; Zhang, J.; Chen, Y.; Zhao, J.; Cheng, H.; Han, C.C. 2020: 3d Most-Probable All-Atom Structure of Atactic Polystyrene During Glass Formation: a Neutron Total Scattering Study. Macromolecules 53(13): 5140-5146
Kouzaev, G.A.; Sand, K.J. 2008: 3d Multicell Designs for Registering of Bose–einstein Condensate Clouds. Modern Physics Letters B 22(25): 2469-2479
Tsimpis, D.; Zhu, Y. 2016: 3d N=1Chern–Simons-matter theory and localization. Nuclear Physics B 911: 355-387
Zafari, M.; Panjepour, M.; Emami, M.D.; Meratian, M. 2014: 3d Numerical Investigation of Fluid Flow Through Open-Cell Metal Foams Using Micro-Tomography Images. Journal of Porous Media 17(11): 1019-1029
Feng, M.; Li, H.; Liu, H.; Zhou, L.; Chen, J.; Ren, X. 2021: 3d Numerical Investigation of Hydraulic Fracture Network Propagation in a Shale Gas Reservoir with Natural and Layered Discontinuities Under Fully Hydromechanical Coupling. Journal of Porous Media 24(12): 51-75
Jin, Y.G.; Son, I.; Im, Y. 2009: 3d Numerical and Experimental Study on Flow Characteristics of Multi-Pass Ecap with Aa1050. International Journal of Modern Physics B 23(06n 07): 1822-1828
Song, J.; Golshani, F. 2003: 3d Object Feature Extraction Based on Shape Similarity. International Journal on Artificial Intelligence Tools 12(01): 37-56
Tal, D.; Fish, J. 2019: 3d Objects Separation: Unsupervised Segmentation and Classification. International Journal for Multiscale Computational Engineering 17(6): 607-621
Mukhopadhyay, M.; Bhaumik, P. 2016: 3d Perception of Maximum Density Zone on Ramachandran Plots for Zika Virus Protein Structures. International Journal of Advanced Research 4(5): 1076-1086
O'Reilly, F.; Dunne, P. 1998: 3d Photoabsorption in Zn II, Ga IIi and Ge IV. Journal of Physics B: Atomic, Molecular and Optical Physics 31(5): 1059-1068
Spinelli, D.; Marconi, S.; Caruso, R.; Conti, M.; Benedetto, F.; Marrocc-Trischitta, M.M.; Auricchio, F.; Trimarchi, S. 2019: 3d Printed Aortic Models as a Teaching Tool for Trainees in Vascular Surgery. European Journal of Vascular and Endovascular Surgery 58(6): E338-E339
Rumpf, R.C.; Pazos, J.; Garcia, C.R.; Ochoa, L.; Wicker, R. 2013: 3d Printed Lattices with Spatially Variant Self-Collimation. Progress In Electromagnetics Research 139: 1-14
Artoli, A.M.; Hoekstra, A.G.; Sloot, P.M.A. 2002: 3d Pulsatile Flow with the Lattice Boltzmann Bgk Method. International Journal of Modern Physics C 13(08): 1119-1134
Fu, G.; He, L.; Ma, G. 2010: 3d Rock Mass Geometrical Modeling with Arbitrary Discontinuities. International Journal of Applied Mechanics 02(04): 871-887
Kajantie, K.; Laine, M.; Rummukainen, K.; Shaposhnikov, M. 1997: 3d SU(N) + adjoint Higgs theory and finite-temperature QCD. Nuclear Physics B 503(1-2): 357-384
Bourouis, S.; Hamrouni, K. 2010: 3d Segmentation of Mri Brain Using Level Set and Unsupervised Classification. International Journal of Image and Graphics 10(01): 135-154
Nii, K. 2019: 3d Self-dualities. Nuclear Physics B 942: 221-250
AltuĞ, A.T.; Erdem, D. 2004: 3d Simetrik Maksiller Distalizasyon Arklari Ile Servi Kal Headgear'in Dentofasiyal Yapilar Üzerine Etkilerinin Karşilaştirilmasi+. Turkish Journal of Orthodontics 17(2): 200-211
Solimene, R.; Brancaccio, A.; Di Napoli, R.; Pierri, R. 2010: 3d Sliced Tomographic Inverse Scattering Experimental Results. Progress In Electromagnetics Research 105: 1-13
Almutairi, M. 2019: 3d Solid Modeling and Pre-Static Finite Element Modeling of Intact Human Tibia. International Journal for Innovation Education and Research 7(5): 51-54
Deng, Y.; Mieczkowski, M.; Marko, M.; Buttle, K.; Rath, B.; Mannella, C. 1998: 3d Structure of Periodic Cubic-Phase Inner Membranes in Mitochondria of Chaos Carolinensis. Microscopy and Microanalysis 4(S 2): 432-433
Posselt, G.; Booij, P.; Thiede, S.; Fransman, J.; Driessen, B.; Herrmann, C. 2015: 3d Thermal Climate Monitoring in Factory Buildings. Procedia CIRP 29: 98-103
Zhang, X.; Gong, X.; Sun, Y.; Xu, M.; Xi, B.; Zhao, X.; Ye, X.; Yao, X.; He, M.; Liu, L.; Liu, Y. 2019: 3d Transition Metal-Metallofullerene-Ligand Molecular Wires: Robust One-Dimensional Antiferromagnetic Semiconductors. The Journal of Physical Chemistry C 123(50): 30571-30577
Egghart, H.C. 1969: 3d Transition metal complexes in molten potassium thiocyanate solution. The Journal of Physical Chemistry 73(11): 4014-4016
Adel., A. 2017: 3d Ultrasonography Daignosis of Polypoid Gall Bladder in Dog. International Journal of Advanced Research 5(2): 839-842
Zhu, J.; Guermond, J.; Loula, A.F.D.; Quartapelle, L. 2003: 3d Vector Poisson-Like Problem with a Triplet of Intrinsic Scalar Boundary Conditions. Mathematical Models and Methods in Applied Sciences 13(12): 1725-1743
Dougherty, M.T. 2001: 3d Visualization Tools. Microscopy and Microanalysis 7(S 2): 770-771
Cosgrove, J.G.; Collins, R.L. 1971: 3d Wavefunctions in 57Fe Mössbauer Spectroscopy. The Journal of Chemical Physics 55(9): 4238-4245
Cosgrove, J.G.; Collins, R.L. 1972: 3d Wavefunctions in 57Fe Mössbauer Spectroscopy. The Journal of Chemical Physics 56(9): 4721-4722
Chuev, G.N.; Fedorov, M.V.; Luo, H.J.; Kolb, D.; Timoshenko, E.G. 2005: 3d Wavelet Treatment of Solvated Bipolaron and Polaron. Journal of Theoretical and Computational Chemistry 04(03): 751-767
Overend, N.; Howson, M. A.; Lawrie, I. D. 1994: 3d X-Y scaling of the specific heat of YBa2Cu3O7−δ single crystals. Physica C: Superconductivity 235-240: 1769-1770
Gignoux, D.; Givord, F.; Sayetat, F. 1980: 3d and 4f magnetism in Tb Co2. Journal of Magnetism and Magnetic Materials 15-18: 1235-1236
Earnshaw, R. 1997: 3d and Multimedia on the Information Superhighway. IEEE Computer Graphics and Applications 17(2): 30-31
Sun, X.K.; Kou, X.C.; Chuang, Y.C.; Zhao, R.W.; Li, J.Y.; Yang, F.M.; Grössinger, R.; Kirchmayr, H.R. 1989: 3d anisotropy and preferential site occupation in R2Fe13M1B compounds (R = Y, Gd; M = Ga, Si, Al). Physica Status Solidi (a) 115(2): K219-K223
Schmidt, W.; Käckell, P.; Bechstedt, F. 1996: 3d core-level shifts at. Surface Science 357-358: 545-549
Pupo, A.E.B.; González, M.M.; Cabrales, L.E.B.; Reyes, J.B.; Oria, E.J.R.; Nava, J.J.G.; Jiménez, R.P.; Sánchez, F.M.; Ciria, H.M.C.; Cabrales, J.M.B. 2017: 3d current density in tumors and surrounding healthy tissues generated by a system of straight electrode arrays. Mathematics and Computers in Simulation 138: 49-64
Axtmann, R.; Hazony, Y.; Hurley Jr., J. 1968: 3d electron delocalization from Mössbauer measurements on ferrous halides. Chemical Physics Letters 2(8): 673-676
Coles, B. 1996: 3d heavy fermions: do they exist?. Physica B: Condensed Matter 223-224: 260-261
Mehbod, M.; Wyder, P.; Deltour, R.; Duvigneaud, P. 1988: 3d impurities influence on the structure and the transition temperature in the Y-BA-CU-O system. Physica C: Superconductivity 153-155: 856-857
Givord, D.; Gregory, A.; Schweizer, J. 1980: 3d magnetism in Lu Fe2. Journal of Magnetism and Magnetic Materials 15-18: 293-294
Dyakova, L.; Culita, D.; Zhivkova, T.; Georgieva, M.; Kalfin, R.; Miloshev, G.; Alexandrov, M.; Marinescu, G.; Patron, L.; Alexandrova, R. 2015: 3d metal complexes with meloxicam as therapeutic agents in the fight against human glioblastoma multiforme and cervical carcinoma. Biotechnology-Biotechnological Equipment 29(6): 1190-1200
Mitchell, K.A.R. 1968: 3d orbitals and bonds of second row atoms. 2. π bonding in phosphoryl compounds. Canadian Journal of Chemistry 46(22): 3499-3505
O'Reilly, F.; Dunne, P. 1998: 3d photoabsorption in Zn IIi and Ge V. Journal of Physics B: Atomic, Molecular and Optical Physics 31(4): L141-L145
Arp, U.; Iemura, K.; Kutluk, G.; Nagata, T.; Yagi, S.; Yagishita, A. 1999: 3d photoionization of Xe, Cs and Ba and the collapse of the 4f wavefunction. Journal of Physics B: Atomic, Molecular and Optical Physics 32(5): 1295-1304
Godoi, F.C.; Prakash, S.; Bhandari, B.R. 2016: 3d printing technologies applied for food design: Status and prospects. Journal of Food Engineering 179: 44-54
Riegel, D.; Mishra, S.; Buermann, L.; Gross, K.; Luszik-Bhadra, M. 1988: 3d spin dynamics and local moment of dilute Fe ions implanted into high Tc superconductors. Physics Letters A 131(9): 533-537
Fanna, D.J.; Zhang, Y.; Li, L.; Karatchevtseva, I.; Shepherd, N.D.; Azim, A.; Price, J.R.; Aldrich-Wright, J.; Reynolds, J.K.; Li, F. 2016: 3d transition metal complexes with a julolidine–quinoline based ligand: structures, spectroscopy and optical properties. Inorganic Chemistry Frontiers 3(2): 286-295
Dowben, P.; Kizilkaya, O.; Liu, J.; Montag, B.; Nelson, K.; Sabirianov, I.; Brand, J. 2009: 3d transition metal doping of semiconducting boron carbides. Materials Letters 63(1): 72-74
Zhao, X.; Yang, C.; Wang, T.; Ma, X.; Wei, S.; Xia, C. 2017: 3d transition metal doping-induced electronic structures and magnetism in 1T-Hf Se2 monolayers. RSC Advances 7(83): 52747-52754
Ma, D.; Wang, Q.; Yan, X.; Zhang, X.; He, C.; Zhou, D.; Tang, Y.; Lu, Z.; Yang, Z. 2016: 3d transition metal embedded C2N monolayers as promising single-atom catalysts: a first-principles study. Carbon 105: 463-473
Kapoor, A.; Singh, N.; Dey, A.B.; Nigam, A.; Bajpai, A. 2018: 3d transition metals and oxides within carbon nanotubes by co-pyrolysis of metallocene and camphor: High filling efficiency and self-organized structures. Carbon 132: 733-745
Maslen, E.; Trefry, M. 1988: 3d transition metals: Electron promotion and the independent atom model. Journal of Physics and Chemistry of Solids 49(7): 753-759
Wang, J.; Ma, Q.; Xu, R.; Liu, Y.; Li, Y. 2009: 3d transition metals: which is the ideal guest for Sin () cages?. Physics Letters A 373(32): 2869-2875
Shen, Z.; Fan, X.; Ma, S.; An, Y.; Yang, D.; Guo, N.; Luo, Z.; Hu, Y. 2020: 3d transitional-metal single atom catalysis toward hydrogen evolution reaction on MXenes supports. International Journal of Hydrogen Energy 45(28): 14396-14406
Wooldridge, I.; Howson, M. A.; Gauzzi, A.; Pavuna, D.; Walker, D.J. 1994: 3d xy scaling of the resistivity and the effect of disorder in YBa2Cu3O7−δ thin films. Physica C: Superconductivity 235-240: 1441-1442
Coles, B. 1990: 3d, 4f and 5f heavy fermion systems: Similarities and differences. Physica B: Condensed Matter 163(1-3): 741-743
Qiao, W.; Xu, H.; Cheng, P.; Zhao, B. 2017: 3d-4f Heterometal–Organic Frameworks for Efficient Capture and Conversion of CO2. Crystal Growth-Design 17(6): 3128-3133
Zhu, X.; Liao, W. 2016: 3d-4f coordination compounds of water-soluble sulfonylcalix[4]arenetetrasulfonate in cone conformation. Polyhedron 111: 185-189
Marquina, C.; Kayzel, F.; Ahn, T.; Radwański, R.; Franse, J. 1992: 3d-4f exchange interactions in R2Ni17. Journal of Magnetism and Magnetic Materials 104-107: 1323-1324
Rossi, P.; Ciattini, S.; Formica, M.; Fusi, V.; Giorgi, L.; Macedi, E.; Micheloni, M.; Paoli, P. 2018: 3d-4f-3d trinuclear complexes with di-maltol-polyamine ligands. Solid state structure and solution behaviour. Inorganica Chimica Acta 470: 254-262
Klapisch, M.; Mandelbaum, P.; Schwob, J.; Bar-shalom, A.; Schweitzer, N. 1981: 3d-4p transitions in the soft X-ray spectra of Mo XIV and of isoelectric y to Ag ions, from a low-inductance vacuum spark. Physics Letters A 84(4): 177-181
Brooks, M S S.; Eriksson, O.; Johansson, B. 1989: 3d-5d band magnetism in rare earth transition metal intermetallics: Lu Fe2. Journal of Physics: Condensed Matter 1(34): 5861-5874
Tovstyuk, K.D.; Deybuk, V.G.; Melnichuk, S.V.; Tovstyuk, N.K. 1985: 3d-Impurity Levels in Cd Te and Zn Se. Physica status solidi (b) 130(2): K153-K156
Ostrasz, A.; Szuszkiewicz, M. 1987: 3d-Like Electron Localization and Charge Transfer in Hydrogenated V-Fe Alloys. Physica status solidi (b) 139(1): 205-211
Kisker, E.; Clauberg, R.; Gudat, W. 1985: 3d-Magnets at high temperatures. Zeitschrift fr Physik B Condensed Matter 61(4): 453-456
Hazarika, K.K.; Bharali, P. 2020: 3d-Metal Oxide Nanostructures for Oxygen Electrocatalysis. ACS Symposium Series: 353-372
Gutsev, G. L.; Andrews, L.; Bauschlicher Jr., C. W. 2003: 3d-Metal monocarbonyls MCO, MCO+, and MCO− (M=Sc to Cu): comparative bond strengths and catalytic ability to produce CO2 in reactions with CO. Chemical Physics 290(1): 47-58
Xiao, M.; Zhu, J.; Li, S.; Li, G.; Liu, W.; Deng, Y.; Bai, Z.; Ma, L.; Feng, M.; Wu, T.; Su, D.; Lu, J.; Yu, A.; Chen, Z. 2021: 3d-Orbital Occupancy Regulated Ir-Co Atomic Pair Toward Superior Bifunctional Oxygen Electrocatalysis. ACS Catalysis 11(14): 8837-8846
Bartetzko, R.; Gleiter, R. 1978: 3d-Orbital Participation in Sulfur Diimides. Angewandte Chemie International Edition in English 17(6): 468-469
Tagaki, W.; Tada, T.; Nomura, R.; Oae, S. 1968: 3d-Orbital Resonance in Divalent Sulfides. XIV. Free Radical Copolymerization of Ketene Diethylmercaptal with Styrene. Bulletin of the Chemical Society of Japan 41(7): 1696-1700
Peterson, D.J. 1966: 3d-Orbital Resonance in Trivalent Organophosphines. II. Additions of Organolithium Compounds to Vinylphosphines1. The Journal of Organic Chemistry 31(3): 950-954
Guccione, S.; Russo, F.; Langer, T. 2000: 3d-Qsar Study of new Acetyl-Coa:cholesterol O-Acyl Transferase (Acat) Inhibitors. Scientia Pharmaceutica 68(1): 65-73
Chapelle, D.; Ferent, A.; Bathe, K.J. 2004: 3d-Shell Elements and their Underlying Mathematical Model. Mathematical Models and Methods in Applied Sciences 14(01): 105-142
Shirakata, S.; Nishino, T.; Hamakawa, Y.; Kato, T.; Ishida, T. 1987: 3d-Transition Metal Related Photoluminescence in In1-x Gax P Alloys. Japanese Journal of Applied Physics 26(Part 2, No. 2): L127-L130
Koch, E.; Iwan, M.; Hermann, K.; Bagus, P. 1981: 3d-Valence orbital structure of Zn-phthalocyani≠ results from photoemission experiments and cluster calculations. Chemical Physics 59(3): 249-256
Reisser, R.; Kremer, R.; Simon, A. 1995: 3d-XY critical behavior of the layered metal-rich halides Gd2IFe2, Gd2ICo2 and Gd2Br Fe2. Physica B: Condensed Matter 204(1-4): 265-273
Wiesinger, G.; Grössinger, R.; Kou, X. 1992: 3d-anisotropy behaviour in R2Fe13MB compounds (RY, Gd; MAl, Ga, Si). Journal of Magnetism and Magnetic Materials 104-107: 1431-1432
Oae, S.; Tagaki, W.; Ohno, A. 1964: 3d-orbital resonace in divalent sulphides- V activity of α-hydrogen atom of cyclic mercaptals. Tetrahedron 20(2): 427-436
Oae, S.; Tagaki, W.; Ohno, A. 1964: 3d-orbital resonance in divalent sulphides- IV. Tetrahedron 20(2): 417-425
Uneyama, K.; Tagaki, W.; Minamida, I.; Oae, S. 1968: 3d-orbital resonance in divalent sulphides- IX. Tetrahedron 24(15): 5271-5281
Oae, S.; Ohno, A.; Tagaki, W. 1964: 3d-orbital resonance in divalent sulphides- VIi. Tetrahedron 20(2): 443-447
Oae, S.; Tagaki, W.; Ohno, A. 1964: 3d-orbital resonance in divalent sulphides- Vi. Tetrahedron 20(2): 437-442
Oae, S.; Tagaki, W.; Uneyama, K.; Minamida, I. 1968: 3d-orbital resonance in divalent sulphide- X. Tetrahedron 24(15): 5283-5291
Oae, S.; Yano, Y. 1968: 3d-orbital resonance in divalent sulphide- XIIi. Tetrahedron 24(17): 5721-5729
Bisbas, T.G.; Bell, T.A.; Viti, S.; Yates, J.; Barlow, M.J. 2012: 3d-pdr: a new three-dimensional astrochemistry code for treating photodissociation regions. Monthly Notices of the Royal Astronomical Society 427(3): 2100-2118
Träbert, E.; Heckmann, P H.; Doerfert, J.; Sugar, J. 1994: 3d94s2-3d94s4ptransitions from long-lived levels in Cu I-like Rh XVIi. Physica Scripta 50(3): 254-257
Bianconi, A.; Budnick, J.; Chamberland, B.; Clozza, A.; Dartyge, E.; Demazeau, G.; De Santis, M.; Flank, A.; Fontaine, A.; Jegoudez, J.; Lagarde, P.; Lynds, L.; Michel, C.; Otter, F.; Tolentino, H.; Raveau, B.; Revcolevschi, A. 1988: 3d9L states induced by doping in La1.85Sr0.15Cu O4 and in magnetic and non magnetic M1Ba2Cu3O7 (M = Gd, Ho and Y). Physica C: Superconductivity 153-155: 113-114
Gupta, L.C.; Sampathkumaran, E.V.; Vijayaraghavan, R.; Prabhawalkar, V.; Prabhawalkar, P.D.; Padalia, B.D. 1981: 3dcore-level x-ray photoelectron spectroscopy of Eu Cu2Si2, a mixed-valence system. Physical Review B 23(8): 4283-4285
Henneberger, G.; Küppers, S.; Block, R. 1993: 3dimensionale numerische Feldberechnung und Simulation eines Klauenpolgenerators. Archiv für Elektrotechnik 76(5): 343-351
Suzuki, T.; Ido, H. 1991: 3dmetal‐substitution effects on magnetic and crystallographic properties of Cr as. Journal of Applied Physics 69(8): 4624-4626
Assimopoulos, S.; Bolovinos, A.; Jimoyiannis, A.; Tsekeris, P.; Luc-Koenig, E.; Aymar, M. 1994: 3dnl J=0e-2eautoionizing levels of calcium: observation by laser optogalvanic spectroscopy and theoretical analysis. Journal of Physics B: Atomic, Molecular and Optical Physics 27(12): 2471-2496
Luc-Koenig, E.; Bolovinos, A.; Aymar, M.; Assimopoulos, S.; Jimoyiannis, A.; Tsekeris, P. 1994: 3dnl J=3e autoionizing levels of calcium: observation by laser optogalvanic spectroscopy and theoretical analysis. Zeitschrift fr Physik D Atoms, Molecules and Clusters 32(1-2): 49-59
Ogasawara, H.; Kotani, A.; Le Fèvre, P.; Chandesris, D.; Magnan, H. 2000: 3dresonant photoemission spectra at the Ce L3edge of Ce Rh3. Physical Review B 62(12): 7970-7975
Chandler, G.S.; Thirunamachandran, T. 1967: 3d‐Radial Functions in the sp3d Configuration of Phosphorus. The Journal of Chemical Physics 47(3): 1192-1193
Peng, G.; Ma, L.; Liang, L.; Ma, Y.; Yang, C.; Deng, H. 2013: 3d–4f Heterometallic coordination polymers constructed by tetranuclear lanthanide-based cluster as secondary building unit. CrystEngComm 15(5): 922-930
Dung, T.; Thuy, N.; Hien, T.; Hong, N.; Khan, D.; Franse, J. 1993: 3d- MAGNETISM OF THE RT4B COMPOUNDS. International Journal of Modern Physics B 07(01n 03): 798-801
Jenkins, D.A.; Powers, R.J.; Miller, G.H. 1969: 3d→2p Pionic Transition in Ni58and Ni60. Physical Review 185(4): 1508-1514
Swain, P.; Srivastava, S.K.; Srivastava, S.K. 2017: 3d−4dhybridization anomaly in Nix Pd1−xalloys at quantum critical point. Solid State Communications 260: 10-13
Romain, O. 2000: 3e Journée de pathologie infectieuse, Paris, le 11 décembre 1999. Journal de Pédiatrie et de Puériculture 13(3): 175-177
Romain, O. 2000: 3e Journée de pathologie infectieuse, Paris, le 11 décembre 1999 Première partie. Journal de Pédiatrie et de Puériculture 13(3): 175-177
Bonifay, T. 2020: 3e Journée dédiée aux travaux scientifiques des jeunes médecins de Guyane : « Nos internes ont du talent » 5 décembre 2019, université de Guyane, Cayenne, Guyane française. Bulletin de la société de pathologie exotique 113(2): 104-118
Sua, L.S.; Yılmaz, U.; Balo, F. 2019: 3e Methodology for Tuff Stones as Wall Coating Material. Procedia Computer Science 158: 450-457
Goetz, P. 2005: 3e génération! ou génération crédible?. Phytothérapie 3(6): 233-234
Fénelon, P. 1939: 3e partie. - le relief des Hautes Pyrénées. L'information géographique 3(3): 139-140
Gottmann, J. 1978: 3e thème. Originalités apportées dans la croissance par la présence du pouvoir politique. Bulletin de l'Association de géographes français 55(454): 239-245
Hadley, P.; Delvigne, E.; Visscher, E.H.; Lähteenmäki, S.; Mooij, J.E. 1998: 3etunneling processes in a superconducting single-electron tunneling transistor. Physical Review B 58(23): 15317-15320
Costa, A.A.; Lopes, P.M.; Antunes, A.; Cabral, I.; Grilo, A.; Rodrigues, F.M. 2015: 3i Buildings: Intelligent, Interactive and Immersive Buildings. Procedia Engineering 123: 7-14
Parveau, M.; Adda, M. 2018: 3i VClass: a new classification method for Virtual, Augmented and Mixed Realities. Procedia Computer Science 141: 263-270
Yamasaki, K.; Rahman, M.H.; Tsutsumi, Y.; Maruyama, T.; Ahmed, S.; Kragh-Hansen; Otagiri, M. 2000: 3ircular dichroism simulation shows a site-II-to-site-i displacement of human serum albumin-bound diclofenac by ibuprofen. AAPS PharmSciTech 1(2): 45-54
Bickerstaff, R P.; Butler, P H.; Butts, M B.; Haase, R W.; Reid, M F. 1982: 3jm and 6j tables for some bases of SU6and SU3. Journal of Physics A: Mathematical and General 15(4): 1087-1117
Reid, M F. 1984: 3jm factors and basis functions for D∞hand C∞v. Journal of Physics A: Mathematical and General 17(8): 1755-1759
Arai, H.; Hayashi, K.; Yoshida, Y.; Yokoo, M.; Mizutani, Y.; Ukai, K.; Katsurayama, K.; Orishima, H.; Hirakawa, M.; Uwani, H.; Kashima, S. 2019: 3k W SOFC Power Generation Module Developed by NTT/THG/SPP. ECS Transactions 25(2): 125-132
Gou, F.; Gleeson, M.; Villette, J.; Kleyn, A. 2006: 3ke V Ar scattering from unreconstructed Si(100) at grazing incidence: Molecular dynamics simulation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 247(2): 244-253
Reisch, M.S. 2004: 3m Takes Aim with Reinvigorated R&d. Chemical-Engineering News Archive 82(2): 12-14
Reisch, M.S. 2000: 3m's Formula for Success. Chemical-Engineering News Archive 78(38): 23-32
Lievens, S.; Van der Jeugt, J. 2002: 3nj-coefficients of su(1,1) as connection coefficients between orthogonal polynomials in n variables. Journal of Mathematical Physics 43(7): 3824-3849
Groenevelt, W. 2017: 3nj-symbols and identities for q-Bessel functions. The Ramanujan Journal 47(2): 317-337
Ostrovsky, V.N. 1997: 3nr+lgrouping of energy levels and clusters. Physical Review A 56(1): 626-631
Taguchi, Y.; Ichikawa, K.; Katsumi, T.; Jouda, K.; Ohta, Y.; Soda, K.; Kawamata, S.; Okuda, K.; Aita, O. 1997: 3p - 3d resonant photoemission study of at low temperature. Journal of Physics: Condensed Matter 9(31): 6761-6769
Kunz, A.B.; Van Sciver, W.J. 1966: 3p Energy Band in Lithium Chloride. Physical Review 142(2): 462-465
Hart, R.R.; Robin, M.B.; Kuebler, N.A. 1965: 3p Orbitals, Bent Bonds, and the Electronic Spectrum of the P4 Molecule. The Journal of Chemical Physics 42(10): 3631-3638
Fawcett, B.C.; Cowan, R.D. 1973: 3p6 3dn-3p5 3d n+1 spectra of Fe vi and Fe vii. Solar Physics 31(2): 339-341
Ryabtsev, A N. 1983: 3p63d8- 3p53d9Transitions in Rb XIi and Sr XIIi. Physica Scripta 28(2): 176-178
Hague, C.F. 1982: 3pelectron density of states in liquid aluminum. Physical Review B 25(6): 3529-3537
Barth, J.; Chorkendorff, I.; Gerken, F.; Kunz, C.; Nyholm, R.; Schmidt-May, J.; Wendin, G. 1984: 3presonance photoionization of the valence band in metallic Ca: Atomic and solid-state many-body effects. Physical Review B 30(10): 6251-6254
Sánchez-Agudo, M.; Soriano, L.; Fernández-Jiménez, R.; Gutiérrez, A.; Abbate, M.; Wiklund, S.; Sanz, J. 2004: 3p→3d resonant photoemission spectroscopy of a Ti O2 sub-monolayer grown on Al2O3. Surface Science 566-568: 515-519
Ghosh, A.; Singh, N.; Chattopadhyaya, S. 2011: 3rd Degree Mathematical Model Appropriate for Parametric Estimation of SAW Process. Advanced Materials Research 284-286: 2473-2476
Saïdane-Bchir, F.; El Falleh, A.; Ghabbarou, E.; Hamdi, M. 2016: 3rd Generation Bioethanol Production from Microalgae Isolated from Slaughterhouse Wastewater. Waste and Biomass Valorization 7(5): 1041-1046
Pereira, F.M.V.; Pereira-Filho, E.R. 2018: 3rd Winter School on Chemometrics- Food Analysis Applications. Food Analytical Methods 11(7): 1849-1851
Charles, J. 2001: 3rdgeneration mobile systems umts/imt-2000. Annales Des Télécommunications 56(5-6): 229-235
Yau, K. 2001: 3rdness: Filming, Changing, Thinking Hong Kong. Positions: east asia cultures critique 9(3): 535-557
Krüger, P.; Taguchi, M.; Kotani, A.; Parlebas, J. 1999: 3s photoemission spectra of 3d-transition-metal atoms on graphite. Physica B: Condensed Matter 259-261: 1112-1113
Mattausch, H.; Kremer, R.K.; Eger, R.; Simon, A. 1992: 3s-Gd2C2Br2: Eine neue Stapelvariante. Zeitschrift fr anorganische und allgemeine Chemie 609(3): 7-11
Hibbert, A.; Brage, T.; Fleming, J. 2002: 3s23p-3s3p2transitions in S iv. Monthly Notices of the Royal Astronomical Society 333(4): 885-893
Hansen, J. E.; Persson, W.; Borgström, A. 1975: 3s3p63dleftrightarrow 3s23p5nf Interaction in Ca IIi and Identification of the 3s3p63d Configuration. Physica Scripta 11(1): 31-37
Krüger, P.; Parlebas, J.C.; Kotani, A. 1999: 3sphotoemission spectra of3dtransition-metal adatoms on graphite. Physical Review B 59(23): 15093-15099
Farris, J.S. 2012: 3ta Sleeps with the fishes. Cladistics 28(4): 422-436
Dharamshi, R. 2017: 3the Bridport Project - Integrated Community Services for Frail, Elderly Patients in West Dorset. Age and Ageing 46(Suppl_1): I1-I22
Sobenina, L.N.; Mikhaleva, A.I.; Sergeeva, M.P.; Toryashchinova, D.-.D.; Kozyreva, O.B.; Trofimov, B.A. 1996: 3x-pyrrolizin-3-ones. Chemistry of Heterocyclic Compounds 32(1): 43-47
Winter, T.; Müller, C.; Schmidt, S.; Nauck, M. 2016: 3 Jahre Mukoviszidose-Screening für Neugeborene in Mecklenburg-Vorpommern. Monatsschrift Kinderheilkunde 164(7): 591-597
Liu, S.; Zhu, R.; Wang, J.; Jing, F.; Lin, A.; Peng, K.; Zhan, H.; Ni, L.; Wang, X.; Wang, Y.; Li, Y.; Yu, J.; Jiang, L. 2018: 3 k W 20/400 Yb-Doped Aluminophosphosilicate Fiber with High Stability. IEEE Photonics Journal 10(5): 1-8
Contreras, S.; Angulo, R E.; Zennaro, M.; Aricò, G.; Pellejero-Ibañez, M. 2020: 3 per cent-accurate predictions for the clustering of dark matter, haloes, and subhaloes, over a wide range of cosmologies and scales. Monthly Notices of the Royal Astronomical Society 499(4): 4905-4917
Mangabeira Filho, O. 1941: 3ª Contribuição ao estudo dos Flebotomus: Evandromyia n. subg.: (Diptera: Psychodidae). Memorias do Instituto Oswaldo Cruz 36(2): 215-223
Rabaud, E. 1920: 3° L'indépendance des réflexes. L'année psychologique 22(1): 42-45
Morand, 1914: 3° la préparation au mouvement. L'année psychologique 21(1): 36-38
Morand, 1914: 3° les types de réaction simple. L'année psychologique 21(1): 14-16
Cowsik, R.; Pal, Y.; Tandon, S.N.; Verma, R.P. 1966: 3°K Blackbody Radiation and Leakage Lifetime of Cosmic-Ray Electrons. Physical Review Letters 17(26): 1298-1300
Wu, S. 2002: 3·2 r+1 -Cycle Systems of K n − C n. Graphs and Combinatorics 18(3): 687-690
Dellavance, A.; Gabriel Júnior, A.; Nuccitelli, B.; Taliberti, B.H.; von Mühlen, C.A.; Bichara, C.D.A.; Santos, C.H.R.d.; Bueno, C.; Yano, C.M.; Mangueira, C.L.P.; Carvalho, D.G.; Cardoso, E.; Bonfá, E.; Araújo, F.I. e; Rassi, G.G.; Mundim, H.M.; Bendet, I.; Rego, J.; Vieira, L.M.E.d.A.; Andrade, L.E.C.; Barbosa, M.O.F.; Sugiyama, M.; Santiago, M.B.; Slhessarenko, N.; Silva, N.A.d.; Francescantonio, P.L.C.; Jarach, R.; Suda, R.; Levy, R.A.; Sampaio, S.O.; Neves, S.P.F.; Cruvinel, W.d.M.; Santos, W.S.d.; Nóbrega, Y.K.d.M. 2009: 3º Consenso Brasileiro para pesquisa de autoanticorpos em células HEp-2 (FAN): recomendações para padronização do ensaio de pesquisa de autoanticorpos em células HEp-2, controle de qualidade e associações clínicas. Revista Brasileira de Reumatologia 49(2): 89-98
Bourn, D. 2001: 3×3 Lemma and Protomodularity. Journal of Algebra 236(2): 778-795
Truong, C.D.; Tran, D.H.; Tran, T.A.; Le, T.T. 2013: 3×3 Multimode interference optical switches using electro-optic effects as phase Shifters. Optics Communications 292: 78-83
Au-Yeung, Y.; Poon, Y. 1979: 3×3 Orthostochastic matrices and the convexity of generalized numerical ranges. Linear Algebra and its Applications 27: 69-79
Ballabio, G.; Scandolo, S.; Tosatti, E. 2000: 3×3R30°versus adatom–rest-atom phases on (111) semiconductor surfaces. Physical Review B 61(20): R13345-R13348
Nüssel, E.; Scheidt, R.; Bergdolt, H.; Grosse-Ruyken, F.-.; Scheuermann, W.; Morgenstern, W. 1989: 3×7 Heidelberger Thesen zur Entwicklung einer umfassenden Konzeption der ärztlichen Primärversorgung der Bevölkerung. Sozial- und Präventivmedizin SPM 34(S 1): S24-S29
McLaughlin, B. M.; Ballance, C. P.; Berrington, K. A. 2001: 3Δ bound and continuum states of the Ti O molecule. Journal of Physics B: Atomic, Molecular and Optical Physics 34(6): L179-L186
Carroll, P.K.; Mulliken, R.S. 1965: 3Π Levels and Predissociations of N2 near the 12.135‐e V Dissociation Limit. The Journal of Chemical Physics 43(7): 2170-2179
Sari, L.; Yamaguchi, Y.; Schaefer Iii, H.F. 2003: 3Σ− and 3Π states of Ge C and Ge Si: the problematic dissociation energy of Ge C. The Journal of Chemical Physics 119(16): 8266-8275
Wu, T.; Huang, Y.; Liu, Y. 2021: 3Φ4W Grid-Connected Hybrid-Frequency Parallel Inverter System with Ripple Compensation to Achieve Fast Response and Low Current Distortion. IEEE Transactions on Industrial Electronics 68(11): 10890-10901
Antolković, B.; Hudomalj, J. 1975: 3α decay of the 10.84 and 11.83 me V states of 12C. Nuclear Physics A 237(2): 253-259
Arai, K. 2006: 3α resonance excited states of 12C in a microscopic cluster model. Modern Physics Letters A 21(31n 33): 2347-2349
Marshall, C.W.; Gallagher, T.F. 1949: 3α,12α-Dihydroxy-etiocholan-16-one. Journal of the American Chemical Society 71(7): 2325-2326
Liu, H.; Huang, L.; Ji, M. 2006: 3α,20-Bis(dimethylamino)-4,4,14-trimethyl-9,19-cyclo-5α-pregnan-16-ol. Acta Crystallographica Section E Structure Reports Online 62(10): O4517-O4518
Andrade, L.C.R.; Paixão, J.A.; Almeida, M.J.M.d.; Fernandes Roleira, F.M.; Sá e Melo, M.L.; Campos Neves, A.S.; Tavares da Silva, E.J. 2002: 3α,4β-Dihydroxy-5β-androstan-17-one. Acta Crystallographica Section E Structure Reports Online 59(1): O21-O23
Andrade, L.C.R.; Paixão, J.A.; de Almeida, M.J.M.; Tavares da Silva, E.J.; Fernandes Roleira, F.M. 2006: 3α,7α,12α-Triformyloxy-24-nor-5β-chol-22-ene. Acta Crystallographica Section E Structure Reports Online 62(5): O1856-O1858
Archer, S.; Lewis, T.R.; Unser, M.J. 1957: 3α-(2-Diethylaminoethyl)-aminotropane and Related Compounds1,2. Journal of the American Chemical Society 79(15): 4194-4198
Cameron, T.S.; Cordes, R.E. 1979: 3α-Acetylthio-5α-androstan-17-one. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 35(10): 2440-2442
Gómez, F.; Quijano, L.; Calderón, J.; Ríos, T. 1983: 3α-Angeloyloxy-2α-hydroxycativic acid, a new diterpene from Brickellia paniculata. Phytochemistry 22(5): 1292-1293
Squire, E.N. 1953: 3α-Carboxylic Acids of 5-Sitostene and Stigmastane. Journal of the American Chemical Society 75(2): 493-494
Batsanov, A.S.; Howard, J.A.K.; O'Hagan, D.; Tavasli, M. 2000: 3α-Tosyloxymethyltropane(N8–B)borane. Acta Crystallographica Section C Crystal Structure Communications 56(11): E512-E513
Kubono, S.; Sugitani, M.; Tanaka, M.; Morita, K.; Sakuragi, Y.; Kamimura, M. 1985: 3α-breakup induced dynamical polarization potential of 12C at e / a ⩾ 10 me V. Physics Letters B 163(1-4): 75-78
Bayless, A.V.; Zimmer, H. 1968: 3α-jodcholestan. Tetrahedron Letters 9(35): 3811-3812
Frigerio, M.; Santagostino, M.; Sputore, S. 1997: 3αβ-Hydroxy-7αβ-methylperhydroinden-4-one Derivatives en route to Analogues of Cardenolides. Synlett 7: 833-835
Ryer, A.I.; Gebert, W.H. 1952: 3β,17α-Dihydroxynorcholanic Acid Lactone. Journal of the American Chemical Society 74(17): 4464-4466
Vasuki, G.; Parthasarathi, V.; Ramamurthi, K.; Dubey, S.; Jindal, D.P. 2002: 3β,17β-Diacetoxy-16-(2-pyridylmethylene)androst-5-ene hydrate (1/0.46). Acta Crystallographica Section E Structure Reports Online 58(4): O355-O356
Vasuki, G.; Parthasarathi, V.; Ramamurthi, K.; Dubey, S.; Jindal, D.P. 2002: 3β,17β-Diacetoxy-16-(3-pyridylmethylene)androst-5-ene monohydrate. Acta Crystallographica Section E Structure Reports Online 58(11): O1224-O1226
Hiltunen, L.; Niinistö, L. 1979: 3β,28-Diacetoxy-18β,19β-epoxylupane. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 35(6): 1530-1532
Kuroda, C.; Murae, T.; Tada, M.; Nagano, H.; Tsuyuki, T.; Takahashi, T. 1982: 3β,6β-Bis(acyloxy)furanoeremophilan-14-als and -14-oic Acids from Syneilesis palmata(THUNB.) MAXIM. Bulletin of the Chemical Society of Japan 55(4): 1228-1233
Bateson, J.; Cross, B. 1971: 3β,7β-dihydroxykaurenolide. a new metabolite of. Tetrahedron Letters 12(37): 3407-3408
Filho, S.; Duarte, L.; Silva, G.; Howarth, O.; Lula, I. 2003: 3β-(Stearyloxy)olean-12-ene from Austroplenckia populnea: Structure Elucidation by 2D-NMR and Quantitative13C-NMR Spectroscopy. Helvetica Chimica Acta 86(10): 3445-3449
Stache, U.; Radscheit, K.; Haede, W.; Fritsch, W. 2006: 3β-2′,3′-Didesoxy-α,L-rhamnopyranoside von Cardenoliden. Angewandte Chemie 94(7): 560-561
Flores-Alamo, M.; Rosiles-Exkiws, J.A.; Iglesias-Arteaga, M.A. 2006: 3β-Acetoxy-16β-hydroxypregn-5-ene-20-carboxylic acid 16-lactone (vespertilin acetate). Acta Crystallographica Section E Structure Reports Online 62(9): O3774-O3775
Zhou, W.; Zhong, G.; Hu, W.; Xia, C. 2006: 3β-Acetoxy-17,17-ethylenedioxy-15β,16β-methylene-5-androsten-7β-ol. Acta Crystallographica Section E Structure Reports Online 62(8): O3542-O3543
Ryer, A.I.; Gebert, W.H. 1952: 3β-Acetoxy-17α-hydroxynor-5-cholenic Acid Lactone, a By-product of the Oxidation of Sitosterol. Journal of the American Chemical Society 74(1): 41-46
Ryer, A.I.; Gebert, W.H. 1952: 3β-Acetoxy-20-hydroxy-5-cholenic Acid Lactone, a By-Product of the Oxidation of Cholesterol. Journal of the American Chemical Society 74(17): 4336-4339
Xia, C.; Hu, W.; Zhou, W.; Li, B. 2007: 3β-Acetoxy-6α-chloro-5β-hydroxyandrostan-17-one. Acta Crystallographica Section E Structure Reports Online 63(3): O1249-O1250
Zhou, W.; Hu, W.; Xia, C. 2007: 3β-Acetoxy-7α-chloro-5,6β-epoxy-15β,16β-methylene-5β-androstan-17-one. Acta Crystallographica Section E Structure Reports Online 63(2): O615-O616
Daoubi, M.; Benharref, A.; Pierrot, M. 2001: 3β-Acétoxy nor-31-lanostène-7,11-dione. Acta Crystallographica Section E Structure Reports Online 57(12): O1187-O1188
Adam, G.; Voigt, B.; Schreiber, K. 1969: 3β-Amino-verbindungen der cycloartan- und lanostanreihe. Tetrahedron 25(17): 3783-3788
Nagano, H.; Takahashi, T. 1978: 3β-Angeloyloxy-10β-hydroxy-9β-senecioyloxyfuranoeremophilane and 3β-Angeloyloxy-10β-hydroxyfuranoeremophilane. new Furanoeremophilane Derivatives from Farfugium japonicum Kitamura. Bulletin of the Chemical Society of Japan 51(11): 3335-3340
Ahmed, F.R.; Przybylska, M. 1982: 3β-Benzyloxy-17α-hydroxy-5β,14β-isocard-20(22)-enolide. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 38(4): 1388-1390
Swenson, D.C.; Duax, W.L.; Numazawa, M.; Osawa, Y. 1980: 3β-Hydroxy-16β-morpholino-5-androsten-17-one. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 36(8): 1981-1983
Weeks, C.M.; Rohrer, D.C.; Duax, W.L.; Osawa, Y.; Soriano, M. 1975: 3β-Hydroxy-17-oxo-5-androsten-19-al, a steroid pertinent to estrogen biosynthesis. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 31(10): 2525-2527
Knof, L. 1962: 3β-Hydroxy-5-keto-5.6-seco-cholestan-6-säure und Umwandlungsprodukte. Justus Liebigs Annalen der Chemie 656(1): 183-189
Sun, H.; Ye, Y.; Wang, K.; Pan, Y. 2003: 3β-Hydroxyolean-12-en-27-oic acid methanol solvate: a cytotoxic and apoptosis-inducing triterpenoid from the rhizome of Astilbe chinensis. Acta Crystallographica Section E Structure Reports Online 59(7): O989-O991
Wang, M.; He, Y.; Eisenman, L.N.; Fields, C.; Zeng, C.; Mathews, J.; Benz, A.; Fu, T.; Zorumski, E.; Steinbach, J.H.; Covey, D.F.; Zorumski, C.F.; Mennerick, S. 2002: 3β-Hydroxypregnane Steroids Are Pregnenolone Sulfate-Like GABAAReceptor Antagonists. The Journal of Neuroscience 22(9): 3366-3375
Campion, T.; Morrison, G. 1968: 3β-Methoxy-5α-cholestane-4β,5α-diol and related compounds. Tetrahedron Letters 9(1): 1-4
Kouam, S.F.; Flörke, U.; Krohn, K.; Akhtar, M.N.; Ngadjui, B.T.; Abegaz, B.M. 2005: 3β-Taraxerol from Bridelia micrantha. Acta Crystallographica Section E Structure Reports Online 61(3): O599-O600
Loder, J.; Nearn, R. 1975: 3β-acetoxynorerythrosuamine, a highly cytotoxic alkaloid from erythrophleum chlorostachys. Tetrahedron Letters 16(29): 2497-2498
Dahl, T.; McMurry, T.; Amenechi, P.; Aplin, R. 1966: 3β-acetyloleanolic acid from Drepanocarpus lunatus. Phytochemistry 5(6): 1335-1336
Campion, T.; Morrison, G. 1973: 3β-methoxy-5α-cholestane-4β,5-diol and related compounds. Tetrahedron 29(1): 239-243
Christl, M.; Drinkuth, S. 1998: 3δ2-Chromene (2,3-Didehydro-2H-1-benzopyran): Generation and Interception. European Journal of Organic Chemistry 2: 237-241
Märk, G.; Dorsch, S. 1995: 3λ3,3′λ3-Diphosphinin3λ3σ2,3″λ3σ2-Diphospha-o,m,p-terphenyle3λ3σ2,3‴λ3σ2-Diphospha-o,p-quaterphenyle. Tetrahedron Letters 36(22): 3839-3842
Mikheyev, S.; Smirnov, A. 1988: 3ν oscillations in matter and solar neutrino data. Physics Letters B 200(4): 560-564
Guenther, A.H. 1959: 3ν3 Band of C12S32S34. The Journal of Chemical Physics 31(4): 1095-1099
Pugh, L.A.; Owen, T.; Rao, K.N. 1973: 3ν3 band of 12CH4 at 1.1 μ. The Journal of Chemical Physics 59(3): 1243-1245
Fox, K. 1978: 3ν3 vibrational spectra of SF6 and UF6. The Journal of Chemical Physics 68(5): 2512-2513
Daum, C.; Hertzberger, L.; Hoogland, W.; Peters, S.; Van Deurzen, P.; Chabaud, V.; Hyams, B.; Tiecke, H.; Weilhammer, P.; Dwurazny, A.; Polok, G.; Rozanska, M.; Turala, M.; Turnau, J.; Becker, H.; Blanar, G.; Cerrada, M.; Dietl, H.; Gallivan, J.; Glaubmann, M.; Klanner, R.; Lorenz, E.; Lütjens, G.; Lutz, G.; Männer, W.; Stierlin, U.; Blakey, I.; Bowler, M.; Cashmore, R.; Loken, J.; Spalding, W.; Thompson, G.; Alper, B.; Damerell, C.; Gillman, A.; Hardwick, C.; Hotchkiss, M.; Wickens, F. 1980: 3π resonances in 2− partial waves. Physics Letters B 89(2): 285-289
Wali, K.C. 1962: 3π0Toπ+π−π0Branching Ratio of a0−+ηMeson. Physical Review Letters 9(3): 120-123
Kacser, C. 1963: 3πDecay Modes of K±andη. Physical Review 130(1): 355-356
Hodges, W.; Natesan, H.; Bischof, J.; Dames, C. 2015: 3ω Measurements for Tracking Freezing Fronts in Biological Applications. MRS Proceedings 1779: 15-20
Lu, L.; Yi, W.; Zhang, D.L. 2001: 3ω method for specific heat and thermal conductivity measurements. Review of Scientific Instruments 72(7): 2996-3003
Adler, P.S.; Forbes, L.C.; Willmott, H. 2007: 3 Critical Management Studies. Academy of Management Annals 1(1): 119-179
Rojo Gutiérrez, M.I.; Gonzalez-Ibarra, M.; Sandoval, T.; Mellado-Abrego, J. 2012: 3 Double-blind Study of the use of Transfer Factor (TF) Combined with Sublingual ImmunoTherapy in Management of Patients with Allergic Rhinitis in Mexican Population. World Allergy Organization Journal 5: S1-S2
Inoue, T.; Kusama, Y.; Sugimoto, M.; Okuno, K.; Nakajima, H. 2018: 3 ITER Project, History, Status and way Forward. RADIOISOTOPES 67(4): 127-132
Bodolica, V.; Spraggon, M. 2009: 3 Merger and Acquisition Transactions and Executive Compensation: a Review of the Empirical Evidence. Academy of Management Annals 3(1): 109-181
Cascio, W.F.; Aguinis, H. 2008: 3 Staffing Twenty‐first‐century Organizations. Academy of Management Annals 2(1): 133-165
Baritussio, A.; Dastidar, A G.; Ahmed, N.; Rodrigues, J.; Frontera, A.; Lawton, C.; Augustine, D.; McAlindon, E.; Bucciarelli-Ducci, C. 2016: 3 Clinical utility of cardiac MRi in young-middle aged patients with high-grade atrio-ventricular block. Heart 102(Suppl 3): A2-A3
Roiban, L.; Sorbier, L.; Hirlimann, C.; Ersen, O. 2016: 3 D Chemical Distribution of Titania-Alumina Catalyst Supports Prepared by the Swing-p H Method. ChemCatChem 8(9): 1651-1657
Han, T.; Li, X.; Lin, C.; Zhang, H.; Gao, P.; Zhao, Y.; Du, F.; Chen, Y.; Sun, Y. 2016: 3 D Imaging and Structural Analysis of a Mesoporous-Silica-Body-Supported Eggshell Cobalt Catalyst for Fischer-Tropsch Synthesis. ChemCatChem 8(18): 2920-2929
Zhao, J.; Zhu, Y.; Song, X.; Xiao, Y.; Su, G.; Liu, X.; Wang, Z.; Xu, Y.; Liu, J.; Eliezer, D.; Ramlall, T.F.; Lippens, G.; Gibson, J.; Zhang, F.; Linhardt, R.J.; Wang, L.; Wang, C. 2019: 3‐ O ‐Sulfation of Heparan Sulfate Enhances Tau Interaction and Cellular Uptake. Angewandte Chemie 132(5): 1834-1843
Vaarla, K.; Karnewar, S.; Panuganti, D.; Peddi, S.R.; Vedula, R.R.; Manga, V.; Kotamraju, S. 2019: 3‐(2‐(5‐Amino‐3‐aryl‐1 H ‐pyrazol‐1‐yl) thiazol‐4‐yl)‐2 H ‐chromen‐2‐ones as Potential Anticancer Agents: Synthesis, Anticancer Activity Evaluation and Molecular Docking Studies. ChemistrySelect 4(14): 4324-4330
Casas, J.S.; Castaño, M.V.; Couce, M.D.; Sánchez, A.; Sordo, J.; Torres, M.D.; Vázquez López, E.M. 2012: 3‐(2‐Furyl)‐2‐sulfanylpropenoic Acid as a Chelating Agent for Lead(II) and Diorganonolead(IV) Compounds – Chemical Behaviour and in Vitro Protective Effect against Dimethyllead(IV) Toxicity. European Journal of Inorganic Chemistry 30: 4822-4832
Kloubert, T.; Müller, C.; Krieck, S.; Schlotthauer, T.; Görls, H.; Westerhausen, M. 2012: 3‐(2‐Pyridyl)‐5‐(2‐thienyl)pyrazole and Complexes of its Anion with Lithium, Magnesium, Calcium, and Zinc Ions. European Journal of Inorganic Chemistry 36: 5991-6001
Álvarez, C.M.; Álvarez‐Miguel, L.; García‐Rodríguez, R.; Martín‐Álvarez, J.M.; Miguel, D. 2015: 3‐(Pyridin‐2‐yl)imidazo[1,5‐ a ]pyridine (Pyridylindolizine) as Ligand in Complexes of Transition and Main‐Group Metals. European Journal of Inorganic Chemistry 29: 4921-4934
Mamedov, V.A.; Zhukova, N.A.; Syakaev, V.V.; Beschastnova, T.N.; Kadyrova, M.S.; Isaeva, A.O.; Mamedova, S.V.; Gavrilova, E.L.; Latypov, S.K.; Sinyashin, O.G. 2019: 3‐(α‐Chlorobenzyl)quinoxalin‐2(1 H )‐ones as Versatile Reagents for the Synthesis of 3‐Benzylquinoxalin‐2(1 H )‐ones and Thiazolo[3,4‐ a ]quinoxalin‐4(5 H )‐ones. Journal of Heterocyclic Chemistry 56(8): 2221-2234
Wang, K.; Yang, G.; Wang, Z. 2019: 3‐13 GHz Q‐enhanced low noise amplifier with optimized inductors utilizing in‐phase current returning path technique. Microwave and Optical Technology Letters 61(7): 1712-1715
Scott Murdison, T.; McIntosh, C.; Hillis, J.; MacKenzie, K.J. 2019: 3‐1: Psychophysical Evaluation of Persistence‐ and Frequency‐Limited Displays for Virtual and Augmented Reality. SID Symposium Digest of Technical Papers 50(1): 1-4
Ohtsuka, S.; Nakagawa, H.; Fukaya, Y.; Torisato, N.; Hira, S. 2019: 3‐2: Importance of Object Contour Retention in 3D Space Based on "The Law of Inertia" Hypothesis in Human Perception, with Analysis of 2D‐ and 3D‐ Footsteps Illusion. SID Symposium Digest of Technical Papers 50(1): 5-8
Tien, K.; Hung, Y.; Wu, C.; Lin, C.; Li, J.; Liao, C. 2020: 3‐3: Novel Microstructure Film to Improve Viewing Angle of Multi‐Domain Polymer Sustained Alignment LCD. SID Symposium Digest of Technical Papers 51(1): 9-12
Gaspar, J.M.; Hoffman, D.M.; Citron, D.; Odell, D. 2019: 3‐3: the effect of larger field‐of‐view on visual search times for world‐locked augmented reality objects. SID Symposium Digest of Technical Papers 50(1): 9-12
Borjigin, S.; Feng, Z.; Shi, Z.; Zeng, L.; Chen, S.; Lee, C.; Zhang, X. 2020: 3‐4: Novel LCD Pixel Design with Extra Large Aperture Ratio for Ps VA Mode Display. SID Symposium Digest of Technical Papers 51(1): 13-16
Au, D.; Mohona, S.S.; Cutone, M.D.; Hou, Y.; Goel, J.; Jacobson, N.; Allison, R.S.; Wilcox, L.M. 2019: 3‐4: Stereoscopic Image Quality Assessment. SID Symposium Digest of Technical Papers 50(1): 13-16
Kuhn, R.; Krüger, G. 1956: 3‐Acetamino‐furan aus N ‐Acetyl‐ D ‐glicosamin; ein Beitrag Zur Theorie der Morgan‐Elson‐Reaktion. Chemische Berichte 89(6): 1473-1486
Men, D.; Hang, L.; Zhang, H.; Zhang, X.; Lyu, X.; Cai, W.; Li, Y. 2017: 3‐Acrylamidophenylboronic Acid‐Modified Hydrogel Film Attached to a Gold Nanosphere Array to Detect Hydrofluoric Acid with Good Selectivity and Recyclability. ChemNanoMat 4(2): 165-169
Zhang, G.; Lin, L.; Yang, K.; Wang, S.; Feng, Q.; Zhu, J.; Song, Q. 2019: 3‐Aminoindole Synthesis from 2‐Nitrochalcones and Ammonia or Primary Amines. Advanced Synthesis-Catalysis 361(16): 3718-3722
Flitsch, W.; Kahner‐Gröne, S. 1982: 3‐Aminoindolizine. Chemische Berichte 115(3): 871-877
Mohamed Teleb, M.A.; Mekky, A.E.M.; Sanad, S.M.H. 2021: 3‐Aminothieno [2,3‐ b ]pyridine‐2‐carboxylate: Effective precursor for microwave‐assisted three components synthesis of new pyrido[3′,2′:4,5]thieno[3,2‐ d ]pyrimidin‐4( 3 H )‐one hybrids. Journal of Heterocyclic Chemistry 58(9): 1825-1835
Geiger, W.; Böshagen, H.; Medenwald, H. 1969: 3‐Amino‐1.2‐benzisothiazole und 3‐Imino‐1.2‐benzisothiazoline. Chemische Berichte 102(6): 1961-1975
Abdelmoniem, A.M.; Ghozlan, S.A.S.; Abdelmoniem, D.M.; Elwahy, A.H.M.; Abdelhamid, I.A. 2018: 3‐Amino‐5‐cyanomethylpyrazole‐4‐carbonitrile: Versatile Reagent for Novel Bis(pyrazolo[1,5‐a]pyridine) Derivativesviaa Multicomponent Reaction. Journal of Heterocyclic Chemistry 55(12): 2792-2798
Berneth, H.; Hünig, S. 1980: 3‐Aryl‐3‐chlor‐1,2‐diaziridine als isolierbare Zwischenprodukte bei der Darstellung von 3‐Aryl‐3‐chlor‐3 H ‐1,2‐diazirinen. Chemische Berichte 113(5): 2040-2042
Märkl, G.; Hock, K.; Matthes, D. 1983: 3‐Aryl‐λ 3 ‐phosphorine, 3‐Aryl‐λ 5 ‐phosphorine, 3‐Aryl‐λ 4 ‐phosphorinium‐Salze. Chemische Berichte 116(2): 445-472
Schmidt, R.R.; Schwille, D. 1969: 3‐Aza‐pyrylium‐Salze, V. Herstellung und Umsetzung von 3‐Aza‐thiopyryliumsalzen. Chemische Berichte 102(1): 269-274
Schmidt, R.R.; Schwille, D.; Wolf, H. 1970: 3‐Aza‐pyrylium‐Salze, VI. Alkyliden‐1.3‐oxazine und Alkyliden‐pyrimidine. Chemische Berichte 103(9): 2760-2767
Paul, H.; Chatterjee, S.; Hilgetag, G. 1968: 3‐Benzyloxycarbonylaminomethyl‐1.2.4‐triazine aus Benzyloxycarbonylamino‐acetamidrazon und Benzilen. Chemische Berichte 101(11): 3696-3699
Klemm, K.; Prüsse, W.; Baron, L.; Daltrozzo, E. 1981: 3‐Chlor‐5‐dimethylamino‐2‐formyl‐4‐aza‐2,4‐pentadiennitril, Synthese und Umsetzungen mit Nucleophilen. Chemische Berichte 114(6): 2001-2018
Roedig, A.; Schödel, S. 1958: 3‐Chlor‐5‐oxo‐‐tetrahydro‐cumarin aus Trichloracrolein und Dihydroresorcin. Chemische Berichte 91(2): 330-339
Bucić, M.; Letzter, S.; Sudakov, B. 2019: 3‐Color bipartite Ramsey number of cycles and paths. Journal of Graph Theory 92(4): 445-459
Haeger, C.; Kaban, M.K.; Tesauro, M.; Petrunin, A.G.; Mooney, W.D. 2019: 3‐D Density, Thermal, and Compositional Model of the Antarctic Lithosphere and Implications for its Evolution. Geochemistry, Geophysics, Geosystems 20(2): 688-707
Remaki, L.; Habashi, W.G. 2006: 3‐D Mesh Adaptation on Multiple Weak Discontinuities and Boundary Layers. SIAM Journal on Scientific Computing 28(4): 1379-1397
Chang, K.W.; Yoon, H. 2018: 3‐D Modeling of Induced Seismicity Along Multiple Faults: Magnitude, Rate, and Location in a Poroelasticity System. Journal of Geophysical Research: Solid Earth 123(11): 9866-9883
Gómez‐García, .M.; Meeßen, C.; Scheck‐Wenderoth, M.; Monsalve, G.; Bott, J.; Bernhardt, A.; Bernal, G. 2019: 3‐D Modeling of Vertical Gravity Gradients and the Delimitation of Tectonic Boundaries: the Caribbean Oceanic Domain as a Case Study. Geochemistry, Geophysics, Geosystems 20(11): 5371-5393
Abdel‐Ghaffar, A.M.; Nazmy, A.S. 1991: 3‐D Nonlinear Seismic Behavior of Cable‐Stayed Bridges. Journal of Structural Engineering 117(11): 3456-3476
Vermonden, T.; de Vos, W.; Marcelis, A.; Sudhölter, E. 2004: 3‐D Water‐Soluble Reversible Neodymium( IIi ) and Lanthanum( IIi ) Coordination Polymers. European Journal of Inorganic Chemistry 14: 2847-2852
Hata, M.; Uyeshima, M.; Handa, S.; Shimoizumi, M.; Tanaka, Y.; Hashimoto, T.; Kagiyama, T.; Utada, H.; Munekane, H.; Ichiki, M.; Fuji‐ta, K. 2017: 3‐D electrical resistivity structure based on geomagnetic transfer functions exploring the features of arc magmatism beneath Kyushu, Southwest Japan Arc. Journal of Geophysical Research: Solid Earth 122(1): 172-190
Liang, Q.; Chen, C.; Li, Y. 2014: 3‐D inversion of gravity data in spherical coordinates with application to the GRAIL data. Journal of Geophysical Research: Planets 119(6): 1359-1373
Zhang, Y.; Wang, Y.; Gao, S. 2021: 3‐D magnetic equivalent circuit model for a coreless axial flux permanent‐magnet synchronous generator. IET Electric Power Applications 15(10): 1261-1273
Jung, H.; Lee, G.; Hahn, S. 1984: 3‐D magnetic field computations by infinite elements. Journal of Applied Physics 55(6): 2201-2203
Guo, Z.; Della Torre, E. 1994: 3‐D micromagnetic modeling of domain configurations in soft magnetic materials. Journal of Applied Physics 75(10): 5710-5712
Afonso, J.C.; Rawlinson, N.; Yang, Y.; Schutt, D.L.; Jones, A.G.; Fullea, J.; Griffin, W.L. 2016: 3‐D multiobservable probabilistic inversion for the compositional and thermal structure of the lithosphere and upper mantle: III. Thermochemical tomography in the Western‐Central U.S. Journal of Geophysical Research: Solid Earth 121(10): 7337-7370
Yang, Z.; Tan, E.L. 2016: 3‐D non‐uniform time step locally one‐dimensional FDTD method. Electronics Letters 52(12): 993-994
Wang, Y.; Guo, C.; Shang, X.; Wu, W. 2020: 3‐D printed waveguide attenuators operating at ka‐band (26.5‐40 GHz ). Microwave and Optical Technology Letters 63(3): 775-780
Gu, Y.; Kierstead, H.A.; Oum, S.; Qi, H.; Zhu, X. 2021: 3‐Degenerate induced subgraph of a planar graph. Journal of Graph Theory 99(2): 251-277
Kuhn, R.; Haas, H.J.; Seeliger, A. 1961: 3‐Desoxy‐D‐fructose. Chemische Berichte 94(9): 2534-2535
Dürr, H.; Schmitz, H. 1978: 3‐Diazoindazole: Photochemie, Thermochemie, Cycloadditionen. Chemische Berichte 111(6): 2258-2266
Jones, J.G.; Morales, C.; Knezek, G.A. 2005: 3‐Dimensional online learning environments: examining attitudes toward information technology between students in Internet‐based 3‐dimensional and face‐to‐face classroom instruction. Educational Media International 42(3): 219-236
Schmidt, R.R. 1970: 3‐Formylmethylen‐phthalimidin und Derivate. Chemische Berichte 103(12): 3791-3793
Yatim, A.R.M.; Wan Muhammad Zulkifli, W.N.F.; Majid, A.M.S.; Foster, J.L.; Hayes, D.G. 2020: 3‐Hydroxypicolinic Acid as an Effective Matrix for Sophorolipid Structural Elucidation Using Matrix‐Assisted Laser Desorption Ionization Time‐of‐Flight Mass Spectrometry. Journal of Surfactants and Detergents 23(3): 565-571
Schmidt, H. 1947: 3‐Isopropyliden‐1‐acetyl‐cyclopenten‐(5), ein neuer Bestandteil des spanischen Eucalyptusöls von E. globulus. Chemische Berichte 80(6): 533-538
Krom, M.; Peters, T.; Coumans, R.; Sciarone, T.; Hoogboom, J.; ter Beek, S.; Schlebos, P.; Smits, J.; de Gelder, R.; Gal, A. 2003: 3‐Metalla‐1,2‐dioxolanes and their Reactivity. European Journal of Inorganic Chemistry 6: 1072-1087
Roedig, A.; Ritschel, W.; Scheutzow, D.; Hecht, H.J. 1982: 3‐Pyrrolindiimine aus Perchlorbutenin und primären aromatischen Aminen. Chemische Berichte 115(7): 2652-2663
Hu, Y.; Georgiou, P. 2014: 3‐T ISFET front‐end utilising parasitic device capacitance. Electronics Letters 50(21): 1507-1509
Keim, M.; Konetzke, K.; Freytag, A.; Maas, G. 2021: 3‐Trifloxy‐3‐(trifluoromethyl)prop‐2‐ene 1‐Iminium Salts as Precursors for Elusive 3‐(Trifluoromethyl)prop‐2‐yne 1‐Iminium Salts. European Journal of Organic Chemistry 23: 3426-3441
Lipkin, H.J. 1973: 3‐Year postdocs?. Physics Today 26(12): 9-11
Pole, R.V. 1967: 3‐d Imagery and Holograms of Objects Illuminated in White Light. Applied Physics Letters 10(1): 20-22
Rajan, K.G.; Sastry, V.S.; Khanna, R. 1981: 3‐sample, 6‐lead Bridgman anvil assembly for resistivity measurements to 100 Kbar. Review of Scientific Instruments 52(11): 1734-1736
Ried, W.; Weidemann, P. 1971: 3‐Äthoxycarbonyl‐cinchoninsäureamide aus Isatinen und 3‐Amino‐acrylsäure‐äthylestern. Chemische Berichte 104(10): 3341-3349
Hückel, W.; Thiele, K. 1961: 3‐Äthyl‐cyclohexanol. Äthanolyse von cis ‐ und trans ‐3‐tert.‐Butyl‐cyclohexanol‐toluolsulfonat. Chemische Berichte 94(8): 2027-2031
Morikawa, K.; Kamijo, K.; Morijiri, K.; Pahlovy, S.; Aikawa, N.; Miyamoto, I. 2012: 3–10ke V Xe+ ion beam machining of ultra low thermal expansion glasses for EUVL projection optics: Evaluation of surface roughness. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 272: 132-136
Namgoong, G.; Choi, E.; Park, W.; Lee, B.; Park, H.; Ma, H.; Bien, F. 2021: 3–12-V Wide Input Range Adaptive Delay Compensated Active Rectifier for 6.78-MHz Loosely Coupled Wireless Power Transfer System. IEEE Transactions on Circuits and Systems I: Regular Papers 68(6): 2702-2713
Lynch, D.K.; Russell, R.W.; Sitko, M.L. 2001: 3–14 Micron Spectroscopy of Nova V445 Puppis. The Astronomical Journal 122(6): 3313-3316
Heber, B.; Ferrando, P.; Raviart, A.; Paizis, C.; Posner, A.; Wibberenz, G.; Muller‐Mellin, R.; Kunow, H.; Potgieter, M.S.; Ferreira, S.E.S.; Burger, R.A.; Fichtner, H.; Schlickeiser, R. 2002: 3–20 me V Electrons in the Inner Three‐dimensional Heliosphere at Solar Maximum:Ulysses COSPIN/KET Observations. The Astrophysical Journal 579(2): 888-894
Rubio, J.J.M.; Quaglia, R.; Piacibello, A.; Camarchia, V.; Tasker, P.J.; Cripps, S. 2021: 3–20-GHz Ga N MMIC Power Amplifier Design Through a COUT Compensation Strategy. IEEE Microwave and Wireless Components Letters 31(5): 469-472
Capitanio, F.; Ubertini, P.; Bazzano, A.; Kretschmar, P.; Zdziarski, A.A.; Joinet, A.; Barlow, E.J.; Bird, A.J.; Dean, A.J.; Jourdain, E.; De Cesare, G.; Del Santo, M.; Natalucci, L.; Cadolle Bel, M.; Goldwurm, A. 2005: 3–200 ke V Spectral States and Variability of the INTEGRALBlack Hole Binary IGR J17464−3213. The Astrophysical Journal 622(1): 503-507
Imanishi, M. 2002: 3–4 Micron Spectroscopy of Seyfert 2 Nuclei to Quantitatively Assess the Energetic Importance of Compact Nuclear Starbursts. The Astrophysical Journal 569(1): 44-53
Fill, M.; Felder, F.; Rahim, M.; Khiar, A.; Zogg, H. 2012: 3–4.5 μm continuously tunable single mode VECSEL. Applied Physics B 109(3): 403-406
Kojima, T.; Sunaga, H.; Takizawa, H.; Hanaya, H.; Tachibana, H. 2003: 3–45Me V/u ion beam dosimetry using thin film dosimeters. Radiation Physics and Chemistry 68(6): 975-980
Eddolls, D. 1976: 3–5 μm Single crystal Pb Te and Pbx Sn1−x Te detectors. Infrared Physics 16(1-2): 47-50
Charles, A.D.; Diversi, P.; Johnson, B.F.; Lewis, J. 1976: 3–5-η-cyclooctatrienyl complexes of iron and ruthenium. Journal of Organometallic Chemistry 116(2): C25-C28
Han, H.; Wang, S.; Li, Y.; Sun, C. 2020: 3–D Numerical study for the film thickness distribution of n–pentane falling film flow around the curved egg–shaped tube bundle. Chemical Engineering Research and Design 156: 156-170
Ma, J.M.; Qiu, R.F. 2005: 3–Manifold Containing Separating Incompressible Surfaces of all Positive Genera. Acta Mathematica Sinica, English Series 21(6): 1315-1318
Tang, X.; Yu, J. 2001: 3–global attractivity of the zero solution of the "food limited" type functional differential equation. Science in China Series A: Mathematics 44(5): 610-618
Myers, R.O. 1961: 3- Johann Ludwig Casper (1796- 1864). Medicine, Science and the Law 1(3): 304-312
Kikuchi, H.; Harata, K.; Akiyoshi, S.; Madhyastha, H.; Kuribayashi, F. 2021: 3', 4'-Dihydroxyflavone enhances all-trans retinoic acid-induced superoxide-generating activity through up-regulating transcription of gp91-phox in human monoblastic U937 cells, as opposed to flavone and other hydroxyflavone derivatives. Fundamental Toxicological Sciences 8(2): 53-59
Bayer, T.; Szüts, S.; Fiedler, L.; Roithinger, F.X.; Trimmel, H. 2019: 3 = 1: kooperative PCI-Versorgung einer ländlichen Region. Notfall + Rettungsmedizin 23(8): 594-603
Ali, M.A.; Bashir, S.; Akram, M.; Mahmood, K.; Faizan-ul-Haq; Hayat, A.; Mutaza, G.; Chishti, N.A.; Khan, M.A.; Ahmad, S. 2018: 3 Me V proton irradiation effects on surface, structural, field emission and electrical properties of brass. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 423: 7-15
Uehara, S.; Shimada, N.; Takeda, Y.; Koyama, Y.; Takei, Y.; Ando, H.; Satoh, S.; Uno, A.; Sakurai, K. 2008: 3′ Poly(d A)-Tailed Thrombin DNA Aptamer to Increase DNase-Resistance and Clotting Inhibitory Activity. Bulletin of the Chemical Society of Japan 81(11): 1485-1491
Fourie, T.; du Preez, I.; Roux, D. 1972: 3′,4′,7,8-tetrahydroxyflavonoids from the heartwood of Acacia nigrescens and their conversion products. Phytochemistry 11(5): 1763-1770
Chamsuksai, P.; Choi, J.S.; Woo, W.S. 1981: 3′,4′,7-trihydroxyflavone in Albizzia julibrissin. Archives of Pharmacal Research 4(2): 129-131
Ghosh, D.; Ahamed, G.; Batuta, S.; Begum, N.A.; Mandal, D. 2016: 3′,4′-methylenedioxy-3-hydroxyflavone: switchover from reversible to irreversible ESIPT along the n-alcohol series. Journal of Photochemistry and Photobiology A: Chemistry 328: 77-86
Wittel, G.; Bats, J.W.; Engels, J.W. 2007: 3′,5′-Bis(tert-butyldimethylsilyl)-5-iodo-2′-deoxycytidine. Acta Crystallographica Section E Structure Reports Online 63(5): O2657-O2659
Shang, G.; Gao, Y.; Gao, X.; Yu, Z.; Zheng, H. 2006: 3′,6′-Bis(diethylamino)-2-(quinolin-8-yl)spiro[1H-isoindoline-1,9′-xanthen]-3(2H)-one. Acta Crystallographica Section E Structure Reports Online 62(12): O5937-O5938
Selvanayagam, S.; Velmurugan, D.; Ravikumar, K.; Rao, S.N.; Poornachandran, M.; Raghunathan, R. 2004: 3′-(2-Chlorophenyl)-1′-methyl-4′nitrospiro[indan-2,2′-pyrrolidine]-1,3-dione. Acta Crystallographica Section E Structure Reports Online 60(11): O2157-O2159
Tomasz, J. 1983: 3′-3′,3′-5′ and 5′-5′ Tp T-Amides: Synthesis, Characterization and Alkaline Hydrolysis. Nucleosides and Nucleotides 2(1): 51-61
Sunkari, Y.K.; Pal, C.; Reddy, T.J.; Chakraborty, T.K. 2014: 3′-Amino-5′-carboxymethyl-3′,5′-dideoxy nucleosides for the synthesis of fully amide-linked RNA mimics. Tetrahedron 70(35): 5455-5462
Shivachev, B.; Petrova, R.; Naydenova, E. 2006: 3′-Aminocyclohexanespiro-5′-hydantoin–phenylboronic acid (1/1). Acta Crystallographica Section E Structure Reports Online 62(9): O3887-O3889
Schoetzau, T.; Koert, U.; Engels, J.W. 2000: 3′-C-Branched Thymidine 5′-Triphosphates: Synthesis, Application, and Coupling with Near-Infrared Oxazine Fluorescent Dye. Synthesis 05: 707-713
Shin, Y.; Ye, M.B.; Kim, S.; Lee, S.; Kim, I.; Kim, S.; Yang, H.; Kim, S. 2014: 3′-Deoxyadenosine inhibits pre-adipocyte differentiation and biosynthesis of triacylglycerol in 3T3-L1 cells. Journal of Functional Foods 6: 331-338
Wahle, E. 1999: 3′-End processing of pre-m RNA in eukaryotes. FEMS Microbiology Reviews 23(3): 277-295
Singh, P.N.D.; Pika, J.; Krause Bauer, J.A.; Gudmundsdóttir, A.D. 2004: 3′-Isopropyl-8′,8′-dimethyl-2-benzofuran-1-spiro-7′-bicyclo[4.2.0]octa-1′(6′),2′,4′-trien-3-one. Acta Crystallographica Section E Structure Reports Online 60(12): O2390-O2392
Besidsky, Y.; Luthman, K.; Hacksell, U. 1994: 3′-Keto-1-nitro-2-phenylspiro[cyclopropane-3,2′-quinuclidine]: Synthesis and reactions with nucleophiles. Journal of Heterocyclic Chemistry 31(6): 1321-1326
Pinar, M.; Schmid, H. 1963: 3′-Methoxy-limaspermin, Limapodin, 3′-Methoxy-limapodin und Tubotaiwin aus Aspidosperma limae Woodson. Justus Liebigs Annalen der Chemie 668(1): 97-104
Tang, J.; Xu, R.; Zhang, Y.; Wei, T. 2006: 3′-Methyl-2-[5-(4-methylphenoxymethyl)-4-phenyl-4H-1,2,4-triazol-5-ylsulfanyl]acetanilide. Acta Crystallographica Section E Structure Reports Online 62(12): O5820-O5822
Maślankiewicz, M.J.; Maslankiewicz, A. 1996: 3′-Methylsulfinyl-3,4′-diquinolinyl sulfides. Journal of Heterocyclic Chemistry 33(4): 1153-1158
Selvanayagam, S.; Velmurugan, D.; Ravikumar, K.; Poornachandran, M.; Raghunathan, R. 2006: 3′-Nitro-4′-phenylspiro[1H-indole-3,2′-pyrrolidin]-2-one. Acta Crystallographica Section E Structure Reports Online 62(11): O5072-O5074
Geiger, H. 1979: 3′-O-M thylmyricetin-3-rhamnoglucosid, ein neues Flavonoid aus dem Herbstlaub von Ginkgo biloba L. / 3′-O-Methylmyricetin-3-rhamnoglucoside a new Flavonoid from the Autumnal Leaf of Ginkgo biloba L. Zeitschrift für Naturforschung C 34(9-10): 878-879
Takasu, H.; Tsuji, Y.; Sajiki, H.; Hirota, K. 2005: 3′-Selective modification of a 4′,5′-didehydro-5′-deoxy-2′,3′-epoxyuridine using nucleophiles. Tetrahedron 61(35): 8499-8504
Roesler, G.; Jastorff, B. 1978: 3′-modified nucleotides: Substrate recognition by phosphohydrolases. Bioorganic Chemistry 7(1): 35-45
Satis Kumar, B.K.; Gayathri, D.; Velmurugan, D.; Ravikumar, K.; Poornachandran, M. 2006: 3′′-(4-Bromobenzylidene)-4′-(4-bromophenyl)-1′-methylindan-2-spiro-2′-pyrrolidine-3′-spiro-1′′-cyclohexane-1,3,2′′-trione. Acta Crystallographica Section E Structure Reports Online 62(12): O5388-O5389
Li, X.; Feng, Y.; Gao, B.; Li, N. 2003: 3′′′-(2,6-Dichlorophenyl)-1′-methyl-4′,4′′′-diphenyl-4′′′,5′′′-dihydro-indole-3-spiro-2′-pyrrolidine-3′-spiro-1′'-cyclopentane-3′′-spiro-5′′′-[1,2]oxazole-2(3H),2′′-dione. Acta Crystallographica Section E Structure Reports Online 59(11): O1659-O1660
Rao, M.S.; Priyadarsini, D.K.; Lakshminarayana, S.; Rao, V.S.; Sastry, D.L. 1980: 3−-2+first-forbidden beta transitions in the decay of Ga4172-31. Physical Review C 21(2): 728-737
Wahsweiler, H.G.; Danos, M.; Greiner, W. 1966: 3−Continuum States of O16in the Eigenchannel Reaction Theory. Physical Review Letters 17(7): 395-397
Newton, T.M.; Davidson, J.M.; Hooper, H.R.; Green, P.W.; Sheppard, D.M.; Neilson, G.C. 1977: 3−octupole states in the even Cd nuclei. Physical Review C 15(2): 630-634
Aoki, Y. 2017: 3 Radiation Dosimetry- Experimental Methods in Radiation Chemistry-. RADIOISOTOPES 66(10): 407-416
Tanaka, Y. 2019: 3.State-of-the-art Internal Medicine in Joints and Bone. Nihon Naika Gakkai Zasshi 108(Suppl): 104a-111a
Pulvertaft, D. 2014: 4 (2014) the Colour of British Warship Figureheads. The Mariner's Mirror 100(2): 219-220
Barbanti Silva, V.; Ferrari, S.; Forghieri, M.; Rigatelli, M. 2006: 4 - Testing TERS and MADRS on 400 pre-OLTX patients. Journal of Psychosomatic Research 60(6): 655-656
K. Sahu, P.; D. Naik, S.; Mehdi, S.; S. Jeong, L. 2016: 4 -Thionucleosides as Potent and Selective A3 Adenosine Receptor Ligands. Current Organic Chemistry 20(8): 930-938
Ramaswamy, S. 1990: 4 . Arthur Jawodimbari' s the Sun as a Dramatized Legend. The Journal of Commonwealth Literature 25(1): 216-219
Graham, J. 1962: 4 2-Halogenoalkylamines. Progress in Medicinal Chemistry: 132-175
Gleiter, R.; Sigwart, C.; Kissler, B. 1989: 4 6-Dimethylenetricyclo[,7]octane-2-one and 2,4,6-Trimethylenetricyclo[,7]octane. Angewandte Chemie International Edition in English 28(11): 1525-1526
O'Sullivan, R. 1955: 4 Abuse of Rights. Current Legal Problems 8(1): 61-73
Assam, M.; Champoudry, J.; Benkreira, M. 2018: 4 Acquisition of small field dosimetry data: Establishment of acquisition protocols, comparison and characterization of different detectors. Physica Medica 56: 41-42
Power, E. 1997: 4 Aldehydes as Biocides. Progress in Medicinal Chemistry: 149-201
Saida, B.; Amélie, G.; Sinan, T.; Florence, C.; Alain, P.; Darina, T.; Sylvie, C.; Philippe, N.; Richard, L. 2005: 4 Amélioration de l'apport nutritionnel précoce des prématurés de moins de 32 semaines : comparaison de formulations de nutrition parentérale individuelle ou standard. Journal de Gynécologie Obstétrique et Biologie de la Reproduction 34(3): 281-282
Gal, T.J. 1996: 4 Anaesthesia for the patient with lung disease. Baillière's Clinical Anaesthesiology 10(1): 63-76
Chopra, V. 1996: 4 Anaesthesia simulators. Baillière's Clinical Anaesthesiology 10(2): 297-315
Dejong, C. 2005: 4 Anesthesia Assisted Opiate Detoxification (AAOD) for heroin addicts during 24 hour hospital admission: Complications of anaesthesia, and results for opiate abstinence at one year follow-up. Ambulatory Surgery 12: S1-S2
Habler, O.P.; Messmer, K.F. 1997: 4 Artificial oxygen carriers. Baillière's Clinical Anaesthesiology 11(2): 289-300
Chamberlin, M.; Ryan, T. 1982: 4 Bacteriophage DNA-Dependent RNA Polymerases. Nucleic Acids Part B: 87-108
Krieger, J.H. 1968: 4 Basic Minerals. Chemical-Engineering News Archive 46(37): 74A-79A
Randle, P.J.; Patston, P.A.; Espinal, J. 1987: 4 Branched-Chain Ketoacid Dehydrogenase. Control by Phosphorylation Part B - Specific Enzymes (II) Biological Processes: 97-121
Kitahara, S.; Oka, K.; Sekine, H. 1985: 4 CASES OF MüLLERIAN DUCT CYST. The Japanese Journal of Urology 76(3): 415-421
Stull, J.T.; Nunnally, M.H.; Michnoff, C.H. 1986: 4 Calmodulin-Dependent Protein Kinases. Control by Phosphorylation Part A - General Features, Specific Enzymes (I): 113-166
Koura, K. 1997: 4 Carlo direct simulation of rotational relaxation of diatomic molecules using classical trajectory calculations: Nitrogen shock wave. Physics of Fluids 9(11): 3543-3549
Andryan, D.P.; Ariseno; Mulya, A. 2019: 4 Characteristic of Dialysis Patient with Intradialytic Hypertension in Hemodialysis Unit Sumedang Regional Public Hospital. Journal of Hypertension 37(Supplement 2: E1-E2
Amato, M.; Castelnuovo, S.; Frigerio, B.; Ravani, A.; Tremoli, E.; Sirtori, C.; Baldassarre, D. 2008: 4 Chronic use of Light or Regular Cigarettes and Flow Mediated Dilation. Nutrition, Metabolism and Cardiovascular Diseases 18: S35-S36
Olesen, J. 2011: 4 Classification, Epidemiology and Cost of Headache Disorders. European Journal of Pain Supplements 5(S 1): 1-2
Vickers, R.J.; Hanning, C.D. 1995: 4 Clinical evaluation of the upper airway. Baillière's Clinical Anaesthesiology 9(2): 267-284
Van de Voorde, A.; Vanmechelen, E.; Blennow, K.; Cras, P. 1996: 4 Combination of tau/phospho-tau with other biochemical markers to improve the specificity of an Alzheimer's disease test. Neurobiology of Aging 17(4): S1-S2
Bolusset, O.; Fontaine, J.; Retif, P.; Quétin, P. 2019: 4 Complexity metrics combination to optimize the pre-treatment quality assurance for IMRT and VMAT plans. Physica Medica 68: 3-4
Vyborny, C.; Bunch, P.; Chotas, H.; Dobbins, J.; Niklason, L.; Schaefer-Prokop, C. 2003: 4 Considerations of Basic Image Quality. Journal of the ICRU 3(2): 51-65
Vyborny, C.; Bunch, P.; Chotas, H.; Dobbins, J.; Niklason, L.; Schaefer-Prokop, C. 2003: 4 Considerations of Basic Image Quality. Journal of the International Commission on Radiation Units and Measurements 3(2): 51-65
Holland, D.C. 1953: 4 Constitutional Experiments in British West Africa. Current Legal Problems 6(1): 62-81
List, A.; Epling-Burnette, P.; Zou, J.; Bai, F.; Painter, J.; Wei, S.; Sugimori, C. 2009: 4 Controlling the "fate" of T cells in MDS. Leukemia Research 33: S1-S2
Kato, J. 2010: 4 Cytapheresis Therapy for Crohn's disease in Japan. Transfusion and Apheresis Science 43: S2-S3
Ness, G.C. 2003: 4 Defects in cholesterol biosynthesis. Lipid Metabolism and Membrane Biogenesis: 169-182
Kerba, M.; Miao, Q.; Mackillop, W. 2006: 4 Defining the need for prostate cancer radioTherapy in the general population: a criterion-based benchmarking approach. Radiotherapy and Oncology 80: S1-S2
Cubero, F.; Zhao, G.; Nevzorova, Y.; Hatting, M.; Drvarov, O.; Masaoudi, M.A.; Gassler, N.; Liedtke, C.; Trautwein, C. 2012: 4 Different Roles of Jnk1 and Jnk2 in the Development of Nash and Hcc. Journal of Hepatology 56: S2-S3
Sun, M.; Rand, K.; Fleming, C. 2019: 4 Dimensional waypoint generation for conflict-free trajectory based operation. Aerospace Science and Technology 88: 350-361
Holland, D.C. 1951: 4 Diplomatic Immunity in English Law. Current Legal Problems 4(1): 81-106
Adelstein, S.J.; Green, A.J.; Howell, R.W.; Humm, J.L.; Leichner, P.K.; O'Donoghue, J.A.; Strand, S.; Wessels, B.W. 2002: 4 Dosimetric Considerations for Non-Uniform Distributions of Radioactivity. Journal of the ICRU 2(1): 41-70
Adelstein, S.J.; Green, A. J .; Howell, R.W.; Humm, J . L.; Leichner, P.K.; O'Donoghue, J.A.; Strand, S.; Wessels, B.W. 2002: 4 Dosimetric Considerations for Non-Uniform Distributions of Radioactivity. Journal of the International Commission on Radiation Units and Measurements 2(1): 41-70
Ververs, M. 1996: 4 Dutch perspective on fat substitutes. Nutrition Bulletin 21(1): 9-10
Courtney, E.; Pollock, L.; Gagg, C.; Stevenson, H.; Male, S. 2020: 4 Effects on Hospital Admissions from the Completion of Good Quality Treatment Escalation Plans in Care Homes. Age and Ageing 49(Supplement_1): I1-I8
Jacob, P.; Bailiff, I.K.; Balonov, M.; Bauchinger, M.; Bouville, A.; Haskell, E.; Nakamura, N.; Romanyukha, A. 2002: 4 Environmental Measurements and Modelling. Journal of the ICRU 2(2): 65-90
Jacob, P.; Bailiff, I.K.; Balonov, M.; Bauchinger, M.; Bouville, A.; Haskell, E.; Nakamura, N.; Romanyukha, A. 2002: 4 Environmental Measurements and Modelling. Journal of the International Commission on Radiation Units and Measurements 2(2): 65-90
Hastie, R.; Tong, S.; Brownfoot, F.; Hannan, N.; Kaitu'u-Lino, T. 2016: 4 Epidermal growth factor receptor positively regulates s Flt1 secretion. Pregnancy Hypertension: An International Journal of Women's Cardiovascular Health 6(3): 138-139
Husén, T. 2009: 4 Exams and Relevance. The IDS Bulletin 11(2): 66-67
Suciu, A. 2015: 4 Ezra 5.33–40 in a Bilingual Copto-Arabic Holy Week Lectionary. Journal for the Study of the Pseudepigrapha 24(4): 288-300
Williams, D.A.; Williams, J.P. 2010: 4 Fires, 63 Years and 952 deaths - what have we learned?. Injury Prevention 16(Supplement 1: A98-A99
Richardson, W.C. 1993: 4 Fishermen of San Diego: the Italians. International Migration Review 27(2_Suppl): 84-94
Massey, V.; Hemmerich, P. 1975: 4 Flavin and Pteridine Monooxygenases. The Enzymes: 191-252
Utter, M.F.; Kolenbrander, H.M. 1972: 4 Formation of Oxalacetate by CO2 Fixation on Phosphoenolpyruvate. The Enzymes: 117-168
Wigton, R.S.; Johnson Iii, S.H.; Taeger, 1939: 4 Fälle von peripherer Neuritis nach Sulfanilylsulfanilamid (Disulfanilamid). Fühner-Wielands Sammlung von Vergiftungsfällen 10(1): A29-A32
Beeching, N.; Jones, R.; Gazzard, B. 2011: 4 Gastrointestinal opportunistic infections. HIV Medicine 12: 43-54
Olsson, N.; Andrekson, P.; Becker, P.; Simpson, J.; Tanbun-Ek, T.; Logan, R.; Presby, H.; Wecht, K. 1990: 4 Gb/s soliton data transmission over 136 km using erbium doped fiber amplifiers. IEEE Photonics Technology Letters 2(5): 358-359
Hartman, S.C. 1971: 4 Glutaminases and γ-Glutamyltransferases. Hydrolysis: 79-100
Wells, M.A.; Direnzo, N.A. 1983: 4 Glyceride Digestion. Lipid Enzymology: 113-139
Arens, U. 1994: 4 Going nuts - sometimes it helps. Nutrition Bulletin 19(1): 9-10
Bunce, R.A.; Rogers, D.; Nago, T.; Bryant, S.A. 2008: 4 H ‐1‐Benzopyrans by a tandem S N 2‐S N Ar reaction. Journal of Heterocyclic Chemistry 45(2): 547-550
Doleschall, G.; Lempert, K. 1966: 4 H ‐3.1‐Benzoxazinone‐(4), VI. Einwirkung von Phosphoroxychlorid auf 2‐[2.4‐Dioxo‐‐tetrahydro‐chinazolyl‐(3)]‐benzoesäure‐[2‐hydroxy‐äthylamid]. Umwandlung eines Dihydro‐12 H ‐chinazolino[2.1‐ b ]chinazolindions‐(5.12) in ein Tetrahydro‐imidazo[2.1‐ b ]chinazolinon‐(5). Chemische Berichte 99(5): 1532-1540
Blough, G.O. 1954: 4 Hickory Nuts and a Catbird's Nest. Childhood Education 30(7): 324-328
Rosenmayr, L. 1979: 4 Historico-Comparative Sociology of Youth: the Case of Europe. Current Sociology 27(2-3): 46-58
Eskens, F. 2008: 4 INVITED C-Met as a target in clinical oncology; rationale and current achievements. European Journal of Cancer Supplements 6(12): 3-4
Hansen, E.J. 1986: 4 Inequality in the Welfare State. International Journal of Sociology 16(3-4): 107-121
Vojnić, D. 1981: 4 Investment Policy. Eastern European Economics 20(2): 63-83
Olsen, A. 1943: 4 Jahre Erfahrung mit Wichmann's Dilatator. Acta Obstetricia et Gynecologica Scandinavica 23(1): 474-488
Levy, H.; Schoop, W.; Zeitler, E.; Schmidtke, I. 1972: 4 Jahre Erfahrung mit der thrombolytischen Therapie chronischer Arterienokklusionen. Früh- und Spätergebnisse bei 350 Kranken mit Streptokinase behandelten Verschlußkranken. Verhandlungen der Deutschen Gesellschaft für Innere Medizin: 627-631
Longsworth, R.C. 1988: 4 K Gifford Mc Mahon/Joule-Thomson Cycle Refrigerators. A Cryogenic Engineering Conference Publication: 689-698
Quan, J.; Liu, Y.; Liu, D.; Zhang, K.; Liang, J.; Li, J.; Yao, Q.; Shi, S. 2014: 4 K high frequency pulse tube cryocooler used for terahertz space application. Chinese Science Bulletin 59(27): 3490-3494
Ibarra-Medel, E.; Velázquez, M.; Ventura, S.; Ferrusca, D.; Gómez-Rivera, V. 2016: 4 Kelvin Cryogenic Characterization of Commercial p HEMT Transistors at 9 k Hz to 8.5 GHz Range. Journal of Low Temperature Physics 184(1-2): 418-423
Khan, M.A.; Watson, H.C. 2010: 4 L Light Duty LPG Engine Evaluated for Heavy Duty Application. SAE International Journal of Fuels and Lubricants 3(2): 1-21
Holbrook, J.J.; Liljas, A.; Steindel, S.J.; Rossmann, M.G. 1975: 4 Lactate Dehydrogenase. The Enzymes: 191-292
KÜHn, H. 1968: 4 Lead-Tin Yellow. Studies in Conservation 13(1): 7-33
Derossi, F. 1981: 4 Limits and Conditions on Managerial Power. International Journal of Sociology 11(3): 38-97
Warth, A. 1957: 4 Lipid waxes. Progress in the Chemistry of Fats and other Lipids 4: 79-96
H'bert, R.F. 2003: 4 Marshall: a Professional Economist Guards the Purity of his Discipline. American Journal of Economics and Sociology 62(5): 61-82
Krek, W. 2009: 4 Mechanisms of tumour suppression by VHL. European Journal of Cancer Supplements 7(2): 3-4
Peart, W. 1970: 4 Medicinal Chemistry for the Next Decade. Progress in Medicinal Chemistry: 215-228
Edwards, J.L.J. 1949: 4 Mens Rea and Bigamy. Current Legal Problems 2(1): 47-67
Williams, G. 1956: 4 Mens Rea and Vicarious Responsibility. Current Legal Problems 9(1): 57-74
Reed, L.J.; Cox, D.J. 1970: 4 Multienzyme Complexes. The Enzymes: 213-240
Taylor, R.T.; Weissbach, H. 1973: 4 N5-Methyltetrahydrofolate-Homocysteine Meihyltransferases. The Enzymes: 121-165
Frey, P.A. 1992: 4 Nucleotidyltransferases and Phosphotransferases: Stereochemistry and Covalent Intermediates. The Enzymes: 141-186
Best, L.; McLaughlin, J. 2004: 4 Nutrients as regulators of endocrine and neuroendocrine secretion. Topics in Current Genetics: 79-111
Pfndner, K.; Bning, K.; Brenig, W. 1979: 4 OPW calculations of electronic transport coefficients of aluminium containing point defects. Zeitschrift fr Physik B Condensed Matter and Quanta 32(3): 287-300
Pfändner, K.; Böning, K.; Brenig, W. 1977: 4 OPW calculations of the low-field galvanomagnetic coefficients for impurities in aluminium. Solid State Communications 23(1): 31-34
Khan, M.; Ganga, R.; Mansour, P.; Meehan, S.; Jmor, S. 2006: 4 ORAL Achieving breast conservation with 1 mm pathological tumour free margin. European Journal of Surgical Oncology (EJSO) 32: S2-S3
Kingsbury, D.V. 2019: 4 Oil's Colonial Residues: Geopolitics, Identity, and Resistance in Venezuela. Bulletin of Latin American Research 38(S 1): 76-93
Ballard, C. 2012: 4 Optimal treatment for parkinson patients with cognitive disorders. Neurobiology of Aging 33: S2-S3
Subsingha, W.; Sarakarn, P. 2012: 4 Phase Interleaved DC Boost Converter for PEMFC Applications. Procedia Engineering 32: 1127-1134
Hanahan, D.J. 1971: 4 Phospholipases. The Enzymes: 71-85
De Guzman, R.; Batorsky, R.; Kislal, S.; Brigida, S.; Bilbo, S.; Slonim, D.K.; Edlow, A.G. 2021: 4 Placental Hofbauer Cells as a Proxy Cell Type for Fetal Brain Microglia. American Journal of Obstetrics and Gynecology 224(2): S2-S3
Howard, R.F. 1996: 4 Planning for pain relief. Baillière's Clinical Anaesthesiology 10(4): 657-675
Mcdonald, M.S. 1967: 4 Polymers and Coatings. Chemical-Engineering News Archive 45(37): 68A-72A
Hultink, E.J. 1994: 4 Product development performance: strategy, organization and management in the world auto industry. Design Studies 15(2): 234-235
Patel, P. 2019: 4 Products to manufacture in orbit. IEEE Spectrum 56(12): 12-13
Truong, P.; Kader, S.; Lee, J.; Berthelet, E.; Speers, C.; Olivotto, L. 2005: 4 Prognostic Significance of the Percentage of Positive/ Dissected Axillary Nodes in Breast Cancer Relapse and Survival. Radiotherapy and Oncology 76: S1-S2
Griffith, R.; Bergmann, H.; Fry, F.A.; Hickman, D.; Genicot, J.; Malatova, I.; Neton, J.; Rahola, T.; Wahl, W. 2003: 4 Reduction of Background Radiation. Journal of the ICRU 3(1): 41-49
Griffith, R.; Bergmann, H.; Fry, F.A.; Hickman, D.; Genicot, J.; Malatova, I.; Neton, J.; Rahola, T.; Wahl, W. 2003: 4 Reduction of Background Radiation. Journal of the International Commission on Radiation Units and Measurements 3(1): 41-49
Nich, C.; Mütschler, C.; Vandenbussche, .; Augereau, B. 2007: 4 Réinsertion transosseuse proximalisée pour rupture de la coiffe des rotateurs : résultats fonctionnels et anatomiques à long terme. Revue de Chirurgie Orthopédique et Réparatrice de l'Appareil Moteur 93(7): 33-34
Lambert, R.E. 1981: 4 South Africa and the United States. Worldview 24(1): 29-31
Conway, R. 1984: 4 South Africa: can U.S. Policies Influence Change?. Worldview 27(1): 12-14
Miller, M.K.; Lazure, L.A. 1978: 4 Steps for Moist Damp. Nursing 8(8): 42-43
Kirk, S.M.; Bolzau, E.L. 1951: 4 Steps to responsible Citizenship. The Clearing House: A Journal of Educational Strategies, Issues and Ideas 26(1): 35-37
Munson, H. 1971: 4 Steps toward Inquiry Centered Teaching. Science Activities: Classroom Projects and Curriculum Ideas 5(2): 38-40
Bulyarskii, S.V.; Zhukov, A.V.; Prikhod'ko, V.V. 2001: 4 T 2→4 a 2 transition in the luminescence spectra of Mn4+ ion in gadolinium gallium garnet at intense laser pumping. Journal of Experimental and Theoretical Physics Letters 74(11): 543-546
Lehman, I.R. 1981: 4 T-Phage DNA Polymerases. The Enzymes: 51-65
Ellis, A.D.; Tan, M.; Iqbal, M.A.; Al-Khateeb, M.A.Z.; Gordienko, V.; Saavedra Mondaca, G.; Fabbri, S.; Stephens, M.F.C.; McCarthy, M.E.; Perentos, A.; Phillips, I.D.; Lavery, D.; Liga, G.; Maher, R.; Harper, P.; Doran, N.; Turitsyn, S.K.; Sygletos, S.; Bayvel, P. 2016: 4 Tb/s Transmission Reach Enhancement Using 10 × 400 Gb/s Super-Channels and Polarization Insensitive Dual Band Optical Phase Conjugation. Journal of Lightwave Technology 34(8): 1717-1723
DeSantis, M. 2011: 4 Treating bladder cancer: first-line, second-line, platinum-unfit. Critical Reviews in Oncology/Hematology 78: S3-S4
Crowley, P. 1996: 4 Using an overview. Baillière's Clinical Obstetrics and Gynaecology 10(4): 585-597
Asakura, R.; Reber, D.; Duchêne, L.; Payandeh, S.; Remhof, A.; Hagemann, H.; Battaglia, C. 2020: 4 V room-temperature all-solid-state sodium battery enabled by a passivating cathode/hydroborate solid electrolyte interface. Energy-Environmental Science 13(12): 5048-5058
McMullen, K.; Bamer, A. M.; Schneider, J. C.; Ryan, C. M.; Gibran, N. S.; Stewart, B. T.; Holavanahalli, R. K.; Mroz, T.; Wolf, S. E.; Amtmann, D. 2021: 4 Validation of PROMIS-29 Among Adult Burn Survivors. Journal of Burn Care-Research 42(Supplement_1): S8-S9
Ashwell, M. 1994: 4 Vegetarian diets good, meat eating not bad. Nutrition Bulletin 19(3): 147-148
Yusof, M.Y.; Nik Abdul Aziz, F.; Zuhdi, M.F.; Carden, P.; Bell, D. 2009: 4 Versus 8 Counterweights for an I4 Gasoline Engine Crankshaft - Measurements of Vibration and Bearing Wear. SAE International Journal of Engines 2(1): 1777-1785
Kim, S.; Yoon, Y.; Lee, Y.; Choi, K.; Jo, M.; Min, H.; Yoon, J. 2020: 4 W Power MEMS Relay with Extremely Low Contact Resistance: Theoretical Analysis, Design and Demonstration. Journal of Microelectromechanical Systems 29(5): 1304-1313
Garbuzov, D.Z.; Martinelli, R.U.; Lee, H.; Menna, R.J.; York, P.K.; DiMarco, L.A.; Harvey, M.G.; Matarese, R.J.; Narayan, S.Y.; Connolly, J.C. 1997: 4 W quasi-continuous-wave output power from 2 μm Al Ga as Sb/in Ga as Sb single-quantum-well broadened waveguide laser diodes. Applied Physics Letters 70(22): 2931-2933
Lammers, C.C. 1940: 4 Ways of Testing for Thought in Objective Tests. The Clearing House: A Journal of Educational Strategies, Issues and Ideas 15(4): 215-219
Koller, M. 2002: 4 Wochen Thromboembolieprophylaxe nach abdominellen Tumoreingriffen. Praxis 91(43): 1819-1820
Dakternieks, D. 1990: 4 Zinc and Cadmium. Coordination Chemistry Reviews 98: 279-294
Müller, T.; Einecke, D.; Patzer, K. 2021: 4 aus 8.000: Seltene Erkrankungen am Beispiel neuester Therapien. MMW - Fortschritte der Medizin 163(3): 20-23
Matsuzaki, H.; Hayashi, N.; Yonezu, H.; Ohhata, H.; Hanawa, S.; Takano, N.; Saito, C.; Shigematsu, T.; Inoue, T.; Shimono, M. 1990: 4 cases of eosinophilic granuloma in soft tissue. Japanese Journal of Oral-Maxillofacial Surgery 36(9): 2130-2136
Tanaka, Y.; Shinohara, M.; Ozeki, S.; Miyake, J.; Takenoshita, Y.; Higuchi, Y.; Oka, M. 1986: 4 cases of granular cell tumor of oral lesion - Statistical observation. Japanese Journal of Oral and Maxillofacial Surgery 32(4): 583-591
James, K.; Albrecht, J.; Larvick, C.; Schwarz, C.; Brison, C.; Litchfield, R.; Weishaar, C.; Temple, J. 2011: 4 day Throw Away. Journal of Nutrition Education and Behavior 43(4): S9-S10
Murthy, J.K.; Venimadhav, A. 2017: 4 f -3 d exchange coupling induced exchange bias and field induced Hopkinson peak effects in Gd 2 Co Mn O 6. Journal of Alloys and Compounds 719: 341-346
Dorenbos, P.; Andriessen, J.; van Eijk, C. 2003: 4 f n−1 5 d centroid shift in lanthanides and relation with anion polarizability, covalency, and cation electronegativity. Journal of Solid State Chemistry 171(1-2): 133-136
Blumenfeld, Z. 2010: 4 how to Preserve Fertility in Young Women Exposed to Chemotherapy? the Role of Gnrh-A and Sphingosine-1-Phosphate in Addition to Cryopreservation of Embrya, Oocytes, or Ovaries. Reproductive BioMedicine Online 20: S2-S3
Bender, A. E. 1996: 4 how to spot 'junk science'. Nutrition Bulletin 21(2): 90-91
Bosse, H.; Gaedicke, G.; Gross, M.; Forster, J.; Hoffmann, G.; Krüger, M.; Muntau, A.; Reinhardt, D.; Schatz, U.; Sostmann, K.; Superti-Furga, A. 2008: 4 innovative pädiatrische Curricula. Monatsschrift Kinderheilkunde 156(5): 436-445
Lerat, J.; Desmé, D.; Kadi, S.; Moyen, B. 2004: 4 la précision des coupes osseuses dans la chirurgie classique des prothèses du genou : à propos de 300 cas consécutifs de prothèses INNEX. Revue de Chirurgie Orthopédique et Réparatrice de l'Appareil Moteur 90(6): 31-32
He, X.; Zhang, B.; Guo, C.; Yang, L.; Hou, J. 2021: 4 m J Rectangular- Envelope GHz-Adjustable Burst-Mode Fiber-Bulk Hybrid Laser and Second-Harmonic Generation. IEEE Photonics Journal 13(1): 1-9
Liu, C.; Yadav, A.; Khan, A.; Zhang, Y.; Bao, Y.; Xue, M. 2018: 4 materials scene reconstructions from line Mojette projections. Procedia Computer Science 143: 203-210
Ran, G.; Qin, W.; Ma, Z.; Zong, W.; Qin, G. 2001: 4 me V electron irradiation effect on electroluminesencence from Au/Si O2/p-Si and Au/Si-rich Si O2/p-Si structures. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 173(3): 299-303
Shepherd, P. 1994: 4 new directions in fat research. Nutrition Bulletin 19(2): 80-81
Hartmannsgruber, M.; Schulte-Steinberg, H.; Conzen, P.; Doenicke, A. 1995: 4 new intravenous induction agents. Baillière's Clinical Anaesthesiology 9(1): 51-66
Parolin, C.; Poznansky, M.; Sodroski, J. 1993: 4 new strategies for gene Therapy of A.I.D.S. Antiviral Research 20: 23-30
Li, J. 2017: 4 nm Zn O nanocrystals fabrication through electron beam irradiation on the surface of a Zn O nanoneedle formed by thermal annealing. CrystEngComm 19(1): 32-39
Nazareno, b.L. 2016: 4 steps for redesigning time for student and teacher learning. Phi Delta Kappan 98(4): 21-25
Mudd, S.H. 1973: 4 the Adenosyltransferases. Group Transfer Part A: Nucleotidyl Transfer Nucleosidyl Transfer Acyl Transfer Phosphoryl Transfer: 121-154
Huddleston, B.J.; Frank, E.L. 2009: 4 the Biochemical Diagnosis of Pheochromocytoma Clinical Chemistry No. CC 08-4 (CC-370). American Journal of Clinical Pathology 131(2): 287-288
Powell, R. 1950: 4 the Concept of Marriage in Ancient and Modern Law. Current Legal Problems 3(1): 46-64
Reza, M.; Brm, A.S.; Soerarso, R. 2018: 4 the Difference on Strain and Strain Rate Parameter of Left Ventricle Function Between Controlled Hypertension and Uncontrolled Hypertension. Journal of Hypertension 36(Supplement 2: E1-E2
Kotliar, A.E.; Turchaninova, S.I. 1981: 4 the Educational and Occupational Skill Level of Industrial Workers. Problems in Economics 24(5-7): 69-120
Titma, M.; Silver, B.D.; Vöörmann, R.; Johnson, D. 1996: 4 the Estonian Longitudinal Survey. International Journal of Sociology 26(1): 76-93
FitzGerald, R.C. 1952: 4 the Law and Ethics of the Compulsory Acquisition of Land. Current Legal Problems 5(1): 55-80
O'Sullivan, R. 1948: 4 the Making of Everyman and his Undoing. Current Legal Problems 1(1): 48-68
Pesaran, M.H. 1988: 4 the Role of Theory in Applied Econometrics. Economic Record 64(4): 336-339
Esping-Andersen, G. 1990: 4 the Three Political Economies of the Welfare State. International Journal of Sociology 20(3): 92-123
Spaans, F.; Morton, J.S.; Davidge, S.T. 2016: 4 the effect of syncytiotrophoblast extracellular vesicles on mouse uterine artery vascular function. Pregnancy Hypertension: An International Journal of Women's Cardiovascular Health 6(3): 179-180
Werling, L.L.; Fiskum, G. 1996: 4 the roles of calcium in ischaemic brain injury. Baillière's Clinical Anaesthesiology 10(3): 445-459
Wilcock, F. 1995: 4 what is new in weaning?. Nutrition Bulletin 20(2): 96-99
Yao Li; Wang, T.; Fasanella, K. 1996: 4 x 16 polymer fiber optical array couplers. IEEE Photonics Technology Letters 8(12): 1650-1652
Moosburger, R.; Petermann, K. 1998: 4 x 4 digital optical matrix switch using polymeric oversized rib waveguides. IEEE Photonics Technology Letters 10(5): 684-686
Ghisoni, M.; Martinsson, H.; Eriksson, N.; Ming Li; Larsson, A.; Bengtsson, J.; Khan, A.; Parry, G. 1997: 4 x 4 fan-out spot generator using Ga as based VCSEL's and diffractive optical element. IEEE Photonics Technology Letters 9(4): 508-510
Backus, K.A. 2014: 4 year Old with Pain at the Pubic Symphysis. Medicine-Science in Sports-Exercise 46: 572-573
Saranin, A.; Khramtsova, E.; Ignatovich, K.; Lifshits, V. 1997: 4 × 1-Si substrate atoms reconstruction in the Si(111)4 × 1-in structure. Applied Surface Science 113-114: 440-444
Kaur, D.; Chaudhary, S. 2016: 4 × 10 GBPS cost effective hybrid OADM-MDM short haul interconnects. Microwave and Optical Technology Letters 58(7): 1613-1617
Stanley, C.; Holland, M.; Kean, A.; Chamberlain, J.; Grimes, R.; Stanaway, M. 1991: 4 × 105 cm2 V−1 s−1 peak electron mobilities in Ga as grown by solid source MBE with As2. Journal of Crystal Growth 111(1-4): 14-19
Chen, Y.; Luo, X.; He, X.; Zhang, Y.; Wang, P. 2015: 4 × 25 Gb/s 2.6 m W/Gb/s parallel optical receiver analog front-end for 100 Gb/s Ethernet. Microwave and Optical Technology Letters 57(4): 974-978
Xue, L.; Yi, L.; Hu, W. 2018: 4 × 25-Gb/s NRZ-OOK Signals Transmission over a 160-km Single-Mode Fiber Using 10G-Class DML and Photodiode. IEEE Photonics Journal 10(3): 1-8
Kobayashi, W.; Kanazawa, S.; Ueda, Y.; Fujisawa, T.; Sanjoh, H.; Itoh, M. 2015: 4 × 25.8 Gbit/s (100 Gbit/s) simultaneous operation of in Ga Al as based DML array monolithically integrated with MMi coupler. Electronics Letters 51(19): 1516-1517
Chen, Z.; Wu, Z.; Huang, J.; Zhang, S.; Ao, X.; Wang, Z.; Ke, J.; Yi, L.; Yang, Q. 2019: 4 × 32-Gbps Block-Wise QPSK 1200-km SSMF Direct Detection Transmission Based on Delta-Sigma Virtual Carrier Generation. IEEE Photonics Journal 11(6): 1-7
Trinh, L.H.; Ferrero, F.; Lizzi, L.; Ribero, J.; Staraj, R. 2015: 4 × 4 MIMO Multiband Antenna System for Mobile Handsets. International Journal of Antennas and Propagation 2015: 1-6
Ahmad, M.S.; Mohyuddin, W.; Choi, H.C.; Kim, K.W. 2018: 4 × 4 MIMO antenna design with folded ground plane for 2.4 GHz WLAN applications. Microwave and Optical Technology Letters 60(2): 395-399
Lu, L.; Zhou, L.; Li, S.; Li, Z.; Li, X.; Chen, J. 2015: 4 × 4 Nonblocking Silicon Thermo-Optic Switches Based on Multimode Interferometers. Journal of Lightwave Technology 33(4): 857-864
Theurer, M.; Moehrle, M.; Troppenz, U.; Bach, H.; Sigmund, A.; Przyrembel, G.; Gruner, M.; Schell, M. 2018: 4 × 56 Gb/s High Output Power Electroabsorption Modulated Laser Array with up to 7 km Fiber Transmission in L-Band. Journal of Lightwave Technology 36(2): 181-186
Wray, K.; Taylor, R. 1969: 4 μ band radiation from high temperature air. Journal of Quantitative Spectroscopy and Radiative Transfer 9(10): 1317-1329
Huang, Z.H.; Deng, Y.; Xu, D.P.; Wang, J.; Lin, H.; Zhang, R.; Tian, X.C. 2012: 4 μJ, 3 ns phase-modulated laser pulse from ytterbium-doped polarization-maintaining large-mode-area fiber amplifier. Laser Physics 22(7): 1244-1246
Hikami, S. 1985: 4 - d expansion for Anderson localization in a strong spin-orbit coupling case. Journal de Physique Lettres 46(16): 719-722
Poole, S. 2020: 4 'The instinct for hero worship works blindly': English radical democrats and the problem of memorialization. Patterns of Prejudice 54(5): 503-512
Tashmukhamedov, B.A.; Gagel'gans, A.I.; Shkinev, A.V.; Zamaraeva, M.V.; Mirkhodzhaev, U.Z.; Asrarov, M.I.; Tashmukhamedova, A.K. 1981: 4',4?- and 4',5?-di-sec-butyl-2,3:11,12-dibenzo-18-crown-6 ? An ionophore for magnesium in natural and model systems. Chemistry of Natural Compounds 17(2): 189-193
Bachmann, W.E.; Carmack, M. 1941: 4',5-Dimethylene-3,4-benzpyrene. Journal of the American Chemical Society 63(6): 1685-1688
Yathirajan, H.S.; Nagaraj, B.; Narasegowda, R.S.; Nagaraja, P.; Bolte, M. 2005: 4'-(2-Butyl-4-chloro-5-formylimidazol-1-ylmethyl)biphenyl-2-carbonitrile. Acta Crystallographica Section E Structure Reports Online 61(4): O1193-O1195
Fieser, L.F.; Hershberg, E.B.; Newman, M.S. 1935: 4'-Hydroxy-1,2-Benzpyrene. Journal of the American Chemical Society 57(8): 1509-1510
Matrka, M.; Sadila, J.; Sporek, V.; Pípalová, J. 1967: 4'-Hydroxy-N,N-dimethyl-4-aminoazobenzol als Indikator der Redox-Titrationen. Collection of Czechoslovak Chemical Communications 32(1): 344-351
Shakya, N.; Vedi, S.; Liang, C.; Agrawal, B.; Kumar, R. 2014: 4'-Modified Pyrimidine Nucleosides as Potential Anti-hepatitis C Virus (HCV) Agents. Letters in Drug Design-Discovery 11(7): 917-921
Kaiser, J.; Richter, R.; Lemke, G.; Golič, L. 1980: 4'-Nitrophenyl 4-octyloxybenzoate (NPOB). Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 36(1): 193-195
Youssefyeh, R.D.; Verheyden, J.P.H.; Moffatt, J.G. 1979: 4'-Substituted nucleosides. 4. Synthesis of some 4'-hydroxymethyl nucleosides. The Journal of Organic Chemistry 44(8): 1301-1309
Jones, G.H.; Taniguchi, M.; Tegg, D.; Moffatt, J.G. 1979: 4'-Substituted nucleosides. 5. Hydroxymethylation of nucleoside 5'-aldehydes. The Journal of Organic Chemistry 44(8): 1309-1317
Jandu, K.S.; Selwood, D.L. 1995: 4'-Thio-Nucleosides via in Situ Pyranose-Furanose Rearrangements: a Short Synthesis of the Antiherpes Agent 2'-Deoxy-5-ethyl-4'-thiouridine via Direct Coupling of a Silylated Pyrimidine Base with a 4-Thiopyranose Sugar. The Journal of Organic Chemistry 60(16): 5170-5173
Bunce, R.A.; Nammalwar, B. 2010: 4(1H)-Quinolinones by a Tandem Reduction-Addition-Elimination Reaction. Organic Preparations and Procedures International 42(6): 557-563
Tonkikh, N.N.; Petrova, M.V.; Mishnev, A.F.; Ryzhanova, K.V.; Avotin'sh, F.M.; Strakov, A.Y. 2000: 4(3H)-Quinazolinones containing heterocyclic group in position 3. Chemistry of Heterocyclic Compounds 36(7): 822-829
Jindawong, B.; Chantrapromma, S.; Fun, H.; Yu, X.; Karalai, C. 2005: 4(4′-Hydroxy-3′-methoxystyryl)-1-methylpyridinium 4-bromobenzenesulfonate. Acta Crystallographica Section E Structure Reports Online 61(5): O1340-O1342
Singh, D.K.; Kumar, S.; Udayabhanu, G.; John, R.P. 2016: 4(N,N-dimethylamino) benzaldehyde nicotinic hydrazone as corrosion inhibitor for mild steel in 1 M HCl solution: An experimental and theoretical study. Journal of Molecular Liquids 216: 738-746
Doi, M.; Asano, A. 2003: 4(R)-(N-Benzoylamino)-5(R)-methyltetrahydrofuran-2-one: an L-β-threonine analogue. Acta Crystallographica Section E Structure Reports Online 59(10): O1486-O1487
Pilgram, K.H.; Pollard, G.E. 1977: 4(and 5)-cyclopropylamino-5(and 4)halo-3(2H)pyridazinones. Formation and characterization of isomers. Journal of Heterocyclic Chemistry 14(6): 1039-1043
Nishimoto, N. 2010: 4) Antibody Therapy for Rheumatoid Arthritis. Nihon Naika Gakkai Zasshi 99(9): 2177-2182
Michler, W. 1875: 4) Beiträge zur Kenntniss der Azoverbindungen. Justus Liebig's Annalen der Chemie 175(1-2): 150-164
Schmidt, A. 1889: 4) Butyraldehyd und Bernsteinsäure. Justus Liebig's Annalen der Chemie 255(1-2): 68-86
Yoshimura, M. 2008: 4) Cardiac Failure and Aldosterone. Nihon Naika Gakkai Zasshi 97(9): 2166-2170
Momomura, S. 2014: 4) Cardiac Fibrosis and its Treatment. Nihon Naika Gakkai Zasshi 103(9): 2188-2192
Kawana, A. 2020: 4) Clinical Characteristics and Infection Control Measures of COVID-19. Nihon Naika Gakkai Zasshi 109(9): 2022-2023
Yamada, N. 2020: 4) Deep Vein Thrombosis and Pulmonary Thromboembolism. Nihon Naika Gakkai Zasshi 109(9): 1821-1827
Watada, H. 2010: 4) Diabetes Mellitus. Nihon Naika Gakkai Zasshi 99(9): 2110-2115
Kataoka, Y.; Miyamoto, Y.; Yoshimasa, Y.; Yasuda, S.; Kosuge, M.; Kimura, K.; Miyazaki, S. 2009: 4) Diabetic Macrovascular Complication. the Protective Effect of Drug Therapy against Progressive Coronary Lesion. Nihon Naika Gakkai Zasshi 98(9): 2227-2230
Suzuki, R. 2015: 4) Epstein-Barr Virus and Hematological Malignancy. Nihon Naika Gakkai Zasshi 104(9): 1878-1884
Nitta, K. 2018: 4) Home Care Medicine-today and Future. Nihon Naika Gakkai Zasshi 107(9): 1999-2001
Waki, K. 2017: 4) ICT-based Self-management System. Nihon Naika Gakkai Zasshi 106(9): 1800-1805
Kubo, K.; Matsui, S.; Yamamoto, H. 2015: 4) Ig G4-related Respiratory Disease. Nihon Naika Gakkai Zasshi 104(9): 1848-1852
Tokuda, Y. 2019: 4) Implementation and Educational Activity of Choosing Wisely Campaigns in Hospitals and in Japan. Nihon Naika Gakkai Zasshi 108(9): 1820-1823
Sato, N. 2019: 4) Mechanisms by which Diabetes Exacerbate Dementia, Including Alzheimer's Disease. Nihon Naika Gakkai Zasshi 108(9): 1754-1758
Araki, E.; Kondo, T.; Kai, H. 2016: 4) Novel Insight into Obesity Disease -Development of Treatment Employing the Modulation of Intracellular Stress Response Pathways. Nihon Naika Gakkai Zasshi 105(9): 1739-1745
Okabe, T. 2008: 4) Palliative Medicine at Home and Pain Control. Nihon Naika Gakkai Zasshi 97(9): 2113-2117
Tanahashi, N. 2014: 4) Pathophysiology of Cerebral Infarction and its new Treatment. Nihon Naika Gakkai Zasshi 103(9): 2149-2157
Nishimura, F. 2015: 4) Periodontal Disease. Nihon Naika Gakkai Zasshi 104(9): 1907-1911
Yamaguchi, T. 2011: 4) Systemic Involvements of Sarcoidosis. Nihon Naika Gakkai Zasshi 100(9): 2517-2523
Nakase, H. 2020: 4) Treatment of Inflammatory Bowel Disease Based on the Pathophysiology-for the Present and the Future-. Nihon Naika Gakkai Zasshi 109(9): 1759-1763
Brandt, R. 1826: 4) Ueber Blutegel, von R. Brandt, Administrator,der Minderschen Apotheke in Hamburg. Archiv der Pharmazie 17(2): 266-267
Volhard, J. 1887: 4) Ueber Darstellung α-bromirter Säuren. Justus Liebig's Annalen der Chemie 242(1-2): 141-163
Demselben, 1887: 4) Ueber Derivate des Tetrahydrochinaldins. Justus Liebig's Annalen der Chemie 242(3): 313-321
Pfülf, A. 1887: 4) Ueber Hydrazinbenzolsulfosäuren;. Justus Liebig's Annalen der Chemie 239(2): 215-220
Pflug, L. 1889: 4) Ueber das Paraxylidin. Justus Liebig's Annalen der Chemie 255(1-2): 168-176
Heinzelmann, R. 1878: 4) Ueber die Dehydroschleimsäure, ein neues Derivat der Schleimsäure. Justus Liebig's Annalen der Chemie 193(1): 184-193
Kohler, L. 1887: 4) Ueber einige Benzylidenverbindungen. Justus Liebig's Annalen der Chemie 241(2-3): 358-362
Arnhold, M. 1887: 4) Zur Kenntniss des dreibasischen Ameisensäureäthers und verschiedener Methyla≤. Justus Liebig's Annalen der Chemie 240(2): 192-208
Kawagoe, S. 2017: 4) a Doctor who Snuggles Patient's Life and Connects Hospitals and the Area-From a Standpoint Working on Home Medical Care as a General Practitioner-. Nihon Naika Gakkai Zasshi 106(9): 2054-2057
Shizuta, S. 2018: 4) new Devices in the Catheter Ablation for Atrial Fibrillation. Nihon Naika Gakkai Zasshi 107(9): 1744-1751
Shizuta, S. 2018: 4) new Devices in the Catheter Ablation for Atrial Fibrillation. Nihon Naika Gakkai Zasshi 107(Suppl): 111c-112a
Hiai, Y. 1996: 4) the Survey of Radiographic Conditions in CR System. Japanese Journal of Radiological Technology 52(11): 1587-1589
Di Gregofuo, S.; Greenblatt, M.; Pifer, J.H. 1980: 4+ Esr of n4+ in Zircon. Physica status solidi (b) 101(2): K147-K150
Fisher, P.S.; Naumann, R.A. 1958: 4+ Excited State in Osmium-188. Physical Review 112(5): 1717-1719
Fortune, H.; Greenwood, L.; Segel, R.; Erskine, J. 1974: 4+ and 6+ core-excited states in 20Ne. Physics Letters B 52(1): 51-53
Janczak, J. 2011: 4+1 and 4+2 coordinated complexes of magnesium phthalocyanine with dioxane. Polyhedron 30(17): 2933-2940
Harmata, M.; Shao, L.; Kürti, L.; Abeywardane, A. 1999: 4+3 Cycloaddition reactions of halogen-substituted cyclohexenyl oxyallylic cations. Tetrahedron Letters 40(6): 1075-1078
Fromageot, H.; Reese, C. 1966: 4, 3′, 5′-Triacetyl-2,2′-anhydrocytidine. a postulated reactive intermediate in a convenient synthesis of 1-β--arabinofuranosylcytosine. Tetrahedron Letters 7(29): 3499-3505
Wahyu Lestari, W.; Zaake-Hertling, H.; Lönnecke, P.; Hey-Hawkins, E. 2013: 4, 4′- and 5, 5′-Functionalized (S)- and (R)-2, 2′-Bis(diphenylphosphanyl)-1, 1′-binaphthyl Oxide Derivatives. Zeitschrift für anorganische und allgemeine Chemie 639(14): 2589-2596
Uchida, T.; Sasaki, Y.; Ikeshoji, T.; Osawa, M. 2017: 4, 4′-Bipyridine as a molecular catalyst for electrochemical hydrogen production. Electrochimica Acta 248: 585-592
Liu, Z. 2018: 4, 5, 9, 10-Pyrene Diimides: a Family of Aromatic Diimides Exhibiting High Electron Mobility and Two-Photon Excited Emission. Acta Physico-Chimica Sinica 34(5): 447-448
Derieg, M.E.; Sternbach, L.H. 1966: 4, 5-Dihydro-1, 4-benzoxazepin-3(2H)-ones. Journal of Heterocyclic Chemistry 3(2): 237-238
Inamoto, N.; Masuda, S.; Simamura, O.; Tsuyuki, T. 1961: 4, 5-Dimethoxycanthin-6-one and 2, 6-Dimethoxy-p-benzoquinone from Picrasma ailanthoides Planchon. Bulletin of the Chemical Society of Japan 34(6): 888b-889
Yu, J.; Zang, C.; Yu, Z.; Wang, H.; Liu, S.; Zhang, L.; Xie, W.; Zhao, H. 2016: 4, 6-Bis[3-(dibenzothiophen-2-yl)phenyl] pyrimidine bipolar host for bright, efficient and low efficiency roll-off phosphorescent organic light-emitting devices. Organic Electronics 38: 301-306
Rupprecht, K. 1922: 4, Sophocles N2 fr. 787. Philologus 78(3-4): 393-394
Fieser, L.F.; Seligman, A.M. 1937: 4,10-Ace-1,2-benzanthracene. Journal of the American Chemical Society 59(5): 883-887
Amble, E.; Dale, J.; Lounasmaa, M. 1979: 4,10-Bis(2-hydroxyethyl)-1,7-dioxa-4,10-diazacyclododecane. a Strong Calcium-binding Ligand. Acta Chemica Scandinavica 33b: 698-700
Li, X.; Feng, Y.; Xiao-Fen, H. 2003: 4,11-Bis(4-chlorophenyl)-3,10-bis(2,6-dichlorophenyl)-1,8-dioxa-2,9-diazadispiro[]trideca-2,9-dien-6-one–chloroform–methanol (1/1/0.75). Acta Crystallographica Section E Structure Reports Online 59(5): O670-O671
Li, X.; Feng, Y.; Zhuang, J.; Hu, X. 2003: 4,11-Bis(4-chlorophenyl)-3,10-bis(2,6-dichlorophenyl)-1,8-dioxa-2,9-diazadispiro[]tetradeca-2,9-dien-6-one 0.75-hydrate. Acta Crystallographica Section E Structure Reports Online 59(2): O247-O249
Li, X.; Feng, Y.; Xiao-Fen, H.; Mian, X. 2003: 4,11-Bis(4-chlorophenyl)-3,10-bis(2,6-dichlorophenyl)-1,8-dioxa-2,9-diazadispiro[]pentadeca-2,9-dien-6-one. Acta Crystallographica Section E Structure Reports Online 59(5): O716-O717
Li, X.; Feng, Y.; Gao, B.; Li, N. 2003: 4,11-Bis(4-methoxyphenyl)-3,10-bis(2,6-dichlorophenyl)-1,8-dioxa-2,9-diazadispiro[]tetradeca-2,9-dien-6-one–chloroform–methanol (2/2/1). Acta Crystallographica Section E Structure Reports Online 59(11): O1626-O1627
Choi, K.; Lee, H.; Smyth, D.R.; Suh, I.; Tiekink, E.R.T. 2001: 4,11-Bis(acetamido)-7,14-dimethyl-4,11-diaza-1,8-diazoniacyclotetradecane diperchlorate dihydrate. Acta Crystallographica Section E Structure Reports Online 57(5): O480-O482
Jones, P.G.; Hopf, H.; Hillmer, J. 2002: 4,13-Diacetyl-[2.2]paracyclophane. Acta Crystallographica Section E Structure Reports Online 58(3): O300-O302
Kang, H.C.; Boekelheide, V. 1981: 4,13-Diaza[24](1,2,4,5)cyclophane and 4,16-Diaza[24](1,2,4,5)-cyclophane. Angewandte Chemie International Edition in English 20(67): 571-572
Shaieb, K.; Narayanan, V.; Hopf, H.; Dix, I.; Fischer, A.; Jones, P.; Ernst, L.; Ibrom, K. 2003: 4,15-Diamino[2.2]paracyclophane as a Starting Material for Pseudo-Geminally Substituted [2.2]Paracyclophanes. European Journal of Organic Chemistry 3: 567-577
Filippini, G.; Pilati, T. 1987: 4,17-Diacetyl-3α,8,12α,18β-tetramethyl-4,5,7,14,16,17-hexaazapentacyclo[,11.03,8.013,18]icosa-5,7,9,13,15,19-hexaene (Ia) 0·5-methanol solvate and trimethyl 2α,8β-dimethyl-3,4,6-triazatricyclo[,7]dodeca-4,6,9,11-tetraene-3,9,10-tricarboxylate (IIb). Acta Crystallographica Section C Crystal Structure Communications 43(2): 306-309
Walter, R.I. 1953: 4,4',4″-Trinitrotriphenylamine1. Journal of the American Chemical Society 75(11): 2771-2772
Wang, L.; Zhang, J.; Zhang, B. 2004: 4,4',5,5'-Tetrakis(methylsulfanyl)tetrathiafulvalene. Acta Crystallographica Section E Structure Reports Online 61(1): O65-O66
Kistenmacher, T.J.; Emge, T.J.; Shu, P.; Cowan, D.O. 1979: 4,4',5,5-Tetramethyl-Δ2,2'-bis-1,3-diselenole, TMTSF. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 35(3): 772-775
Gasque, L.; Mijangos, E.; Bernès, S. 2005: 4,4'-(2-Methyl-1H-imidazole-4,5-diyl)bis[2(S)-methyl-3-azoniabutanoate] acetic acid monohydrate. Acta Crystallographica Section E Structure Reports Online 61(2): O284-O286
Chen, W.; Liu, C.; Li, D.; You, X. 1997: 4,4'-Azinodimethyldipyridinium Diperchlorate, C12H12N42+.2Cl O4−. Acta Crystallographica Section C Crystal Structure Communications 53(10): 1499-1501
Muller, E.; Bernardinelli, G.; Reedijk, J. 1995: 4,4'-Bis(2-picolinimino)-2,2'-bibenzimidazoles: a new Class of Dinucleating Ligands which Allow for a Tuning of the Metal-Metal Distance. Structures and Properties of a Dicopper(II) Complex and of two Oxygenation Products of a Dicopper(I) Complex; a Tentative Coordination Chemical Modeling of Hemocyanin. Inorganic Chemistry 34(24): 5979-5988
VanArendonk, A.M.; Kleiderer, E.C. 1940: 4,4'-Diaminodiphenyl Sulfone. Journal of the American Chemical Society 62(12): 3521-3522
Ziganshina, A.Y.; Kazakova, E.K.; Habicher, W.D. 2003: 4,4'-Diaminodiphenyl Sulfone, a Substituted Troger Base, and its Functionalization by the Amino Group. Russian Journal of General Chemistry 73(9): 1401-1405
Clark, J.H.; Denness, J.E.; Wynd, A.J. 1994: 4,4'-Dichloro- and 4-chloro-4'-hydroxy-2,2'-bis(trifluoromethyl)diphenyl sulphoxides and sulphones. Journal of Fluorine Chemistry 69(3): 249-251
Granger, M.M.; Coillot, M.F. 1985: 4,4'-Dichlorobenzophénone à 293 K (phase I), C13H8Cl2O. Acta Crystallographica Section C Crystal Structure Communications 41(4): 542-543
Brock, C.P.; Kuo, M.S.; Levy, H.A. 1978: 4,4'-Dichlorobiphenyl: crystal packing in para-substituted biphenyls. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 34(3): 981-985
Barber, H.J.; Slack, R. 1943: 4,4'-Dicyanobenzaldazine. Journal of the American Chemical Society 65(9): 1776-1777
Gunther, F.A.; Blinn, R.C. 1950: 4,4'-Difluorobenzhydrol. Journal of the American Chemical Society 72(12): 5770-5771
Gomberg, M.; Todd, J.D. 1917: 4,4'-Dimethyl Benzophenone and its Condensation with Phenol. Journal of the American Chemical Society 39(11): 2392-2396
Kimura, M.; McCluney, R.E.; Watson, W.H. 1979: 4,4'-Dinitrobenzil. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 35(2): 483-484
Voelker, T.; Althaus, H.; Schmidt, A. 1988: 4,4'-Methylene-bis-(3-chloro-2,6-diethylaniline)-M-CDEA-A new Chain-Extending Agent for Cast PU-Elastomers. Journal of Elastomers-Plastics 20(1): 36-45
Choudhary, M.I.; Ali, S.; Anjum, S.; Ahmed, M.; Rahman, A.A.; Fun, H.; Atta-ur-Rahman, 2003: 4,4,14-Trimethyl-3α,20-bis(methylamino)-9,19-cyclo-5α-pregnan-16-ol. Acta Crystallographica Section E Structure Reports Online 59(11): O1751-O1753
Zahr, S.; Ugi, I. 1979: 4,4,4-Trichloro-2-butenal and Analogs as Reagents for Peptide Synthesis. Synthesis 04: 266-267
Hulme, A.T.; Watkin, D.J. 2003: 4,4,4-Trifluoro-trans-2-butenoic acid. Acta Crystallographica Section E Structure Reports Online 59(5): O665-O666
Wille, E.; Lüttke, W. 1971: 4,4,4′,4′-Tetramethyl-Δ2,2′-bipyrrolidin-3,3′-dion, eine Verbindung mit dem Grundchromophor-System des Indigos. Angewandte Chemie 83(21): 853-854
Jiang, K.; Wang, X.; Wang, L.; Wang, Y. 2006: 4,4,5,5-Tetramethyl-2-(2-thienyl)imidazolidine-1,3-diol. Acta Crystallographica Section E Structure Reports Online 62(11): O4814-O4815
Zhang, C.; Sun, D.; Wang, X. 2006: 4,4,5,5-Tetramethyl-2-(4-pyridyl)imidazolin-1-oxyl 3-oxide. Acta Crystallographica Section E Structure Reports Online 62(12): O5666-O5667
Zhao, Q.; Wang, X.; Fang, R.; Tiekink, E.R.T. 2003: 4,4,5,5-Tetramethyl-2-(p-pyridyl)imidazoline-1-oxyl 3-oxide. Acta Crystallographica Section E Structure Reports Online 59(8): O1231-O1232
Jiang, K.; Chang, J.; Wang, L.; Ma, L.; Wang, Y. 2005: 4,4,5,5-Tetramethyl-2-(thiazol-2-yl)imidazolidine-1,3-diol. Acta Crystallographica Section E Structure Reports Online 61(10): O3430-O3432
Caira, M.R.; de Wet, J.F. 1981: 4,4,5,5-Tetramethyl-2-phenyl-1,3-dioxolan-2-ylium dichloroiodate(I). Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 37(3): 709-711
Fritschi, C.B.; Wernitz, S.M.; Vogels, C.M.; Shaver, M.P.; Decken, A.; Bell, A.; Westcott, S.A. 2008: 4,4,5,5‐Tetraphenyl‐1,3,2‐dioxaborolane: a Bulky Borane for the Transition Metal Catalysed Hydroboration of Alkenes. European Journal of Inorganic Chemistry 5: 779-785
Tercan, B.; Hökelek, T.; Bilge, S.; Demiriz, .; Kılıç, Z. 2004: 4,4,6,6-Tetrachloro-1′,3′-[2,2′-(3-oxapentane-1,5-dioxy)dibenzyl]-2λ5,4λ5,6λ5-cyclotriphosphazene-2-spiro-2′-1,3,2-diazaphospholane benzene hemisolvate. Acta Crystallographica Section E Structure Reports Online 60(8): O1370-O1373
Tercan, B.; Hökelek, T.; Işıklan, M.; İlter, E.E.; Kılıç, Z. 2004: 4,4,6,6-Tetrachloro-4a′,8′-dihydrodinaphtho[2,1-c′;2,1-g′]-2λ5,4λ5,6λ5-cyclotriphosphazene-1-spiro-1′-[2,5,8a,1]dioxazaphosphanaphthalene. Acta Crystallographica Section E Structure Reports Online 60(6): O971-O973
Woods, W.G.; Strong, P.L. 1966: 4,4,6-Trimethyl-1,3,2-dioxaborinane. a Stable Dialkoxyborane. Journal of the American Chemical Society 88(20): 4667-4671
Murata, M.; Oda, T.; Watanabe, S.; Masuda, Y. 2007: 4,4,6-Trimethyl-1,3,2-dioxaborinane: a Practical Reagent for Palladium-Catalyzed­ Borylation of Aryl Halides. Synthesis 3: 351-354
Yamin, B.M.; Kasim, N.A.M.; Hamzah, N. 2004: 4,4,6-Trimethyl-1-phenyl-3,4-dihydropyrimidine-2(1H)-thione. Acta Crystallographica Section E Structure Reports Online 61(1): O55-O57
Lightfoot, A.P.; Maw, G.; Thirsk, C.; Twiddle, S.J.; Whiting, A. 2003: 4,4,6-Trimethyl-2-vinyl-1,3,2-dioxaborinane: a superior 2-carbon building block for vinylboronate Heck couplings. Tetrahedron Letters 44(41): 7645-7648
Chinnakali, K.; Sudha, D.; Jayagopi, M.; Raghunathan, R.; Fun, H. 2007: 4,4,7,7-Tetramethyl-2-tosyl-2,3,3a,4,6,7,8,9-octahydro-1H-pyrrolo[3,4-c]pyrano[6,5-b]cyclohexan-9-one. Acta Crystallographica Section E Structure Reports Online 63(11): O4436-O4437
Hossain, M.B.; Baker, J.R.; van der Helm, D. 1981: 4,4,7,7-Tetramethylazacyclononan-2-one. Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry 37(3): 575-579
Flippen-Anderson, J.L.; Deschamps, J.R.; George, C.; Gilardi, R.D. 2002: 4,4,8,8-Tetranitro-2,6-dioxabicyclo[3.3.0]octane. Acta Crystallographica Section E Structure Reports Online 58(9): O1018-O1020
Ling, Y.; Ren, X.; Lai, W.; Luo, J. 2015: 4,4,8,8-Tetranitroadamantane-2,6-diyl Dinitrate: a High-Density Energetic Material. European Journal of Organic Chemistry 7: 1541-1547
Rajšner, M.; Kopicová, Z.; Holubek, J.; Svátek, E.; Metyš, J.; Bartošová, M.; Mikšík, F.; Protiva, M. 1978: 4,4-Bis(4-fluorophenyl)butylamines and their cyclic analogues; An efficient synthesis of the neuroleptic penfluridol. Collection of Czechoslovak Chemical Communications 43(7): 1760-1777
Konaklieva, M.I.; Suwandi, L.S.; Kostova, M.; Deschamps, J. 2011: 4,4-Bis(methylthio)azetidin-2-ones as synthons of 1,2- and 1,3-dicarbonyl systems. Tetrahedron Letters 52(16): 1909-1912
Dyachenko, V.D.; Nikishin, A.A.; Chernega, A.N. 2003: 4,4-Dialkyl-substituted N-Methylmorpholinium 3,5-Dicyano-6-oxo-1,4,5,6-tetrahydropyridine-2-thiolates and Some of their Properties. Chemistry of Heterocyclic Compounds 39(9): 1153-1160
Berdick, T.E.; Levin, R.H.; Wolf, A.D.; Jones, M. 1973: 4,4-Dialkylcyclohexadienylidenes in the gas phase. Carbene-radical fragmentations. Journal of the American Chemical Society 95(15): 5087-5088
Mashraqui, S.H.; Mudaliar, C.D.; Hariharasubrahmanian, H. 1997: 4,4-Dibromo-3-methylpyrazol-5-one: new applications for selective monobromination of phenols and oxidation of sulfides to sulfoxides. Tetrahedron Letters 38(27): 4865-4868
Jasinski, J.P.; Crosby, D.J. 2007: 4,4-Difluoro-1,3,5,7,8-pentamethyl-2,6-dibutyl-3a,4a-diaza-4-bora-s-indacene. Acta Crystallographica Section E Structure Reports Online 63(4): O1832-O1833
Bandichhor, R.; Thivierge, C.; Bhuvanesh, N.S.P.; Burgess, K. 2006: 4,4-Difluoro-1,3,5,7-tetramethyl-4-bora-3a,4a-diaza-s-indacene. Acta Crystallographica Section E Structure Reports Online 62(10): O4310-O4311
Wang, D.; Peng, X.; Cui, A.; He, C.; Fan, J. 2006: 4,4-Difluoro-3-[(4-methoxyphenyl)styryl]-1,5,7,8-tetramethyl-4-bora-3a,4a-diaza-s-indacene. Acta Crystallographica Section E Structure Reports Online 62(12): O5789-O5790