Snyder, G. Jeffrey - Northwestern University - Department of Materials Science and Engineering

个人简介

Ph.D Applied Physics, Stanford University, Stanford, CA M.S. Applied Physics, Stanford University, Stanford, CA B.A. Cornell University, Ithaca, NY EDUCATION Stanford University, Stanford CA Ph. D. 1997 Department of Applied Physics M. S. 1994 Thesis title: Magnetic and Electronic Transport Properties of Magnetoresistive Lanthanum Calcium Manganite Advisor: Theodore H. Geballe Cornell University, Ithaca NY B. A. 1991 Magna Cum Laude Chemistry Magna Cum Laude Physics Cum Laude Mathematics HONORS International Thermoelectric Society. Treasurer, board of directors 2007-14 International Academy of Refrigeration. Elected as academician 2014 International Thermoelectric Academy. Elected as vice president 2013 CAS International Cooperation Award for Young Scientists 2012 Visiting Professorship, Chinese Academy of Sciences 2009- NASA TechBrief (15), Space Act (2), Patent awards ‘99-2012 Ross Tucker memorial award 1996 Fanny and John Hertz Fellow ‘91-1996 EXPERIENCE Northwestern University 2015-present Professor of Materials Science and Engineering California Institute of Technology 2006-2014 Faculty Associate in Materials Science California Polytechnic University, Pomona CA 2005-9 Adjunct Professor and Lecturer in Chemical and Materials Science Jet Propulsion Laboratory, California Institute of Technology 1997-2006 Senior Member of Technical Staff Department of Applied Physics, Stanford U., Stanford, CA 1991-1997 Fanny and John Hertz Fellow Max-Planck-Institut für Festkörperforschung, Stuttgart, Germany 1992-1993 Visiting Scholar

研究领域

Nanomaterials for thermoelectrics; band structure engineering of thermoelectric materials; zintl materials for thermoelectric power generation; solid-state physics and themodynamics of thermoelectric materials; thermoelectric engineering; transport measurements at elevated temperatures; energy efficiency.

近期论文

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G. J. Snyder et al., "Weighted Mobility," Advanced Materials, 2001537 (2020) M. T. Dylla, S. D. Kang, and G. J. Snyder, "Effect of Two-Dimensional Crystal Orbitals on Fermi Surfaces and Electron Transport in Three-Dimensional Perovskite Oxides," Angewandte Chemie-International Edition, 58, 5503 (2019) S. D. Kang, M. Dylla, G. J. Snyder, “Thermopower-conductivity relation for distinguishing transport mechanisms: Polaron hopping in CeO2 and band conduction in SrTiO3” Physical Review B 97, 235201 (2018) S. A. Miller et al., “Empirical modeling of dopability in diamond-like semiconductors” npj Computational Materials 4, (2018) Z.M. Gibbs, Francesco Ricci, Guodong Li, Hong Zhu, K. Persson, G. Ceder, Geoffroy Hautier, Anubhav Jain, G.J. Snyder "Effective mass and Fermi surface complexity factor from ab initio band structure calculations" NPJ Computational Materials 3, 8 (2017) Stephen D. Kang and G. J. Snyder "Charge-Transport Model for Conducting Polymers" Nature Materials 16, 252 (2017) Zachary M. Gibbs , Hyun-Sik Kim , Heng Wang , and G. Jeffrey Snyder “Band gap estimation from temperature dependent Seebeck measurement—Deviations from the 2e|S|maxTmax relation” Applied Physics Letters 106, 022112 (2015) Tristan Day, Wolfgang Zeier, David Brown, Brent Melot, G. J. Snyder “Determining Conductivity and Mobility Values of Individual Components in Multiphase Composite Cu1.97Ag0.03Se” Applied Physics Letters 105, 172103 (2014) AIP Press Release MRS Bulletin R. Gurunathan, R. Hanus, and G. J. Snyder, “Alloy scattering of phonons” Materials Horizons (2020) R. Gurunathan, R. Hanus, M. Dylla, A. Katre, and G. J. Snyder, "Analytical Models of Phonon-Point-Defect Scattering," Physical Review Applied, 13, 034011 (2020) M. T. Agne, P.W. Voorhees, G.J. Snyder “Phase Transformation Contributions to Heat Capacity and Impact on Thermal Diffusivity, Thermal Conductivity, and Thermoelectric Performance” Advanced Materials 31 1902980 (2019) G. J. Snyder, M. T. Agne, and R. Gurunathan, "Thermal conductivity of complex materials," National Science Review, 6, 380 (2019) R. Hanus, A. Garg, G. J. Snyder, “Phonon diffraction and dimensionality crossover in phonon-interface scattering” Communications Physics, 1, 78 (2018) M. T. Agne, R. Hanus, G. J. Snyder, “Minimum thermal conductivity in the context of diffuson-mediated thermal transport” Energy & Environmental Science 11, 609 (2018) M. T. Agne, G.J. Snyder, et al “Heat Capacity of Mg3Sb2, Mg3Bi2, and their alloys at high temperature” Materials Today Physics 6, 83 (2018) Hyun Sik Kim, Zachary Gibbs, Yinglu Tang, heng wang, and G. Snyder “Characterization of Lorenz number with Seebeck coefficient measurement” APL Materials 3 041506 (2015) D. Xu, R. Hanus, Y. Xiao, S. Wang, G. J. Snyder, and Q. Hao, "Thermal boundary resistance correlated with strain energy in individual Si film-wafer twist boundaries," Materials Today Physics, 6, 53-59, (2018) Samuel A. Miller et al., “Capturing Anharmonicity in a Lattice Thermal Conductivity Model for High-Throughput Predictions” Chemistry of Materials 29, 2494-2501 (2017) G. J. Snyder, A. H. Snyder, “Figure of merit ZT of a thermoelectric device defined from materials properties” Energy & Environmental Science 10, 2280 (2017) G. Jeffrey Snyder, E. S. Toberer, Raghav Khanna, Wolfgang Seifert, “Improved Thermoelectric Cooling Based on the Thomson Effect” Physical Review B 86, 045202 (2012). Also Tri-Technology Device Refrigeration, (2016), vol. 9821