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Section 84

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References:

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Martín, I.; Coll, A.; López, G.; Ortega, P.R.; López-González, J.M.; Alcubilla, R. 2016: Dop la Solar Cells with Texturized Front Surface. Energy Procedia 92: 949-955
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Planz, G.; Wiethold, G.; Böhmer, D.; Appel, E.; Palm, D.; Grobecker, H. 1974: Dopamin-β-Hydroxylase-Aktivität und Katecholamin-Konzentration im Plasma als Parameter akuter Veränderungen des Sympathikus-Tonus: Untersuchungen an untrainierten Versuchspersonen und Leistungssportlern. Achtzigster Kongress: 256-258
Gomez, R.; Gonzalez, M.; Sanchez-Criado, J.; Simon, C.; Remohi, J.; Pellicer, A. 2004: Dopamine (D) agonists (A) administration diminishes increased vascular permeability (i VP) in ovarian hyperstimulation syndrome (OHSS) animals by blocking vascular endothelial growth factor receptor 2 (VEGFR2) phosporylation (ph). Fertility and Sterility 82: S309-S310
Wersinger, S.R.; Rissman, E.F. 2000: Dopamine Activates Masculine Sexual Behavior Independent of the Estrogen Receptor α. The Journal of Neuroscience 20(11): 4248-4254
Bath, B.D.; Martin, H.B.; Wightman, R.M.; Anderson, M.R. 2001: Dopamine Adsorption at Surface Modified Carbon-Fiber Electrodes. Langmuir 17(22): 7032-7039
Urdaneta, I.; Keller, A.; Atabek, O.; Palma, J.L.; Finkelstein-Shapiro, D.; Tarakeshwar, P.; Mujica, V.; Calatayud, M. 2014: Dopamine Adsorption on Ti O2 Anatase Surfaces. The Journal of Physical Chemistry C 118(35): 20688-20693
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Garcia-Munoz, M.; Patino, P.; Chavez-Noriega, L.; Arbuthnott, G.; Ryman, A. 1987: Dopamine Control of Excitability Changes in Nigrostriatal Terminals. Advances in Behavioral Biology: 149-154
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Kong, H.; Xu, M. 2012: Dopamine D1 and D3 Receptors Are Differentially Involved in Cocaine-Induced Reward Learning and Cell Signaling. Journal of Drug and Alcohol Research 1: 1-6
D'Aquila, P.S.; Sardella, M.; Canu, M.E.; Carta, D.; Giuseppina, M.; Gino, S.; Franconi, F. 2006: Dopamine D1 receptor involvement in the antidepressant-like effect of allopregnanolone in the forced swimming test. Gender Medicine 3: S48-S49
Socodato, R. 2020: Dopamine D1 receptor signaling and endocannabinoid cooperate to fuel striatal plasticity. Journal of Neurochemistry 153(3): 297-299
Cheido, M.; Idova, G.; Alperina, E. 2014: Dopamine D1- and D2-Receptors in Immunostimulation under Activation of Mu-Opioid Receptors in Mice with Different Psychoemotional States. Pharmacology & Pharmacy 05(01): 43-48
Nourmohammadi, K.; Babaei-Balderlou, F.; Abtahi-Foroushani, S.M. 2021: Dopamine D2 Receptor Antagonist Alters the Testosterone Release and Kisspeptin/GPR54 Signaling in Food-Restricted Rats. Iranian Journal of Science and Technology, Transactions A: Science 45(6): 1879-1886
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Tran, A.H.; Tamura, R.; Uwano, T.; Kobayashi, T.; Katsuki, M.; Matsumoto, G.; Ono, T. 2003: Dopamine D2 receptor-knockout changed accumbens neural response to prediction of reward associated with place in mice. International Congress Series 1250: 493-508
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Formenti, F.; Sonntag, V.; Congestri, F.; Crespi, F. 2009: Dopamine D3 Receptor Antagonist SB-2770-11A Influences Cell Firing in the Rat Ventral Tegmental Area, Parallel Role with the Cannabinoid System in Addiction and Neuropsychiatry Disorders?. The Open Neuropsychopharmacology Journal 2(2): 86-92
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Kato, T.; Fierro, S.; Watanabe, T.; Yoshimi, K.; Einaga, Y. 2012: Dopamine Detection on Boron-doped Diamond Electrodes Using Fast Cyclic Voltammetry. Chemistry Letters 41(3): 224-226
Alarcón-Ángeles, G.; Pérez-López, B.; Corona-Avendaño, S.; Rojas-Hernández, A.; Palomar-Pardavé, M.; Romero-Romo, M.; Ramírez-Silva, M.T.; Alegret, S.; Merkoçi, A. 2019: Dopamine Detection using an Electrode Modified with Carbon Nanotubes. ECS Transactions 3(38): 77-80
Emelyanov, A.K.; Lavrinova, A.O.; Litusova, E.M.; Knyazev, N.A.; Kulabukhova, D.G.; Garaeva, L.A.; Miliukhina, I.V.; Berkovich, O.A.; Pchelina, S.N.; ; ; ; ; ; ; ; , 2018: Dopamine Effect on the Snca and Gata-1 , Gata-2 , Zscan21 Genes Expression in Parkinson's Disease. Tsitologiya 60(5): 365-372
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Ramirez-Silva, M.T.; Corona-Avendaño, S.; Alarcón-Angeles, G.; Rojas-Hernández, A.; Romero-Romo, M.A.; Palomar-Pardavé, M. 2019: Dopamine Electrochemical Behavior onto an Electrode Modified with a β-cyclodextrin Polymer. ECS Transactions 20(1): 151-157
Colin-Orozco, E.; Corona Avendaño, S.; Romero-Romo, M.; Palomar-Pardavé, M.; Ramírez-Silva, M.T. 2019: Dopamine Electrochemical Determination with Uric and Ascorbic Acids Present in Solution Using a Sodium Dodecyl Sulphate-Modified Carbon Paste Electrode (SDS-CPE) at Physiologic p H. ECS Transactions 36(1): 373-384
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Xia, P.; Liu, M.; Cheng, B.; Yu, J.; Zhang, L. 2018: Dopamine Modified g-C3N4 and its Enhanced Visible-Light Photocatalytic H2-Production Activity. ACS Sustainable Chemistry-Engineering 6(7): 8945-8953
Masana, M.; Santana, N.; Artigas, F.; Bortolozzi, A. 2013: Dopamine Neurotransmission and Atypical Antipsychotics in Prefrontal Cortex: a Critical Review. Current Topics in Medicinal Chemistry 999(999): 1-7
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Pallanti, S.; Grassi, G.; Burian, I. 2012: Dopamine Pharmacological Agents in Resistant-OCD. Current Psychopharmacologye 1(1): 44-46
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Izawa, S.; Yamaai, T.; Mukudai, Y.; Yamaji, K.; Nishitani, Y.; Itota, T.; Matsuo, R.; Takigawa, M.; Yoshiyama, M. 2007: Dopamine Receptor Presence in the Rat Area Postrema Identified by RT-PCR, Immunohistochemistry, and in Situ Hybridization. Journal of Oral Biosciences 49(4): 259-268
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Bhat, S.K.; Ganesh, C.B. 2019: Dopamine receptor agonist bromocriptine restrains the follicular development, hatchling success and puberty in Gambusia affinis. Journal of Applied Ichthyology 35(2): 501-511
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Kajitani, M.; Matsuda, M.; Hoshikawa, A.; Kamiyama, T.; Izumi, F.; Miyake, M. 2006: Doping Effect on Crystal Structure of Fast Oxide Ion Conductor la Ga O3-Based Perovskite Compounds. Electroceramics in Japan IX: 227-230
Nam, Y.; Cho, D.; Lee, J.Y. 2016: Doping Effect on Edge-Terminated Ferromagnetic Graphene Nanoribbons. The Journal of Physical Chemistry C 120(20): 11237-11244
Mori, S.; Tokunaga, J.; Horibe, Y.; Asada, T.; Koyama, Y.; Katsufuji, T. 2007: Doping Effect on Ferroelectric Microstructure in YMn1 −x Tix O3. Ferroelectrics 348(1): 170-176
Cong, R.; Zhu, H.; Wu, X.; Ma, C.; Yin, G.; Xie, X.; Cui, Q. 2013: Doping Effect on High-Pressure Behaviors of Sc,Y-doped Al N Nanoprisms. The Journal of Physical Chemistry C 117(8): 4304-4308
Yan, X.; Gu, Y.; Zhang, X.; Huang, Y.; Qi, J.; Zhang, Y.; Fujita, T.; Chen, M. 2008: Doping Effect on High-Pressure Structural Stability of Zn O Nanowires. The Journal of Physical Chemistry C 113(4): 1164-1167
Kambayashi, T.; Goto, M.; Ofuji, M.; Mori, T.; Takezoe, H.; Ishikawa, K. 2006: Doping Effect on Surface Roughness of Organic Semiconductor Thin Films. Japanese Journal of Applied Physics 45(1B): 526-529
Li, Y.; Biswas, S.; Luo, T.; Juarez-Mosqueda, R.; Taylor, M.G.; Mpourmpakis, G.; Rosi, N.L.; Hendrich, M.P.; Jin, R. 2020: Doping Effect on the Magnetism of Thiolate-Capped 25-Atom Alloy Nanoclusters. Chemistry of Materials 32(21): 9238-9244
Nagvenkar, A.P.; Perelshtein, I.; Gedanken, A. 2017: Doping Effect on the Thermal Conductivity of Metal Oxide Nanofluids: Insight and Mechanistic Investigation. The Journal of Physical Chemistry C 121(47): 26551-26557
Hiramoto, M.; Kishigami, Y.; Yokoyama, M. 1990: Doping Effect on the Two-layer Organic Solar Cell. Chemistry Letters 19(1): 119-122
Tsutsui, K.; Higaki, R.; Sasaki, Y.; Sato, T.; Tamura, H.; Okashita, K.; Mizuno, B.; Iwai, H. 2005: Doping Effects from Neutral B2H6Gas Phase on Plasma Pretreated Si Substrates as a Possible Process in Plasma Doping. Japanese Journal of Applied Physics 44(6A): 3903-3907
Krishna Nichenametla, C.; Calvo, J.; Riedel, S.; Gerlich, L.; Hindenberg, M.; Novikov, S.; Burkov, A.; Kozelj, P.; Cardoso‐Gil, R.; Wagner‐Reetz, M. 2020: Doping Effects in CMOS‐compatible Co Si Thin Films for Thermoelectric and Sensor Applications. Zeitschrift für anorganische und allgemeine Chemie 646(14): 1231-1237
Cárdenas-Jirón, G.; Figueroa, Y.; Kumar, N.; Seminario, J.M. 2016: Doping Effects in the Charge Transport of Graphene–Porphyrins. The Journal of Physical Chemistry C 120(4): 2013-2026
Bezusyy, V.; Gawryluk, D.; Berkowski, M.; Cieplak, M. 2012: Doping Effects of Co, Ni, and Cu in Fe Te0.65Se0.35Single Crystals. Acta Physica Polonica A 121(4): 816-819
Mukai, K.; Shimobe, Y.; Jamali, J.B.; Achiwa, N. 1999: Doping Effects of Magnetic Impurities on the Spin-Peierls (p-Cy DOV) and Dimer (p-Br DOV) Systems. The Journal of Physical Chemistry B 103(49): 10876-10882
Jyodoi, K.; Sonoda, A.; Yasuyama, S.; Ohyoshi, A. 1991: Doping Effects of Metallic Elements on the Superconductivity in the Tl-Ba-Ca-Cu-O System. Japanese Journal of Applied Physics 30(Part 2, No. 12A): L2021-L2024
Song, J.; Kim, S.; Raju, K.; Byun, S.; Woo, S.; Han, M.H.; Cho, C.H.; Kim, T.W. 2020: Doping Effects of Pentavalent Metal Ions (Nb 5+ or Ta 5+ ) on the Redox Stability and Electrochemical Properties of la 0. 6 Sr 0 . 4 Fe O 3 ‐δ for use as Interconnectors in Solid Oxide Fuel Cells. Bulletin of the Korean Chemical Society 41(8): 793-798
Fujii, A.; Umeda, T.; Isobe, H.; Nakamura, E.; Yoshino, K. 2001: Doping Effects of Tetra(amino)fullerene Epoxide in Conducting Polymer Thin Film. Japanese Journal of Applied Physics 40(Part 2, No. 12B): L1390-L1393
Wang, Z.; Wu, Q.; Li, M.; Wu, J.; Liang, L.; Li, G.; Li, S.; Wang, Y.; Liu, C. 2019: Doping Effects of Various Carrier Suppressing Elements on Solution-Processed Sn O x -Based Thin-Film Transistors. IEEE Transactions on Electron Devices 66(8): 3371-3375
Xu, L.; Garrett, M.P.; Hu, B. 2012: Doping Effects on Internally Coupled Seebeck Coefficient, Electrical, and Thermal Conductivities in Aluminum-Doped Ti O2. The Journal of Physical Chemistry C 116(24): 13020-13025
Korzhuev, M.A.; Bankina, V.F.; Korolkova, I.G.; Sheina, G.B.; Obraztsova, E.A. 1991: Doping Effects on Mechanical Properties and Microhardness of Cu2−x Se. Physica Status Solidi (a) 123(1): 131-137
Aoyama, I.; Kaibe, H.; Rauscher, L.; Kanda, T.; Mukoujima, M.; Sano, S.; Tsuji, T. 2005: Doping Effects on Thermoelectric Properties of Higher Manganese Silicides (HMSs, Mn Si1.74) and Characterization of Thermoelectric Generating Module usingp-Type (Al, Ge and Mo)-doped HMSs andn-Type Mg2Si0.4Sn0.6Legs. Japanese Journal of Applied Physics 44(6A): 4275-4281
Jovovic, V.; Heremans, J.P. 2009: Doping Effects on the Thermoelectric Properties of Ag Sb Te2. Journal of Electronic Materials 38(7): 1504-1509
Skoug, E.J.; Cain, J.D.; Majsztrik, P.; Kirkham, M.; Lara-Curzio, E.; Morelli, D.T. 2011: Doping Effects on the Thermoelectric Properties of Cu3Sb Se4. Science of Advanced Materials 3(4): 602-606
Kaphle, A.; Reed, T.; Apblett, A.; Hari, P. 2019: Doping Efficiency in Cobalt-Doped Zn O Nanostructured Materials. Journal of Nanomaterials 2019: 1-13
Liu, J.; Garman, M.P.; Dong, J.; van der Zee, B.; Qiu, L.; Portale, G.; Hummelen, J.C.; Koster, L.J.A. 2019: Doping Engineering Enables Highly Conductive and Thermally Stable n-Type Organic Thermoelectrics with High Power Factor. ACS Applied Energy Materials 2(9): 6664-6671
Xie, W.; Liu, G.; Dong, X.; Wang, J.; Yu, W. 2016: Doping Eu3+/Sm3+ into Ca WO4:Tm3+, Dy3+ phosphors and their luminescence properties, tunable color and energy transfer. RSC Advances 6(31): 26239-26246
Tabacaru, C.; Gómez, E.; del Campo, D. 2011: Doping Experiments in Mercury Triple-Point Cells. International Journal of Thermophysics 32(7-8): 1563-1572
Peruzzi, A.; Dobre, M.; Strouse, G.; Van Geel, J. 2011: Doping Experiments with Water Triple-Point Cells. International Journal of Thermophysics 32(7-8): 1553-1562
Mart, C.; Kühnel, K.; Kämpfe, T.; Czernohorsky, M.; Wiatr, M.; Kolodinski, S.; Weinreich, W. 2019: Doping Ferroelectric Hafnium Oxide by in-Situ Precursor Mixing. ACS Applied Electronic Materials 1(12): 2612-2618
Chaabouni, F.; Khalfallah, B.; Abaab, M. 2016: Doping Ga effect on Zn O radio frequency sputtered films from a powder target. Thin Solid Films 617: 95-102
Welzmiller, S.; Schlegel, R.; Pöppl, A.; Bothmann, G.; Scheidt, E.; Scherer, W.; Oeckler, O. 2015: Doping Ge Sb2Te4with Cr3+: Structure and Temperature-Dependent Physical Properties. Zeitschrift für anorganische und allgemeine Chemie 641(12-13): 2350-2356
Lee, N.; Lee, J.; Ryu, T.; Kim, Y.; Lansac, Y.; Jang, Y.H. 2014: Doping Graphene with Ferroelectric β-PVDF Polymer Film: Density Functional Theory Calculation and Molecular Dynamics Simulation. Science of Advanced Materials 6(11): 2422-2427
Bear, J.C.; Hollingsworth, N.; Roffey, A.; McNaughter, P.D.; Mayes, A.G.; Macdonald, T.J.; Nann, T.; Ng, W.H.; Kenyon, A.J.; Hogarth, G.; Parkin, I.P. 2015: Doping Group IIB Metal Ions into Quantum Dot Shells via the One-Pot Decomposition of Metal-Dithiocarbamates. Advanced Optical Materials 3(5): 704-712
Seidu, A.; Egblewogbe, M.; Gebreyesus, G.; Nkrumah-Buandoh, G. 2018: Doping Induced Band-gap widening in Transition-metal doped Zn O Nanocrystals. MRS Advances 3(42-43): 2643-2652
Suzuki, K.; Inagaki, K.; Kimura, N.; Tsubono, I.; Sawada, T.; Imai, K.; Seto, S. 1995: Doping Induced Defects of Cd1−x Znx Te Grown from Te Solution. Physica Status Solidi (a) 147(1): 203-210
Saarela, M.; Kusmartsev, F.V. 2009: Doping Induced Electronic Phase Separation and Coulomb Bubbles in Layered Superconductors. International Journal of Modern Physics B 23(20n 21): 4198-4215
Arai, T.; Iimura, S.; Hosono, H. 2018: Doping Induced Polymorph and Carrier Polarity Changes in la Se F. Chemistry of Materials 30(3): 597-601
Ma, J.; Chen, J.; Yin, J.; Zhang, B.; Zhao, Q.; Kuroiwa, Y.; Moriyoshi, C.; Hu, L.; Bakr, O.M.; Mohammed, O.F.; Sun, H. 2020: Doping Induces Structural Phase Transitions in All-Inorganic Lead Halide Perovskite Nanocrystals. ACS Materials Letters 2(4): 367-375
Manago, T.; Nishizako, N.; Ishida, S.; Geka, H.; Shibasaki, I.; Makise, K.; Mitsuishi, K. 2010: Doping Level Dependence of Transport Properties in in as Sb Quantum Wells. Physics Procedia 3(2): 1219-1224
Bende, E.E.; Anker, J. 2015: Doping Level Effect on Sample Temperatures in Infrared Belt Furnace Firing. Energy Procedia 77: 665-676
O'Donnell, R.; Ralphs, K.; Grolleau, M.; Manyar, H.; Artioli, N. 2020: Doping Manganese Oxides with Ceria and Ceria Zirconia Using a One-Pot Sol–Gel Method for Low Temperature Diesel Oxidation Catalysts. Topics in Catalysis 63(3-4): 351-362
Kim, K.; Hong, K.; Kim, S.; Lee, J. 2012: Doping Mechanism and Electronic Structure of Alkali Metal Doped Tris(8-hydroxyquinoline) Aluminum. The Journal of Physical Chemistry C 116(16): 9158-9165
Zhu, W.; Feng, X.; Huang, Y.; Lin, Q.; Wu, Z. 2002: Doping Mechanism of Heavily Doped Pb WO4:La3+. Physica status solidi (a) 193(2): 211-216
Xiao-Hui, Z.; ; Hui-Jin, L.; Jiang-Zhou, D.; Ya-An, C. 2010: Doping Mechanism of N-Ti O2/Zn O Composite Nanotube Arrays and their Photocatalytic Activity. Acta Physico-Chimica Sinica 26(03): 663-668
Li, W.; Tang, T.B.; Huang, H.; Feng, X. 2001: Doping Mechanisms of La, y and Excess Oxygen in Pb WO4. Japanese Journal of Applied Physics 40(Part 1, No. 12): 6893-6895
Yamada, N.; Yasui, I.; Shigesato, Y.; Li, H.; Ujihira, Y.; Nomura, K. 1999: Doping Mechanisms of Sn in In2O3Powder Studied Using119Sn Mössbauer Spectroscopy and X-Ray Diffraction. Japanese Journal of Applied Physics 38(Part 1, No. 5A): 2856-2862
Gao, X.; Nie, S. 2003: Doping Mesoporous Materials with Multicolor Quantum Dots. The Journal of Physical Chemistry B 107(42): 11575-11578
Bai, S.; Ma, Y.; Shu, X.; Sun, J.; Feng, Y.; Luo, R.; Li, D.; Chen, A. 2017: Doping Metal Elements of WO3 for Enhancement of NO2-Sensing Performance at Room Temperature. Industrial-Engineering Chemistry Research 56(10): 2616-2623
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Dutta, S.K.; Dutta, A.; Das Adhikari, S.; Pradhan, N. 2018: Doping Mn2+ in Single-Crystalline Layered Perovskite Microcrystals. ACS Energy Letters 4(1): 343-351
Guo, J.; Zhu, H.; Sun, Y.; Tang, L.; Zhang, X. 2016: Doping Mo S2 with Graphene Quantum Dots: Structural and Electrical Engineering towards Enhanced Electrochemical Hydrogen Evolution. Electrochimica Acta 211: 603-610
Li, H.; Li, H.; Xun, S.; Brédas, J. 2020: Doping Modulation of the Charge Injection Barrier between a Covalent Organic Framework Monolayer and Graphene. Chemistry of Materials 32(21): 9228-9237
Seitz, O.; Vilan, A.; Cohen, H.; Hwang, J.; Haeming, M.; Schoell, A.; Umbach, E.; Kahn, A.; Cahen, D. 2008: Doping Molecular Monolayers: Effects on Electrical Transport Through Alkyl Chains on Silicon. Advanced Functional Materials 18(14): 2102-2113
Zhao, B.; Chen, G.; Lv, S.; Fu, X.; Zhou, W. 2021: Doping N/O Impurities into a Mo Nb Ti WZr Refractory Multi-Principal Element Alloy and the Strengthening Mechanism. Journal of Materials Engineering and Performance 30(12): 9359-9369
Foster, S.; Neophytou, N. 2018: Doping Optimization for the Power Factor of Bipolar Thermoelectric Materials. Journal of Electronic Materials 48(4): 1889-1895
Tang, L.; Fraas, L.M.; Liu, Z.; Duan, H.; Xu, C. 2017: Doping Optimization in Zn-Diffused Ga Sb Thermophotovoltaic Cells to Increase the Quantum Efficiency in the Long Wave Range. IEEE Transactions on Electron Devices 64(12): 5012-5018
Kobayashi, M.; Usuki, Y.; Ishii, M.; Nikl, M. 2002: Doping Pb WO4 with different ions to increase the light yield. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 486(1-2): 170-175
Yan, H.; Hollinger, J.; Bridges, C.R.; McKeown, G.R.; Al-Faouri, T.; Seferos, D.S. 2014: Doping Poly(3-hexylthiophene) Nanowires with Selenophene Increases the Performance of Polymer-Nanowire Solar Cells. Chemistry of Materials 26(15): 4605-4611
von Grotthuss, E.; John, A.; Kaese, T.; Wagner, M. 2017: Doping Polycyclic Aromatics with Boron for Superior Performance in Materials Science and Catalysis. Asian Journal of Organic Chemistry 7(1): 37-53
Kim, B.; Park, C.; Balaji, N.; Lee, Y.; Song, K.; Jung, W.; Choi, J.; Ju, M.; Lee, J.; Lee, H.; Yi, J. 2013: Doping Profile Effect of Shallow Emitter Junction in Selective Emitter c-Si Solar Cell with Reactive Ion Etching Etch Back Process. Journal of Computational and Theoretical Nanoscience 10(8): 1779-1783
Chen, C.; Tseng, H.; Ilatikhameneh, H.; Ameen, T.A.; Klimeck, G.; Rodwell, M.J.; Povolotskyi, M. 2021: Doping Profile Engineered Triple Heterojunction TFETs with 12-nm Body Thickness. IEEE Transactions on Electron Devices 68(6): 3104-3111
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Nagai, K.; Takato, H.; Hayashi, Y. 1992: Doping Profile Measurement of a Bonded Silicon-on-Insulator Wafer by Capacitance-Voltage Measurements. Japanese Journal of Applied Physics 31(Part 2, No. 11A): L1529-L1531
Nomura, K.; Kondoh, T.; Ishikawa, T.; Yamasaki, S.; Yaji, K.; Fujita, K. 2018: Doping Profile Optimization for Power Devices Using Topology Optimization. IEEE Transactions on Electron Devices 65(9): 3869-3877
Jen, C.; Richter, C. 2014: Doping Profile Recognition Applied to Silicon Photovoltaic Cells Using Terahertz Time-Domain Spectroscopy. IEEE Transactions on Terahertz Science and Technology 4(5): 560-567
Muranaka, T.; Uehara, T.; Sakano, T.; Nabetani, Y.; Akitsu, T.; Kato, T.; Matsumoto, T.; Hagihara, S.; Abe, O.; Hiraki, S.; Fujikawa, Y. 2008: Doping Profiles and Nanostructural Properties of Molecular-Beam-Deposited GZO Thin Films on Glass Substrates. Journal of the Korean Physical Society 53(9(5): 2897-2900
Brown, D.M.; Connery, R.J.; Gray, P.V. 1975: Doping Profiles by MOSFET Deep Depletion C(V). Journal of The Electrochemical Society 122(1): 121-127
Boguslawski, P.; Bernholc, J. 1996: Doping Properties of Amphoteric C, Si, and Ge Impurities in Ga N and Al N. Acta Physica Polonica A 90(4): 735-738
Yamaguchi, K.; Kishida, S.; Okamoto, K. 1992: Doping Properties of Ga as Selective Epilayers Grown by Atmospheric-Pressure Metalorganic Chemical Vapor Deposition. Japanese Journal of Applied Physics 31(Part 2, No. 10A): L1377-L1380
Tsuji, M.; Makita, K.; Taguchi, K. 1994: Doping Properties of Zinc in in Al Ga as Grown by Low-Pressure Metal-Organic Vapor-Phase Epitaxy. Japanese Journal of Applied Physics 33(Part 1, No. 6A): 3359-3361
Örnek, A.; Efe, O. 2015: Doping Qualifications of Li Fe1Mg PO4-C Nano-scale Composite Cathode Materials. Electrochimica Acta 166: 338-349
Hong, N.H.; Sakai, J.; Hassini, A.; Noudem, J.; Gervais, M.; Gervais, F. 2003: Doping Ru/Cr on B-site of La(BaCa)MnO thin films: driving insulator-to-metal transition temperature far apart from Curie temperature. Materials Science and Engineering: B104(3): 137-140
Paudel, T.R.; Zakutayev, A.; Lany, S.; d'Avezac, M.; Zunger, A. 2011: Doping Rules and Doping Prototypes in A2BO4 Spinel Oxides. Advanced Functional Materials 21(23): 4493-4501
R. Thankalekshmi, R.; Dixit, S.; C. Rastogi, A. 2013: Doping Sensitive Optical Scattering in Zinc Oxide Nanostructured films for Solar Cells. Advanced Materials Letters 4(1): 9-14
Pi, X. 2012: Doping Silicon Nanocrystals with Boron and Phosphorus. Journal of Nanomaterials 2012: 1-9
Zhang, B.; Bürgi, T. 2016: Doping Silver Increases the Au38(SR)24 Cluster Surface Flexibility. The Journal of Physical Chemistry C 120(8): 4660-4666
Kucuk, N.; Bulcar, K.; Dogan, T.; Garcia Guinea, J.; Portakal, Z.; Karabulut, Y.; Ayvacikli, M.; Canimoglu, A.; Topaksu, M.; Can, N. 2018: Doping Sm3+ into Zn B2O4 phosphors and their structural and cathodoluminescence properties. Journal of Alloys and Compounds 748: 245-251
Rastogi, P.; Kumar, S.; Bhowmick, S.; Agarwal, A.; Chauhan, Y.S. 2014: Doping Strategies for Monolayer Mo S2 via Surface Adsorption: a Systematic Study. The Journal of Physical Chemistry C 118(51): 30309-30314
Maier, J. 2017: Doping Strategies in Inorganic and Organic Materials. Zeitschrift für anorganische und allgemeine Chemie 643(23): 2083-2087
Ma, Z.Z.; Li, J.Q.; Chen, Z.P.; Hu, X.J. 2014: Doping Strategies of Bi (Ti0.5Ni0.5)O3 for Increased Performance in Bi Fe O3. Advanced Materials Research 1004-1005: 358-361
Lv, H.; Guo, Y.; Yang, Z.; Guo, T.; Wu, H.; Liu, G.; Wang, L.; Wu, R. 2017: Doping Strategy to Boost the Electromagnetic Wave Attenuation Ability of Hollow Carbon Spheres at Elevated Temperatures. ACS Sustainable Chemistry-Engineering 6(2): 1539-1544
Nishiyama, T.; Kim, E.; Numata, K.; Pak, K. 2004: Doping Study on Maskless Selective Direct Growth of Ga as Using Low-Energy Focused Ion Beam. Japanese Journal of Applied Physics 43(No. 6A): L716-L718
Wang, S.; Yan, C.; Shang, J.; Wang, W.; Yuan, C.; Zhang, H.; Shao, X. 2019: Doping Sumanene with Both Chalcogens and Phosphorus(V): One‐Step Synthesis, Coordination, and Selective Response Toward Ag i. Angewandte Chemie 131(12): 3859-3863
Biewer, S.; D'argenio, P.R.; Hermanns, H. 2021: Doping Tests for Cyber-physical Systems. ACM Transactions on Modeling and Computer Simulation 31(3): 1-27
Wang, Y.; Wu, Y.; Yang, H.; Xue, X.; Liu, Z. 2016: Doping Ti O2 with boron or/and cerium elements: Effects on photocatalytic antimicrobial activity. Vacuum 131: 58-64
Zhou, D.; Wang, X.; Zeng, W.; Yang, C.; Pan, H.; Li, C.; Liu, Y.; Zhang, D. 2018: Doping Ti to achieve microstructural refinement and strength enhancement in a high volume fraction Y2O3 dispersion strengthened Cu. Journal of Alloys and Compounds 753: 18-27
Karan, N.S.; Sarma, D.D.; Kadam, R.M.; Pradhan, N. 2010: Doping Transition Metal (Mn or Cu) Ions in Semiconductor Nanocrystals. The Journal of Physical Chemistry Letters 1(19): 2863-2866
Daraee, M.; Baniadam, M.; Rashidi, A.; Maghrebi, M. 2020: Doping Transition Metals into Ti O 2 ‐CNT Nanocatalyst to Enhance the Selective Oxidation of H 2 S. ChemistrySelect 5(36): 11242-11256
Duncan, D.; Jung, K.; Magyari-Kope, B.; Nishi, Y. 2017: Doping Trends in Hf Ox RRAM. ECS Transactions 75(32): 29-37
Kumar, V.; Singh, S.; Chawla, S. 2015: Doping Triple Lanthanum Ions in Gd PO4Nanocrystals Through Multiple Synthesis Routes and their Dual Mode Spectrum Conversion Behaviour. Science of Advanced Materials 7(3): 496-503
Assmann, H.; Dörr, W.; Gradel, G.; Maier, G.; Peehs, M. 1981: Doping UO2 with niobia - Beneficial or not?. Journal of Nuclear Materials 98(1-2): 216-220
Nistor, S.V.; Stefan, M.; Nistor, L.C.; Ghica, D.; Vlaicu, I.D.; Joita, A.C. 2015: Doping Ultrasmall Cubic Zn S Nanocrystals with Mn2+ Ions over a Broad Nominal Concentration Range. The Journal of Physical Chemistry C 119(41): 23781-23789
Ming, W.; Shi, H.; Du, M. 2018: Doping Y2O3 with Mn4+ for energy-efficient lighting. Journal of Materials Chemistry C 6(15): 4171-4176
Lee, P.A.; Nagaosa, N.; Wen, X. 2006: Doping a Mott insulator: Physics of high-temperature superconductivity. Reviews of Modern Physics 78(1): 17-85
Hayashi, S.; Ishida, R.; Hasegawa, S.; Yamazoe, S.; Tsukuda, T. 2017: Doping a Single Palladium Atom into Gold Superatoms Stabilized by PVP: Emergence of Hydrogenation Catalysis. Topics in Catalysis 61(1-2): 136-141
Chandiran, A.K.; Sauvage, F.; Casas-Cabanas, M.; Comte, P.; Zakeeruddin, S.M.; Graetzel, M. 2010: Doping a Ti O2 Photoanode with Nb5+ to Enhance Transparency and Charge Collection Efficiency in Dye-Sensitized Solar Cells. The Journal of Physical Chemistry C 114(37): 15849-15856
Chen, Z.; Ye, Q. 2014: Doping a novel controlled/"living" radical for the polymerization of a lauryl methacrylate monolithic column for improving column efficiency. ANAL. Methods 6(10): 3235-3240
Zhou, X.; Wang, Y.; Li, C.; Wu, T. 2019: Doping amino-functionalized ionic liquid in perovskite crystal for enhancing performances of hole-conductor free solar cells with carbon electrode. Chemical Engineering Journal 372: 46-52
Seo, K.H.; Kim, B.G.; Lim, C.; Kim, S.; Lee, K.; Kim, J.; Choi, S. 2017: Doping amount dependence of phase formation and microstructure evolution in heavily Cu-doped Bi2Te3 films for thermoelectric applications. CrystEngComm 19(20): 2750-2757
Hong, F. 2006: Doping and Anti-doping in Sport in China: An Analysis of Recent and Present Attitudes and Actions. Sport in Society 9(2): 314-333
Yamashita, T.; Barry, J.; Taylor, R. 2010: Doping and Atomic Site Substitution in the Dielectric Ceramics Ti(Al)O2Rutile and (1−x)Ca2/5Sm2/5Ti O3–x Li1/2Sm1/2Ti O3Perovskite. Journal of the American Ceramic Society 93(1): 251-255
Karczewski, G.; Wojtowicz, T. 1996: Doping and Characterization of Wide-Gap II-Vi Epilayers. Acta Physica Polonica A 90(4): 635-644
Shim, M.; Wang, C.; Norris, D.J.; Guyot-Sionnest, P. 2001: Doping and Charging in Colloidal Semiconductor Nanocrystals. MRS Bulletin 26(12): 1005-1008
Zervos, M.; Othonos, A.; Tanasă, E.; Vasile, E. 2018: Doping and Conductivity Limitations in Sb:Sn O2 Nanowires Grown by the Vapor Liquid Solid Mechanism. The Journal of Physical Chemistry C 122(39): 22709-22716
Ullah, H.; Shah, A.A.; Bilal, S.; Ayub, K. 2014: Doping and Dedoping Processes of Polypyrrole: DFT Study with Hybrid Functionals. The Journal of Physical Chemistry C 118(31): 17819-17830
Shin, D.; Meng, X.; Lee, J.H.; Yu, S.M.; Yoo, J.H.; Lim, K.S.; Patole, S.P.; Yoo, J. 2011: Doping and Dedoping in SWCNT Film by the Spontaneous Redox Process. The Journal of Physical Chemistry C 115(37): 18327-18332
Drasar, C.; Lostak, P.; Uher, C. 2009: Doping and Defect Structure of Tetradymite-Type Crystals. Journal of Electronic Materials 39(9): 2162-2164
Cui, Y.; Duan, X.; Hu, J.; Lieber, C.M. 2000: Doping and Electrical Transport in Silicon Nanowires. The Journal of Physical Chemistry B 104(22): 5213-5216
Nakanisi, T. 1973: Doping and Energy Levels of Si and Ge in Ga as Grown from Vapour Phase. Japanese Journal of Applied Physics 12(8): 1263-1264
Oral, O.; Zampeli, F.; Varol, R.; Umit, Y.; Cabuk, R.; Nomikos, G.; Megaloikonomos, P.; Igoumenou, V.; Vottis, C.; Mavrogenis, A.F. 2014: Doping and Ethics in Sports. Ethics in Biology, Engineering and Medicine: An International Journal 5(4): 271-278
Eber, N. 2009: Doping and Fair Play. Economic Analysis and Policy 39(3): 345-347
Ekstrom, L.; Gok, E.; Johansson, M.; Garle, M.; Rane, A.; J. Schulze, J. 2012: Doping and Genetic Testing: Sex Difference in UGT2B15 Expression, Testosterone Glucuronidation Activity and Urinary Testosterone/ Epitestosterone Glucuronide Ratio. Current Pharmacogenomics and Personalized Medicine 10(2): 125-131
Mustafa, W.; Azhar, U.; Tabassum, S.; Jamal, M.; Siddiqi, S.A.; Tariq, M.; Muhammad, N.; Asif, A.; Chaudhry, A.A.; Sharif, F. 2020: Doping and Incorporation of Hydroxyapatite in Development of PU-PLA Electrospun Osteogenic Membranes. Journal of Polymers and the Environment 28(11): 2988-3002
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