G. Jeffrey Snyder
G. Jeffrey Snyder
Verified email at northwestern.edu - Homepage
Cited by
Cited by
Complex thermoelectric materials
GJ Snyder, ES Toberer
materials for sustainable energy: a collection of peer-reviewed research and …, 2011
Enhancement of thermoelectric efficiency in PbTe by distortion of the electronic density of states
JP Heremans, V Jovovic, ES Toberer, A Saramat, K Kurosaki, ...
Science 321 (5888), 554-557, 2008
Convergence of electronic bands for high performance bulk thermoelectrics
Y Pei, X Shi, A LaLonde, H Wang, L Chen, GJ Snyder
Nature 473 (7345), 66-69, 2011
Copper ion liquid-like thermoelectrics
H Liu, X Shi, F Xu, L Zhang, W Zhang, L Chen, Q Li, C Uher, T Day, ...
Nature materials 11 (5), 422, 2012
Ultrahigh power factor and thermoelectric performance in hole-doped single-crystal SnSe
LD Zhao, G Tan, S Hao, J He, Y Pei, H Chi, H Wang, S Gong, H Xu, ...
Science 351 (6269), 141-144, 2016
Dense dislocation arrays embedded in grain boundaries for high-performance bulk thermoelectrics
SI Kim, KH Lee, HA Mun, HS Kim, SW Hwang, JW Roh, DJ Yang, ...
Science 348 (6230), 109-114, 2015
Band engineering of thermoelectric materials
Y Pei, H Wang, GJ Snyder
Advanced materials 24 (46), 6125-6135, 2012
Intrinsic electrical transport and magnetic properties of La 0.67 Ca 0.33 Mn O 3 and La 0.67 Sr 0.33 Mn O 3 MOCVD thin films and bulk material
GJ Snyder, R Hiskes, S DiCarolis, MR Beasley, TH Geballe
Physical Review B 53 (21), 14434, 1996
Disordered zinc in Zn 4 Sb 3 with phonon-glass and electron-crystal thermoelectric properties
GJ Snyder, M Christensen, E Nishibori, T Caillat, BB Iversen
Nature materials 3 (7), 458-463, 2004
Yb14MnSb11:  New High Efficiency Thermoelectric Material for Power Generation
SR Brown, SM Kauzlarich, F Gascoin, GJ Snyder
Chemistry of materials 18 (7), 1873-1877, 2006
Thermoelectric efficiency and compatibility
GJ Snyder, TS Ursell
Physical review letters 91 (14), 148301, 2003
Characterization of Lorenz number with Seebeck coefficient measurement
HS Kim, ZM Gibbs, Y Tang, H Wang, GJ Snyder
APL materials 3 (4), 041506, 2015
High thermoelectric figure of merit in heavy hole dominated PbTe
Y Pei, A LaLonde, S Iwanaga, GJ Snyder
Energy & Environmental Science 4 (6), 2085-2089, 2011
Zintl chemistry for designing high efficiency thermoelectric materials
ES Toberer, AF May, GJ Snyder
Chemistry of Materials 22 (3), 624-634, 2010
Thermoelectric microdevice fabricated by a MEMS-like electrochemical process
GJ Snyder, JR Lim, CK Huang, JP Fleurial
Nature materials 2 (8), 528-531, 2003
Phonon engineering through crystal chemistry
ES Toberer, A Zevalkink, GJ Snyder
Journal of Materials Chemistry 21 (40), 15843-15852, 2011
Compromise and Synergy in High‐Efficiency Thermoelectric Materials
T Zhu, Y Liu, C Fu, JP Heremans, JG Snyder, X Zhao
Advanced Materials 29, 1605884, 2017
High thermoelectric performance in PbTe due to large nanoscale Ag2Te precipitates and La doping
Y Pei, J Lensch‐Falk, ES Toberer, DL Medlin, GJ Snyder
Advanced Functional Materials 21 (2), 241-249, 2011
High thermoelectric performance in non‐toxic earth‐abundant copper sulfide
Y He, T Day, T Zhang, H Liu, X Shi, L Chen, GJ Snyder
Advanced Materials 26 (23), 3974-3978, 2014
Heavily doped p‐type PbSe with high thermoelectric performance: an alternative for PbTe
H Wang, Y Pei, AD LaLonde, GJ Snyder
Advanced Materials 23 (11), 1366-1370, 2011
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