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EurekaMag Full Text Articles Chapter 81,115



References:

Zhou, G.; Ni, Q. 2015: A Spectral Dai-Yuan-Type Conjugate Gradient Method for Unconstrained Optimization. Mathematical Problems in Engineering 2015: 1-7
Liu, C.; Yao, B.; Natraj, V.; Kopparla, P.; Weng, F.; Le, T.; Shia, R.; Yung, Y.L. 2020: A Spectral Data Compression (SDCOMP) Radiative Transfer Model for High-Spectral-Resolution Radiation Simulations. Journal of the Atmospheric Sciences 77(6): 2055-2066
Zhang, Y.; Ma, R.; Duan, H.; Loiselle, S.; Xu, J. 2014: A Spectral Decomposition Algorithm for Estimating Chlorophyll-a Concentrations in Lake Taihu, China. Remote Sensing 6(6): 5090-5106
Bepari, D.; Bojja, A.K.; Kumar, B.S.; Mitra, D. 2016: A Spectral Distance Based Power Control Scheme for Capacity Enhancement of OFDM Cognitive Radio. Wireless Personal Communications 90(1): 157-173
Rahmat-Samii, Y.; Itoh, T.; Mittra, R. 1974: A Spectral Domain Analysis for Solving Microstrip Discontinuity Problems. IEEE Transactions on Microwave Theory and Techniques 22(4): 372-378
Bandyopadhyay, S.; Jentsch, C.; Subba Rao, S. 2016: A Spectral Domain Test for Stationarity of Spatio‐Temporal Data. Journal of Time Series Analysis 38(2): 326-351
Li, T.; Zhao, F. 2020: A Spectral Efficient Hybrid Precoding Algorithm for Mm Wave MIMO Systems. Procedia Computer Science 174: 584-590
Zhu, W.; Kopriva, D.A. 2009: A Spectral Element Approximation to Price European Options with one Asset and Stochastic Volatility. Journal of Scientific Computing 42(3): 426-446
Zhu, W.; Kopriva, D.A. 2009: A Spectral Element Approximation to Price European Options. II. The Black-Scholes Model with two Underlying Assets. Journal of Scientific Computing 39(3): 323-339
Garreau, P.; Kopriva, D. 2013: A Spectral Element Framework for Option Pricing Under General Exponential Lévy Processes. Journal of Scientific Computing 57(2): 390-413
de Frutos, J.; Novo, J. 2000: A Spectral Element Method for the Navier--Stokes Equations with Improved Accuracy. SIAM Journal on Numerical Analysis 38(3): 799-819
Qiu, Z.H.; Zeng, Z.; Mei, H.; Yao, L.P.; Liu, Q.M. 2012: A Spectral Element Method for the Numerical Simulation of Axisymmetric Flow in Czochralski Crystal Growth. Advanced Materials Research 452-453: 1195-1199
Zhu, W.; Kopriva, D.A. 2009: A Spectral Element Method to Price European Options. I. Single Asset with and without Jump Diffusion. Journal of Scientific Computing 39(2): 222-243
He, Y.; Min, M.; Nicholls, D.P. 2016: A Spectral Element Method with Transparent Boundary Condition for Periodic Layered Media Scattering. Journal of Scientific Computing 68(2): 772-802
Curchitser, E.N.; Iskandarani, M.; Haidvogel, D.B. 1998: A Spectral Element Solution of the Shallow-Water Equations on Multiprocessor Computers. Journal of Atmospheric and Oceanic Technology 15(2): 510-521
Black, K. 1997: A Spectral Element Technique with a Local Spectral Basis. SIAM Journal on Scientific Computing 18(2): 355-370
Giannakouros, J.; Karniadakis, G.E. 1994: A Spectral Element-FCT Method for the Compressible Euler Equations. Journal of Computational Physics 115(1): 65-85
Elghaoui, M.; Pasquetti, R. 1996: A Spectral Embedding Method Applied to the Advection–Diffusion Equation. Journal of Computational Physics 125(2): 464-476
Zhang, Y.F.; Dai, J.M.; Wang, Z.W.; Pan, W.D.; Zhang, L. 2012: A Spectral Emissivity Measurement Facility for Solar Absorbing Coatings. International Journal of Thermophysics 34(5): 916-925
Nikiforov, V. 2009: A Spectral Erdős–Stone–Bollobás Theorem. Combinatorics, Probability and Computing 18(3): 455-458
Jiang, H.; Farrell, J.; Wandell, B. 2016: A Spectral Estimation Theory for Color Appearance Matching. Electronic Imaging 20: 1-4
Levin, J.G.; Iskandarani, M.; Haidvogel, D.B. 1997: A Spectral Filtering Procedure for Eddy-Resolving Simulations with a Spectral Element Ocean Model. Journal of Computational Physics 137(1): 130-154
Miller, B.A.; Beard, M.S.; Wolfe, P.J.; Bliss, N.T. 2015: A Spectral Framework for Anomalous Subgraph Detection. IEEE Transactions on Signal Processing 63(16): 4191-4206
Angelino, P.; Bottino, A.; Falchetto, G.L.; Ganesh, R.; Vaclavik, J.; Villard, L. 2005: A Spectral Global Gyrokinetic Approach to Plasma Linear Microinstability Analysis. Transport Theory and Statistical Physics 34(3-5): 333-352
Tootooni, M.S.; Rao, P.K.; Chou, C.; Kong, Z.J. 2018: A Spectral Graph Theoretic Approach for Monitoring Multivariate time Series Data from Complex Dynamical Processes. IEEE Transactions on Automation Science and Engineering 15(1): 127-144
Liu, D.; Li, J.; Yuan, Q. 2021: A Spectral Grouping and Attention-Driven Residual Dense Network for Hyperspectral Image Super-Resolution. IEEE Transactions on Geoscience and Remote Sensing 59(9): 7711-7725
Edwards, P.G.; Giovannini, G.; Cotton, W.D.; Feretti, L.; Fujisawa, K.; Hirabayashi, H.; Lara, L.; Venturi, T. 2000: A Spectral Index Map from VSOP Observations of Markarian 501. Publications of the Astronomical Society of Japan 52(6): 1015-1019
Rawitscher, G. 2013: A Spectral Integral Equation Solution of the Gross-Pitaevskii Equation. Applied Mathematics 04(10): 70-77
Cohn, W.M. 1938: A Spectral Investigation of Glucose Glass. The Journal of Chemical Physics 6(2): 65-67
Bhattacharyya, S.; Heo, T.W.; Chang, K.; Chen, L. 2012: A Spectral Iterative Method for the Computation of Effective Properties of Elastically Inhomogeneous Polycrystals. Communications in Computational Physics 11(3): 726-738
McMullin, J.P.; Mundy, L.G.; Blake, G.A.; Wilking, B.A.; Mangum, J.G.; Latter, W.B. 2000: A Spectral Line Study of Serpens S68 FIRS1 Region. The Astrophysical Journal 536(2): 845-856
Lee, C.W.; Cho, S.; Lee, S. 2001: A Spectral Line Survey from 138.3 to 150.7 GHz toward Orion‐KL. The Astrophysical Journal 551(1): 333-346
He, J.H.; Dinh‐V‐Trung; Kwok, S.; Müller, H.S.P.; Zhang, Y.; Hasegawa, T.; Peng, T.C.; Huang, Y.C. 2008: A Spectral Line Survey in the 2 and 1.3 mm Windows toward the Carbon‐rich Envelope of IRC +10216. The Astrophysical Journal Supplement Series 177(1): 275-325
Kim, H.; Cho, S.; Chung, H.; Kim, H.; Roh, D.; Kim, H.; Minh, Y.C.; Minn, Y. 2000: A Spectral Line Survey of G34.3+0.15 at 3 Millimeters (84.7–115.6 GHz) and 2 Millimeters (123.5–155.3 GHz). The Astrophysical Journal Supplement Series 131(2): 483-504
Kingsbury., E.F. 1916: A Spectral Luminosity Curve Equation and its use. Physical Review 7(2): 161-168
Cho, D.W. 1977: A Spectral Measurement of the Cyclical Patterns of Multivariate time Series. Decision Sciences 8(4): 663-676
Mao, Z.; Karniadakis, G.E. 2018: A Spectral Method (of Exponential Convergence) for Singular Solutions of the Diffusion Equation with General Two-Sided Fractional Derivative. SIAM Journal on Numerical Analysis 56(1): 24-49
Carrasco, M.; Florens, J. 2010: A Spectral Method for Deconvolving a Density. Econometric Theory 27(3): 546-581
Wang, T. 2015: A Spectral Method for Fourth-Order Mixed Inhomogeneous Boundary Value Problem in Three Dimensions. Journal of Scientific Computing 67(3): 1247-1271
Pirondini, E.; Vybornova, A.; Coscia, M.; Van De Ville, D. 2016: A Spectral Method for Generating Surrogate Graph Signals. IEEE Signal Processing Letters 23(9): 1275-1278
Chen, Y.W.a.Y. 2013: A Spectral Method for Neutral Volterra Integro-Differential Equation with Weakly Singular Kernel. Numerical Mathematics: Theory, Methods and Applications 6(2): 424-446
Matsushima, T.; Marcus, P. 1995: A Spectral Method for Polar Coordinates. Journal of Computational Physics 120(2): 365-374
Zheng, W.; Chen, Y. 2013: A Spectral Method for Second Order Volterra Integro-Differential Equation with Pantograph Delay. Advances in Applied Mathematics and Mechanics 5(2): 131-145
Matsushima, T.; Marcus, P. 1997: A Spectral Method for Unbounded Domains. Journal of Computational Physics 137(2): 321-345
Garcı́a-Archilla, B. 1996: A Spectral Method for the Equal Width Equation. Journal of Computational Physics 125(2): 395-402
Suhov, A.Y. 2005: A Spectral Method for the time Evolution in Parabolic Problems. Journal of Scientific Computing 29(2): 201-217
Winters, K.B.; MacKinnon, J.A.; Mills, B. 2004: A Spectral Model for Process Studies of Rotating, Density-Stratified Flows. Journal of Atmospheric and Oceanic Technology 21(1): 69-94
Verkley, W. 1997: A Spectral Model for Two-Dimensional Incompressible Fluid Flow in a Circular Basin. Journal of Computational Physics 136(1): 100-114
Verkley, W. 1997: A Spectral Model for Two-Dimensional Incompressible Fluid Flow in a Circular Basin. Journal of Computational Physics 136(1): 115-131
Daley, R.; Merilees, P. 1971: A Spectral Model of Bubble Convection. Journal of the Atmospheric Sciences 28(6): 933-943
Huang, T.; Zhao, Y.; Xu, Z.; Zhou, L. 2016: A Spectral Model of Phytoplankton Absorption for Inland Lake. Journal of Computational and Theoretical Nanoscience 13(10): 6555-6562
Hui, J.X.; Wu, L.; Gao, Y.C.; Zhou, J. 2011: A Spectral Moment Estimation Method for Wind Profile Radar. Advanced Materials Research 179-180: 740-745
Belhachmi, Z.; Karageorghis, A. 2006: A Spectral Mortar Element Discretization of the Poisson Equation with Mixed Boundary Conditions. Journal of Scientific Computing 30(2): 275-299
Pinelli, A.; Vacca, A.; Quarteroni, A. 1997: A Spectral Multidomain Method for the Numerical Simulation of Turbulent Flows. Journal of Computational Physics 136(2): 546-558
Giraldo, J.P.; Escobar-Vargas, J.; Donado, L. 2015: A Spectral Multidomain Penalty Method Solver for the Simulation of the Velocity Attenuation in Hyporheic Flows. Procedia Environmental Sciences 25: 206-213
Hong, Y. 2015: A Spectral Multiplier Theorem Associated with a Schrödinger Operator. Journal of Fourier Analysis and Applications 22(3): 591-622
De Barros, R.C.; Larsen, E.W. 1992: A Spectral Nodal Method for One-Group X, Y-Geometry Discrete Ordinates Problems. Nuclear Science and Engineering 111(1): 34-45
López-Fernández, M.; Palencia, C.; Schädle, A. 2006: A Spectral Order Method for Inverting Sectorial Laplace Transforms. SIAM Journal on Numerical Analysis 44(3): 1332-1350
Mashburn, J. 2007: A Spectral Order for Infinite Dimensional Quantum Spaces. Electronic Notes in Theoretical Computer Science 173: 263-273
Fahroo, F.; Ross, I.M. 2000: A Spectral Patching Method for Direct Trajectory Optimization. The Journal of the Astronautical Sciences 48(2-3): 269-286
Wang, N.; Mao, Z.; Huang, C.; Karniadakis, G.E. 2019: A Spectral Penalty Method for Two-Sided Fractional Differential Equations with General Boundary Conditions. SIAM Journal on Scientific Computing 41(3): A1840-A1866
Milne, A.J.; Laney, R.; Sharp, D.B. 2015: A Spectral Pitch Class Model of the Probe Tone Data and Scalic Tonality. Music Perception 32(4): 364-393
Milatovic, O. 2013: A Spectral Property of Discrete Schrödinger Operators with Non-Negative Potentials. Integral Equations and Operator Theory 76(2): 285-300
Ghorbani, A.; Gachpazan, M. 2017: A Spectral Quasilinearization Parametric Method for Nonlinear Two-Point Boundary Value Problems. Bulletin of the Malaysian Mathematical Sciences Society 42(1): 1-13
Hardin, C. 2003: A Spectral Reflectance Doth not a Color make. Journal of Philosophy 100(4): 191-202
Rao, A.S.; Ramaiah, K.D.; Kotha, G.; Rao, M V.S.; Chamkha, A.J. 2021: A Spectral Relaxation Approach for Boundary Layer Flow of Nanofluid past an Exponentially Stretching Surface with Variable Suction in the Presence of Heat Source/Sink with Viscous Dissipation. Arabian Journal for Science and Engineering 46(8): 7509-7520
Tiberi, G.; Bertini, S.; Monorchio, A.; Mazzarella, G.; Montisci, G. 2011: A Spectral Rotation Approach for the Efficient Calculation of the Mutual Coupling Between Rectangular Apertures. IEEE Antennas and Wireless Propagation Letters 10: 131-134
Qiu, C.; Xu, Q. 1994: A Spectral Simple Adjoint Method for Retrieving Low-Altitude Winds from Single-Doppler Data. Journal of Atmospheric and Oceanic Technology 11(4): 927-936
Yıldırım, C.; Yarımpabuç, D.; Tarman, H.I. 2013: A Spectral Solenoidal-Galerkin Method for Rotating Thermal Convection between Rigid Plates. Mathematical Problems in Engineering 2013: 1-8
Clercx, H. 1997: A Spectral Solver for the Navier–Stokes Equations in the Velocity–Vorticity Formulation for Flows with two Nonperiodic Directions. Journal of Computational Physics 137(1): 186-211
El-Amrani, M.; Seaïd, M. 2009: A Spectral Stochastic Semi-Lagrangian Method for Convection-Diffusion Equations with Uncertainty. Journal of Scientific Computing 39(3): 371-393
Yi-Xuan, W.; Hong-Ping, L.; Fu-Qiang, Z.; Jian-Ping, Z.; Ming, D. 1994: A Spectral Study of Intermolecular Hydrogen Bonding for N-methylaniline or Diphenylamine with some Proton Acceptors. Acta Physico-Chimica Sinica 10(03): 217-222
Jia, F.; Gao, Z.; Don, W.S. 2014: A Spectral Study on the Dissipation and Dispersion of the WENO Schemes. Journal of Scientific Computing 63(1): 49-77
Adamjan, V.; Langer, H.; Langer, M. 2001: A Spectral Theory for a λ-Rational Sturm–Liouville Problem. Journal of Differential Equations 171(2): 315-345
Holloway, G. 1978: A Spectral Theory of Nonlinear Barotropic Motion above Irregular Topography. Journal of Physical Oceanography 8(3): 414-427
Lambers, J.V. 2009: A Spectral Time-Domain Method for Computational Electrodynamics. Advances in Applied Mathematics and Mechanics 1(6): 781-798
Wilkening, J.; Cerfon, A. 2015: A Spectral Transform Method for Singular Sturm--Liouville Problems with Applications to Energy Diffusion in Plasma Physics. SIAM Journal on Applied Mathematics 75(2): 350-392
Feast, M.W. 1974: A Spectral Type-Colour Anomaly for Long Period Cepheids in the Magellanic Clouds. Monthly Notices of the Royal Astronomical Society 169(2): 273-278
Doxani, G.; Mitraka, Z.; Gascon, F.; Goryl, P.; Bojkov, B. 2015: A Spectral Unmixing Model for the Integration of Multi-Sensor Imagery: a Tool to Generate Consistent time Series Data. Remote Sensing 7(10): 14000-14018
Karamanos, G.; Karniadakis, G. 2000: A Spectral Vanishing Viscosity Method for Large-Eddy Simulations. Journal of Computational Physics 163(1): 22-50
Aguirre, J.; Rivas, J. 2008: A Spectral Viscosity Method Based on Hermite Functions for Nonlinear Conservation Laws. SIAM Journal on Numerical Analysis 46(2): 1060-1078
Tang, C.; Wu, J.; Hou, Y.; Wang, P.; Li, W. 2016: A Spectral and Spatial Approach of Coarse-to-Fine Blurred Image Region Detection. IEEE Signal Processing Letters 23(11): 1652-1656
Carte, G.; Dušek, J.; Fraunié, P. 1995: A Spectral time Discretization for Flows with Dominant Periodicity. Journal of Computational Physics 120(2): 171-183
Wild, P. 2002: A Spectral-Based Cusum Test of Evolutionary Change. Macroeconomic Dynamics 6(3): 385-407
Niu, H.; Yuan, J. 2020: A Spectral-Correlation-Based Blind Calibration Method for Time-Interleaved ADCs. IEEE Transactions on Circuits and Systems I: Regular Papers 67(12): 5007-5017
Ciambra, F.; Frezza, F.; Pajewski, L.; Schettini, G. 2002: A Spectral-Domain Solution for the Scattering Problem of a Circular Cylinder Buried in a Dielectric Half-Space. Progress In Electromagnetics Research 38: 223-252
Zhang, H.; Wen, A.; Zhang, W.; Zhang, W.; Tu, Z. 2018: A Spectral-Efficient Self-Homodyne-Detected Microwave Photonic Link with an Extended Fiber-Reach. IEEE Photonics Technology Letters 30(19): 1719-1722
Pozrikidis, C. 1999: A Spectral-Element Method for Particulate Stokes Flow. Journal of Computational Physics 156(2): 360-381
An, J.; Shen, J. 2013: A Spectral-Element Method for Transmission Eigenvalue Problems. Journal of Scientific Computing 57(3): 670-688
Shen, Y.; Xiao, L.; Chen, J.; Pan, D. 2019: A Spectral-Spatial Domain-Specific Convolutional Deep Extreme Learning Machine for Supervised Hyperspectral Image Classification. IEEE Access 7: 132240-132252
Patra, S.; Bhardwaj, K.; Bruzzone, L. 2017: A Spectral-Spatial Multicriteria Active Learning Technique for Hyperspectral Image Classification. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 10(12): 5213-5227
Burazerovic, D.; Heylen, R.; Raymaekers, D.; Knaeps, E.; Philippart, C.J.M.; Scheunders, P. 2014: A Spectral-Unmixing Approach to Estimate Water–Mass Concentrations in Case 2 Waters. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 7(8): 3595-3605
Veganzones, M.A.; Grana, M. 2012: A Spectral/Spatial CBIR System for Hyperspectral Images. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 5(2): 488-500
Ganesh, M.; Thompson, T. 2018: A Spectrally Accurate Algorithm and Analysis for a Ginzburg--Landau Model on Superconducting Surfaces. Multiscale Modeling-Simulation 16(1): 78-105
Chen, S.; Shen, J.; Zhang, Z.; Zhou, Z. 2020: A Spectrally Accurate Approximation to Subdiffusion Equations Using the Log Orthogonal Functions. SIAM Journal on Scientific Computing 42(2): A849-A877
Li, X.S.a.X. 2010: A Spectrally Accurate Boundary Integral Method for Interfacial Velocities in Two-dimensional Stokes Flow. Communications in Computational Physics 8(4): 933-946
Sokun, H.U.; Ilter, M.C.; Ikki, S.; Yanikomeroglu, H. 2017: A Spectrally Efficient Signal Space Diversity-Based Two-Way Relaying System. IEEE Transactions on Vehicular Technology 66(7): 6215-6230
Chraiti, M.; Ghrayeb, A.; Assi, C. 2019: A Spectrally Efficient Uplink Transmission Scheme Exploiting Similarity Among Short Bit Blocks. IEEE Transactions on Communications 67(10): 7114-7125
Chen, J.; Zhang, X.; Xing, X.; Ishizaka, J.; Yu, Z. 2017: A Spectrally Selective Attenuation Mechanism‐Based K par Algorithm for Biomass Heating Effect Simulation in the Open Ocean. Journal of Geophysical Research: Oceans 122(12): 9370-9386
Xiao, S.; Wang, T.; Jiang, X.; Wang, B.; Xu, C. 2017: A Spectrally Tunable Plasmonic Photosensor with an Ultrathin Semiconductor Region. Plasmonics 13(3): 897-902
Chew, I.; Kalavally, V.; Tan, C.P.; Parkkinen, J. 2016: A Spectrally Tunable Smart LED Lighting System with Closed-Loop Control. IEEE Sensors Journal 16(11): 4452-4459
Marin-McGee, M.J.; Velez-Reyes, M. 2016: A Spectrally Weighted Structure Tensor for Hyperspectral Imagery. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 9(9): 4442-4449
Bruegge, C.; Chrien, N.; Haner, D. 2001: A Spectralon BRF data base for MISR calibration applications. Remote Sensing of Environment 77(3): 354-366
Hadoux, X.; Jay, S.; Rabatel, G.; Gorretta, N. 2015: A Spectral–Spatial Approach for Hyperspectral Image Classification Using Spatial Regularization on Supervised Score Image. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 8(6): 2361-2369
Zhao, C.; Cheng, H.; Feng, S. 2022: A Spectral–Spatial Change Detection Method Based on Simplified 3-D Convolutional Autoencoder for Multitemporal Hyperspectral Images. IEEE Geoscience and Remote Sensing Letters 19: 1-5
Han, X.; Zhang, H.; Xue, J.; Sun, W. 2022: A Spectral–Spatial Jointed Spectral Super-Resolution and its Application to HJ-1A Satellite Images. IEEE Geoscience and Remote Sensing Letters 19: 1-5
Assmann, A. 2020: A Spectre is Haunting Germany: the Mbembe Debate and the new Antisemitism. Journal of Genocide Research 23(3): 400-411
Rorty, R. 1995: A Spectre is Haunting the Intellectuals. European Journal of Philosophy 3(3): 289-298
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Wick, F.G. 1907: A Spectro-Photometric Study of the Absorbing Power and the Fluorescence of Resorufin. Physical Review (Series I) 24(4): 356-378
Lindqvist, I.; Hartmann, S.; Holtermann, H.; Sörensen, J.S.; Sörensen, N.A. 1951: A Spectro-photometric Study of Aqueous Molybdate Solutions. Acta Chemica Scandinavica 5: 568-577
Nichols, E.L.; Merritt, E. 1904: A Spectro-photometric Study of Fluorescent Solutions Belonging to Lommel's first Class. Physical Review (Series I) 18(6): 403-418
Schoenfeld, I.; Held, S. 1969: A Spectrochemical Method for Determining Rubidium in Sea and Spring Waters. Israel Journal of Chemistry 7(6): 831-833
Woodruff, J.F.; Harris Jr., T.; Canody, L.J. 1956: A Spectrochemical Method for the Determination of Trace Amounts of Silver in Stainless Type Steels. Applied Spectroscopy 10(3): 162-164
Balfour, B.E.; Jukes, D.; Thornton, K. 1966: A Spectrochemical Method for the Determination of Trace Impurities in Metallurgical Materials. Applied Spectroscopy 20(3): 168-171
Masaki, K. 1932: A Spectrochemical Study on the Chemical Constitution of a Reaction Product Between Centralite and Gaseous Nitrogen Peroxide. Dinitrodiphenylethylurea. Bulletin of the Chemical Society of Japan 7(11): 353-362
Parker, G.K.; Hope, G.A. 2019: A Spectroelectrochemical Investigation of the Interaction of Gold with Cyano-Containing Ligands. ECS Transactions 28(6): 223-235
Chen, S.; Ejeh, D.; Levermore, D.; Griffith, H.; Bullen, Y.; Hosten, C.M.; Hambright, P. 1998: A Spectroelectrochemical Investigation of the Reduction of the Water-Soluble Mn TSPP:  SERS Spectra of Mn IITSPP. The Journal of Physical Chemistry B 102(45): 9101-9108
Matsushita, H.; Suzuki, Y.; Sakabe, H. 1965: A Spectrofluorometrical Method for Determination of 3, 4-Benzpyrene in Benzene Solution Contaminated with 3, 4-Benzfluoranthene or 3, 4-Benzfluoranthene and 1, 2-Benzpyrene. INDUSTRIAL HEALTH 3(3-4): 107-120
Khan, A.S.; Ahmad, Z.; Abdullah, J.; Ahmad, F. 2021: A Spectrogram Image-Based Network Anomaly Detection System Using Deep Convolutional Neural Network. IEEE Access 9: 87079-87093
Zahid, L.; Maqsood, M.; Durrani, M.Y.; Bakhtyar, M.; Baber, J.; Jamal, H.; Mehmood, I.; Song, O. 2020: A Spectrogram-Based Deep Feature Assisted Computer-Aided Diagnostic System for Parkinson's Disease. IEEE Access 8: 35482-35495
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Keys, D.A.; Home, M.S. 1926: A Spectrographic Examination of the Striated Discharge in Mixed Gases. Physical Review 27(6): 709-715
Tsuchida, R. 1935: A Spectrographic Method for the Study of Unstable Compounds in Equilibrium. Bulletin of the Chemical Society of Japan 10(1): 27-39
Newell, R.R. 1935: A Spectrographic Method of Measuring Voltage Wave form of a Roentgen Tube. Radiology 24(2): 165-168
Lomb, N.R. 1975: A Spectrographic Study of Beta Centauri. Monthly Notices of the Royal Astronomical Society 172(3): 639-647
Dudley, W.L.; Jones, E.V. 1912: A Spectrographic Study of Tellurium. Journal of the American Chemical Society 34(8): 995-1014
Perrine, J.O. 1923: A Spectrographic Study of Ultra-Violet Fluorescence Excited by X-rays. Physical Review 22(1): 48-57
Sidgreaves, W. 1904: A Spectrographic Study of β Lyræ. Monthly Notices of the Royal Astronomical Society 64(3): 168-182
Murt, E.M. 1956: A Spectrographic Technique for the Determination of Gallium in Micro Samples. Applied Spectroscopy 10(4): 210-213
Amis, E.S.; Overman, R.T. 1944: A Spectrographic and Kinetic Study of the Alkaline Fading of Tetraiodophenolsulfonphthalein. Journal of the American Chemical Society 66(6): 941-945
Benjamin, R.G.; Schwanenflugel, P.J.; Meisinger, E.B.; Groff, C.; Kuhn, M.R.; Steiner, L. 2013: A Spectrographically Grounded Scale for Evaluating Reading Expressiveness. Reading Research Quarterly 48(2): 105-133
Le May, J. 1902: A Spectrometer. School Science and Mathematics 2(1): 32-34
Madey, R. 1968: A Spectrometer for Energetic Neutrons. IEEE Transactions on Nuclear Science 15(3): 426-436
Bohn, C.R.; Freeman, N.K.; Gwinn, W.D.; Hollenberg, J.L.; Pitzer, K.S. 1953: A Spectrometer for the Far Infrared and the Spectrum of 1,2 Dichloroethane. The Journal of Chemical Physics 21(4): 719-721
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McClatchey, R.A.; Shaw, J.H. 1969: A Spectrometric Measurement of the Atmospheric Temperature Above 30 km near Sunrise. Journal of the Atmospheric Sciences 26(6): 1350-1353
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Sasaki, T.; Ishiguro, K. 1963: A Spectrophotometer for Determining Optical Constants in the Vacuum Ultraviolet Region. Japanese Journal of Applied Physics 2(15): 289-304
Seeley, S.W.; Anderson, E.I. 1941: A Spectrophotometer for Measurement of Optical Filters. Review of Scientific Instruments 12(8): 392-395
Brighton, C.T.; Wang, W.; Clark, C.C.; Praestgaard, A. 2013: A Spectrophotometric Analysis of Human Osteoarthritic Cartilage Explants Subjected to Specific Capacitively Coupled Electric Fields. Open Journal of Biophysics 03(02): 158-164
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Hirai, Y.; Yoza, N.; Ohashi, S. 1979: A Spectrophotometric Detector for High-Performance Liquid Chromatography of Inorganic Polyphosphates. Journal of Liquid Chromatography 2(5): 677-685
Crouch Jr., W.H. 1962: A Spectrophotometric Determination of Iodine in Silicate Rocks. Analytical Chemistry 34(13): 1698-1700
Ando, T.; Ueno, K. 1966: A Spectrophotometric Determination of Iron(III) with ω-Amino acetophenone-N,N-diacetic Acid Oxime. Bulletin of the Chemical Society of Japan 39(11): 2400-2405
Kenna, B.T. 1961: A Spectrophotometric Determination of Rhenium. Analytical Chemistry 33(8): 1130-1131
Berman, S.S.; Ironside, R. 1958: A Spectrophotometric Determination of Rhodium with Tin (Ii) Bromide. Canadian Journal of Chemistry 36(8): 1151-1155
Friedjung, M.; Smith, M.G. 1966: A Spectrophotometric Examination of Herstmonceux Spectra of Nova Herculis 1963. Monthly Notices of the Royal Astronomical Society 132(1): 239-254
Kingery, W.D.; Hume, D.N. 1949: A Spectrophotometric Investigation of Bismuth Thiocyanate Complexes. Journal of the American Chemical Society 71(7): 2393-2397
Baes Jr., C.F. 1956: A Spectrophotometric Investigation of Uranyl Phosphate Complex Formation in Perchloric Acid Solution. The Journal of Physical Chemistry 60(7): 878-883
Newman, L.; Quinlan, K.P. 1959: A Spectrophotometric Investigation of Vanadium(V) Species in Acidic Solutions1. Journal of the American Chemical Society 81(3): 547-549
Newman, L.; LaFleur, W.J.; Brousaides, F.J.; Ross, A.M. 1958: A Spectrophotometric Investigation of Vanadium(V) Species in Alkaline Solutions1. Journal of the American Chemical Society 80(17): 4491-4495
Tong, J.Y.; King, E.L. 1954: A Spectrophotometric Investigation of the Cerium(IV)-Chromium(VI) Complex Ion Equilibria in Perchloric Acid Solution1,2,3a. Journal of the American Chemical Society 76(8): 2132-2135
Tong, J.Y.; King, E.L. 1953: A Spectrophotometric Investigation of the Equilibria Existing in Acidic Solutions of Chromium(VI)1-3. Journal of the American Chemical Society 75(24): 6180-6186
Whitney, J.E.; Davidson, N. 1949: A Spectrophotometric Investigation of the Interaction between Antimony (III) and (V)1a,b,c in Hydrochloric Acid Solutions. Journal of the American Chemical Society 71(11): 3809-3816
Benesi, H.A.; Hildebrand, J.H. 1949: A Spectrophotometric Investigation of the Interaction of Iodine with Aromatic Hydrocarbons. Journal of the American Chemical Society 71(8): 2703-2707
Shamsipur, M.; Pouretedal, H.R. 2004: A Spectrophotometric Investigation of the Interaction of Iodine with Dibenzyldiaza-18-crown-6, Aza-15-crown-5 and N-phenylaza-15-crown-5 in Chloroform Solution. Journal of the Chinese Chemical Society 51(1): 119-124
Lee, K.S.; Price, E.O.; Land, J.E. 1956: A Spectrophotometric Investigation of the Niobium Pyrogallol Complex1. Journal of the American Chemical Society 78(7): 1325-1327
Norman, J.D.V.; Osteryoung, R.A. 1962: A Spectrophotometric Method for Determination of Formation Constants of Lead Halide Complexes in Fused Sodium Nitrate-Potassium Nitrate. The Journal of Physical Chemistry 66(8): 1565-1566
Brattain, R.R.; Rasmussen, R.S.; Cravath, A.M. 1943: A Spectrophotometric Method for the Analysis of Multicomponent Mixtures and its Infra‐Red Application. Journal of Applied Physics 14(8): 418-428
Nyman, P.O.; Lindqvist, I.; Kindt-Larsen, T.; Andersen, I.G.K.; Munch-Petersen, J. 1963: A Spectrophotometric Method for the Assay of Carbonic Anhydrase Activity. Acta Chemica Scandinavica 17: 429-435
Gatewood, L.; Graham, H.D. 1961: A Spectrophotometric Method for the Detection and Quantitative Determination of Polyoxyethylene Surface-Active Agents. Analytical Chemistry 33(10): 1393-1396
Çetin, G.; Sungur, S. 2006: A Spectrophotometric Method for the Determination of Lisinopril in Tablet Formulation. Reviews in Analytical Chemistry 25(1): 1-10
Mungall, T.G.; Mitchen, J.H. 1961: A Spectrophotometric Method for the Determination of Moisture and Active Hydrogen. Analytical Chemistry 33(10): 1330-1331
Ang, K. 1958: A Spectrophotometric Method for the Determination of Overlapping Ionization Constants. The Journal of Physical Chemistry 62(9): 1109-1112
Özgür, M..; Sungur, S. 2003: A Spectrophotometric Method for the Determination of Prazosin Hydrochloride in Tablets. Reviews in Analytical Chemistry 22(1): 1-8
Manjubhashini, A.; Raman, G.; Kumar, A.S. 2003: A Spectrophotometric Method for the Determination of Propoxur. Physics and Chemistry of Liquids 41(1): 81-85
El-Bayoumi, M.A.; Frieden, E. 1957: A Spectrophotometric Method for the Determination of the Catecholase Activity of Tyrosinase and Some of its Applications1. Journal of the American Chemical Society 79(18): 4854-4858
Nakazato, T.; Nakamoto, T.; Umemura, M. 2003: A Spectrophotometric Method to Determine the Inclination of Class i Objects. The Astrophysical Journal 583(1): 322-329
McBryde, W.A.E. 1964: A Spectrophotometric Reexamination of the Spectra and Stabilities of the Iron (Iii) – Tiron Complexes. Canadian Journal of Chemistry 42(8): 1917-1927
Yoon, J.H.; Schawinski, K.; Sheen, Y.; Ree, C.H.; Yi, S.K. 2008: A Spectrophotometric Search for Galaxy Clusters in SDSS. The Astrophysical Journal Supplement Series 176(2): 414-423
Sun, P.; Liu, C. 1972: A Spectrophotometric Study OE Zirconium Complexes of 4,5-Dihydroxyfluorescein. Journal of the Chinese Chemical Society 19(1): 35-40
Larsson, L.; Mogensen, S.; Gasparetto, G.; Finsnes, E.; Sörensen, J.S.; Sörensen, N.A. 1952: A Spectrophotometric Study in Infra-Red of the Hydrolysis of Dimethylamido-ethoxy-phosphoryl Cyanide (Tabun). Acta Chemica Scandinavica 6: 1470-1476
McCusker, P.A.; Kennard, S.M.S.; C., C. 1959: A Spectrophotometric Study of Anhydrous Iron(III) Chloride and Tetrachloroferric(III) Acid in Dioxane and other Ethers1,2. Journal of the American Chemical Society 81(12): 2976-2982
Fortune, W.B.; Mellon, M.G. 1938: A Spectrophotometric Study of Certain Neutralization Indicators1. Journal of the American Chemical Society 60(11): 2607-2610
Holloway, F. 1952: A Spectrophotometric Study of Chromate- Phosphate Complexes in Solution. Journal of the American Chemical Society 74(1): 224-227
Leussing, D.L.; Mislan, J.P. 1960: A Spectrophotometric Study of Complex Formation by Iron(Iii) and 2,3-Dimercapto-1-Propanol in Alkaline Solutions. The Journal of Physical Chemistry 64(12): 1908-1910
Kruh, R. 1954: A Spectrophotometric Study of Copper Halide Complexes. Journal of the American Chemical Society 76(19): 4865-4867
Sugasaka, K.; Fujii, A. 1976: A Spectrophotometric Study of Copper(I) Chloro-Complexes in Aqueous 5M Na(Cl, Cl O4) Solutions. Bulletin of the Chemical Society of Japan 49(1): 82-86
Haight Jr., G.P.; Richardson, D.C.; Coburn, N.H. 1964: A Spectrophotometric Study of Equilibria Involving Mononuclear Chromium(VI) Species in Solutions of Various Acids. Inorganic Chemistry 3(12): 1777-1780
Paruthi, H.K.; Tyagi, J.S.; Taneja, A.D. 1975: A Spectrophotometric Study of Fe(III) Chelates of Some Hydroxy Coumarin Derivatives. Journal of the Chinese Chemical Society 22(4): 367-373
Baldwin, S.; Svirbely, W.J. 1949: A Spectrophotometric Study of Ferric Thiocyanate in Isodielectric Mixtures of Various Aqueous--non-Aqueous Solvent Pairs. Journal of the American Chemical Society 71(10): 3326-3329
Faye, G.H. 1966: A Spectrophotometric Study of Hexa-, Penta-, and Tetra- Coordinated Halogenocopper(Ii) Complexes in Acetone – Hydrohalic Acid Mixtures. Canadian Journal of Chemistry 44(14): 1643-1653
Sakai, T. 1970: A Spectrophotometric Study of Indoferron as a Color Reagent for Zirconium(IV) and Iron(III). Bulletin of the Chemical Society of Japan 43(10): 3171-3175
Buckles, R.E.; Mills, J.F. 1954: A Spectrophotometric Study of Iodine Chloride in Various Solvents1. Journal of the American Chemical Society 76(19): 4845-4849
Aly, M.K. 1947: A Spectrophotometric Study of Maxima in the Emission Lines of Nova Herculis 1934. Monthly Notices of the Royal Astronomical Society 107(3): 316-330
Allen, J.F.; Neumann, H.M. 1964: A Spectrophotometric Study of Molybdenum(V) and Molybdenum(VI) in Hydrobromic Acid. Inorganic Chemistry 3(11): 1612-1618
Ray, G.B.; Paff, G.H. 1930: A Spectrophotometric Study of Muscle Hemoglobin. American Journal of Physiology-Legacy Content 94(3): 521-528
Aluker, N.L.; Herrmann, M.E.; Suzdaltseva, Y.M. 2019: A Spectrophotometric Study of Nitrate and Nitrite Salts and their Aqueous Solutions. Optics and Spectroscopy 127(6): 991-996
Ohashi, K.; Yasu, K.; Suzuki, C.; Yamamoto, K. 1977: A Spectrophotometric Study of Phosphomolybdenum Blue Formed by the Reaction of Phosphate with a Mixture of Molybdenum(V) (Mo2O42+) and Molybdenum(VI) and Application to the Spectrophotometric Determination of Small Amounts of Phosphates. Bulletin of the Chemical Society of Japan 50(12): 3202-3205
Juknelevicius, D.; Mikoliunaite, L.; Sakirzanovas, S.; Kubilius, R.; Ramanavicius, A. 2014: A Spectrophotometric Study of Red Pyrotechnic Flame Properties Using Three Classical Oxidizers: Ammonium Perchlorate, Potassium Perchlorate, Potassium Chlorate. Zeitschrift für anorganische und allgemeine Chemie 640(12-13): 2560-2565
Shull, C.A. 1929: A Spectrophotometric Study of Reflection of Light from Leaf Surfaces. Botanical Gazette 87(5): 583-607
Moore, B.E. 1906: A Spectrophotometric Study of Solutions of Copper and Cobalt. Physical Review (Series I) 23(5): 321-357
Perrin, D.D. 1958: A Spectrophotometric Study of Some Molybdenum Thiocyanate Complexes. Journal of the American Chemical Society 80(14): 3540-3547
Mitic, S.S.; Miletic, G.Z.; Kostic, D.A.; Rasic, I.D. 2011: A Spectrophotometric Study of Streptomycin Effect on the Clinical Urea Determination. Chinese Journal of Chemistry 29(1): 135-142
Flagg, J.F.; Liebhafsky, H.A.; Winslow, E.H. 1949: A Spectrophotometric Study of Three Zirconium Lakes. Journal of the American Chemical Society 71(11): 3630-3632
Sekine, T.; Tosaka, T. 1980: A Spectrophotometric Study of Tributyl Phosphate Adducts of Three Bis(β-diketonato)copper(II) Complexes in Carbon Tetrachloride. Bulletin of the Chemical Society of Japan 53(6): 1547-1549
Ibers, J.A.; Davidson, N. 1950: A Spectrophotometric Study of Tripositive Manganese in Hydrochloric Acid Solution1a. Journal of the American Chemical Society 72(10): 4744-4748
Marcus, Y.; Shiloh, M. 1969: A Spectrophotometric Study of Trivalent Actinide Complexes in Solution. IV. Americium with Chloride Ligands. Israel Journal of Chemistry 7(1): 31-43
Shiloh, M.; Marcus, Y. 1965: A Spectrophotometric Study of Trivalent Actinide Complexes in Solution.: I. Uranium. Israel Journal of Chemistry 3(4): 123-131
Otomo, M. 1965: A Spectrophotometric Study of Xylenol Orange as a Color Reagent for Beryllium. Bulletin of the Chemical Society of Japan 38(5): 730-734
Wick, F.G. 1914: A Spectrophotometric Study of the Absorption, Fluorescence, and Surface Color of Magnesium Plantinum Cyanide. Physical Review 3(5): 382-395
Hill, T.L.; Branch, G.E.K.; Patapoff, M. 1945: A Spectrophotometric Study of the Anhydro Base of Viridine Green. Journal of the American Chemical Society 67(3): 454-463
Newman, L.; Hume, D.N. 1957: A Spectrophotometric Study of the Bismuth-Chloride Complexes1. Journal of the American Chemical Society 79(17): 4576-4581
Leussing, D.L.; Mislan, J.P.; Goll, R.J. 1960: A Spectrophotometric Study of the Bleaching of Ferric Cysteinate. The Journal of Physical Chemistry 64(8): 1070-1073
Haring, M.M.; Heller, H.A. 1941: A Spectrophotometric Study of the Characteristics of Some Halogen Substituted Sulfonphthalein Indicators. Journal of the American Chemical Society 63(4): 1024-1027
Liu, C.; Sun, P. 1976: A Spectrophotometric Study of the Chelate of Iron (III) with Sorbohydroxamic Acid and its Analytical Application. Journal of the Chinese Chemical Society 23(4): 219-227
Lin, Z.; Chang, C.; Ip, W. 2007: A Spectrophotometric Study of the Coma of Comet C/2001 A2 (LINEAR). The Astronomical Journal 133(5): 1861-1867
Ogawa, K.; Tobe, N. 1966: A Spectrophotometric Study of the Complex Formation between Iron(III) and Salicylic Acid. Bulletin of the Chemical Society of Japan 39(2): 227-232
Ogawa, K.; Tobe, N. 1966: A Spectrophotometric Study of the Complex Formation between Iron(III) and Sulfosalicylic Acid. Bulletin of the Chemical Society of Japan 39(2): 223-227
Bengtsson, G.; Grenthe, I.; Hessler, G.; Liaaen-Jensen, S.; Enzell, C.R.; Swahn, C. 1973: A Spectrophotometric Study of the Complex Formation between Vanadium(V) and Hydroxylamine in Strongly Acidic Perchlorate Solutions. Acta Chemica Scandinavica 27: 2554-2558
Sanyal, P.; Sangal, S.P.; Mushran, S.P. 1967: A Spectrophotometric Study of the Complex Formation of Vanadium(IV) with Chrome Azurol S. Bulletin of the Chemical Society of Japan 40(1): 217-221
Newton, T.W.; Arcand, G.M. 1953: A Spectrophotometric Study of the Complex Formed between Cerous and Sulfate Ions1. Journal of the American Chemical Society 75(10): 2449-2453
Hefley, J.D.; Amis, E.S. 1960: A Spectrophotometric Study of the Complexes Formed Between Uranyl and Chloride Ions in Water and Water-Ethanol Solvents. The Journal of Physical Chemistry 64(7): 870-872
Melton, S.L.; Amis, E.S. 1963: A Spectrophotometric Study of the Complexes Formed between Uranyl and Thiosulfate Ions in Water and Water-Ethanol Solvents. Analytical Chemistry 35(11): 1626-1630
Ouchi, A.; Takeuchi, T.; Taminaga, I. 1970: A Spectrophotometric Study of the Formation and Thermochromism of the Nickel(II)-Piperidine Complexes in N,N-Dimethylformamide Solutions. Bulletin of the Chemical Society of Japan 43(8): 2609-2612
Bruner, B.L.; Corbett, J.D. 1964: A Spectrophotometric Study of the Gaseous Equilibrium between Cadmium and Cadmium(II) Chloride1. The Journal of Physical Chemistry 68(5): 1115-1121
Siirola, J.J.; Ragsdale, R.O. 1965: A Spectrophotometric Study of the Geometrical Isomers of Tris(2-picolylamine)nickel(II) Chloride. Inorganic Chemistry 4(5): 760-761
Liebhafsky, H.A.; Winslow, E.H. 1947: A Spectrophotometric Study of the Hafnium- Alizarin Lake. Journal of the American Chemical Society 69(5): 1130-1134
Li Chu, T.; Weismann, T.J. 1954: A Spectrophotometric Study of the Homolytic Dissociation of Tetrafluorenylhydrazine1. Journal of the American Chemical Society 76(14): 3787-3790
Scheffer, E.R.; Hammaker, E.M. 1950: A Spectrophotometric Study of the Hydrolysis Products, Some Possible Complexes and Metal Salts of Fluoroboric Acid1. Journal of the American Chemical Society 72(12): 5607-5609
Moore, B.E. 1901: A Spectrophotometric Study of the Hydrolysis of Dilute Ferric Chloride Solutions. Physical Review (Series I) 12(3): 151-176
Siddall Iii, T.H.; Vosburgh, W.C. 1951: A Spectrophotometric Study of the Hydrolysis of Iron (III) Ion1. Journal of the American Chemical Society 73(9): 4270-4272
Milburn, R.M.; Vosburgh, W.C. 1955: A Spectrophotometric Study of the Hydrolysis of Iron(III) Ion. II. Polynuclear Species1. Journal of the American Chemical Society 77(5): 1352-1355
Milburn, R.M. 1957: A Spectrophotometric Study of the Hydrolysis of Iron(III) Ion. III. Heats and Entropies of Hydrolysis. Journal of the American Chemical Society 79(3): 537-540
Rabideau, S.W.; Kline, R.J. 1960: A Spectrophotometric Study of the Hydrolysis of Plutonium(Iv)1. The Journal of Physical Chemistry 64(5): 680-682
Burns, E.A.; Hume, D.N. 1957: A Spectrophotometric Study of the Indium-Bromide Complex Ions1. Journal of the American Chemical Society 79(11): 2704-2711
Buckles, R.E.; Womer, W.D. 1958: A Spectrophotometric Study of the Interaction of Bromine with Tetrakis-(p-methoxyphenyl)-ethylene1. Journal of the American Chemical Society 80(19): 5055-5058
Shuba, R.J.; Zenchelsky, S.T. 1960: A Spectrophotometric Study of the Interactions of Some Lewis Acids with Bases in Organic Solvents1. Journal of the American Chemical Society 82(16): 4136-4140
Hartman., L.W. 1903: A Spectrophotometric Study of the Luminous Radiation from the Nernst Lamp Glower under Varying Current Density. Physical Review (Series I) 17(2): 65-90
Newman, L.; Hume, D.N. 1957: A Spectrophotometric Study of the Mixed Ligand Complexes of Bismuth with Chloride and Bromide1. Journal of the American Chemical Society 79(17): 4581-4585
Dunicz, B.; Thomas, T.; Pee, M.V.; Livingston, R. 1951: A Spectrophotometric Study of the Molisch Phase Test of Chlorophyll. Journal of the American Chemical Society 73(7): 3388-3390
Brown, S.A.; Land, J.E. 1959: A Spectrophotometric Study of the Niobium Catecholato Complexes1. Journal of the American Chemical Society 81(13): 3185-3187
Ayers, O.E.; Land, J.E. 1961: A Spectrophotometric Study of the Niobium Sulfosalicylato Complexes1. The Journal of Physical Chemistry 65(1): 145-147
Wallace, R.M.; Dukes, E.K. 1961: A Spectrophotometric Study of the Reaction Between Ferric Ion and Hydrazoic Acid1. The Journal of Physical Chemistry 65(11): 2094-2097
Lanford, O.E.; Quinan, J.R. 1948: A Spectrophotometric Study of the Reaction of Ferric Iron and Citric Acid. Journal of the American Chemical Society 70(9): 2900-2903
Miller, J.M.; Pobiner, H. 1964: A Spectrophotometric Study of the Reactions of p-Nitrotoluene in Basic Solution. Analytical Chemistry 36(1): 238-239
Spiro, T.G.; Hume, D.N. 1963: A Spectrophotometric Study of the Saturated Mixed Complexes of Mercury(II)-Bromide-Iodide. Inorganic Chemistry 2(2): 340-345
Nauman, R.V.; West, P.W.; Tron, F.; Gaeke, G.C. 1960: A Spectrophotometric Study of the Schiff Reaction as Applied to the Quantitative Determination of Sulfur Dioxide. Analytical Chemistry 32(10): 1307-1311
Heal, H.G.; May, J. 1958: A Spectrophotometric Study of the Stability of Lead(IV) in Hydrochloric Acid Solutions1. Journal of the American Chemical Society 80(10): 2374-2377
Eyal, E.; Treinin, A. 1964: A Spectrophotometric Study of the System I2 + Br-. Journal of the American Chemical Society 86(20): 4287-4290
Herrington, K.; Kingsbury, D.E. 1957: A Spectrophotometric Study of the System Titanium(IV)-Peroxide-Fluoride. Journal of the American Chemical Society 79(22): 5893-5895
Burns, E.A.; Whiteker, R.A. 1957: A Spectrophotometric Study of the Thallium(III) Nitrate Complex. Journal of the American Chemical Society 79(4): 866-870
Miyata, H. 1967: A Spectrophotometric Study of the Thorium Complex of 2-(1, 8-Dihydroxy-3, 6-disulfo-2-naphthylazo)-mandelic Acid. Bulletin of the Chemical Society of Japan 40(12): 2815-2818
Miyata, H. 1967: A Spectrophotometric Study of the Thorium Complex of 2-(1, 8-Dihydroxy-3, 6-disulfo-2-naphthylazo)-phenoxyacetic Acid. Bulletin of the Chemical Society of Japan 40(8): 1875-1878
Tôei, K.; Miyata, H.; Kimura, H. 1967: A Spectrophotometric Study of the Thorium Complexes ofo-,m-, andp-Nitrophenyl-azo-chromotropic Acids. Bulletin of the Chemical Society of Japan 40(9): 2085-2089
Shimoishi, Y. 1969: A Spectrophotometric Study of the Uranyl Chelate of 2-(1,8-Dihydroxy-3,6-disulfo-2-naphthylazo)-phenoxyacetic Acid. Bulletin of the Chemical Society of Japan 42(3): 690-693
Näsänen, R.; Lindner, R.; Sillén, L.G.; Rottenberg, M. 1950: A Spectrophotometric Study on Complex Formation in Dilute Aqueous Solution of Cupric Bromide. Acta Chemica Scandinavica 4: 816-820
Srivastav, K.; Malathi, M. 1975: A Spectrophotometric Study on Complex Formation of Chromium (VI) with Glycine Thymol Blue. Journal of the Chinese Chemical Society 22(2): 145-149
Dhupar, S.C.; Srivastava, K.C.; Banerji, S.K. 1972: A Spectrophotometric Study on Complex Formation of Nickel (II) and Cobalt (II) with Bromopyrogallol Red. Journal of the Chinese Chemical Society 19(4): 203-206
Srivastava, K.C.; Rao, P.A. 1975: A Spectrophotometric Study on Complex Formation of Tungsten (VI) with Glycine Cresol Red. Journal of the Chinese Chemical Society 22(4): 355-357
Majee, B.; Chakravarti, S.K. 1968: A Spectrophotometric Study on o′-Carbomethoxy p-Dimethylamino-azobenzene (Me-ester of Methyl Red). Zeitschrift für Physikalische Chemie 57(1_2): 89-98
Brody, S.; Fernö, O.; Fex, H.; Högberg, B.; Linderot, T.; Rosenberg, T. 1953: A Spectrophotometric Study on the Deoxypentose Nucleic Acid - Cysteine Reaction. Acta Chemica Scandinavica 7: 502-506
Tôei, K.; Miyata, H.; Harada, T. 1967: A Spectrophotometric Study on the Thorium Complex ofo-Carboxyphenyl-azo-chromotropic Acid. Bulletin of the Chemical Society of Japan 40(5): 1141-1145
Toei, K.; Miyata, H.; Nakashima, S.; Kiguchi, S. 1967: A Spectrophotometric Study on the Thorium Complex ofo-Hydroxyphenyl-azo-chromotropic Acid. Bulletin of the Chemical Society of Japan 40(5): 1145-1147
Likkel, L.; Dinerstein, H.L.; Lester, D.F.; Kindt, A.; Bartig, K. 2006: A Spectrophotometric Survey of K-Band Emission Lines in Planetary Nebulae. The Astronomical Journal 131(3): 1515-1529
Oetiker, B.; Duric, N.; McGraw, J.; McGrath, M. 2001: A Spectrophotometric Technique for Detecting Companions of Low‐Mass M Dwarfs. Publications of the Astronomical Society of the Pacific 113(784): 703-714
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Norman, J.D.v.; Bookless, J.S.; Egan, J.J. 1966: A Spectrophotometric and Chronopotentiometric Study of the Lead-Lead Chloride and the Zinc-Zinc Chloride Systems1. The Journal of Physical Chemistry 70(4): 1276-1281
Bag, S.P.; Fernando, Q.; Freiser, H. 1963: A Spectrophotometric and Potentiometric Study of Certain Metal Chelates of Pyridine-2,6-dialdoxime. Analytical Chemistry 35(6): 719-722
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Chowdhury, S.; Bhuiya, S.; Haque, L.; Das, S. 2020: A Spectroscopic Approach towards the Comparative Binding Studies of the Antioxidizing Flavonol Myricetin with Various Single‐Stranded RNA. ChemistrySelect 5(45): 14430-14437
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