Snyder, G. Jeffrey
- Kang, Stephen Dongmin (2018) Charge Transport Analysis Using the Seebeck Coefficient-Conductivity Relation; 10.7907/ZAQP-MN67
- Ohno, Saneyuki (2017) Phase Boundary Mapping for Exploring New Thermoelectric Zintl Compounds; 10.7907/Z9H70CWG
- Bajaj, Saurabh (2016) Phase Diagrams and Defect Thermodynamics to Devise Doping Strategies in Lead Chalcogenide Thermoelectric Materials and its Alloys; 10.7907/Z9DF6P6N
- Kim, Hyun-Sik (2016) Thermoelectric Properties of Bismuth Antimony Telluride Alloys; 10.7907/Z9RN35V0
- Tang, Yinglu (2016) Thermoelectric Skutterudites: Why and How High zT Can Be Achieved; 10.7907/Z9TD9VB1
- Brown, David Ross (2015) Enhanced Thermoelectric Performance at the Superionic Phase Transitions of Mixed Ion-Electron Conducting Materials; 10.7907/Z9B56GNM
- Day, Tristan William (2015) Superionic Noble Metal Chalcogenide Thermoelectrics; 10.7907/Z9862DCD
- Gibbs, Zachary Michael (2015) Band Engineering in Thermoelectric Materials Using Optical, Electronic, and Ab-Initio Computed Properties; 10.7907/Z9XS5S9Z
- Demers, Steven Brian (2014) Advanced Density Functional Theory Methods tor Materials Science; 10.7907/KNJR-6F80
- Wang, Heng (2014) High Temperature Transport Properties of Lead Chalcogenides and Their Alloys; 10.7907/BBQ6-8X60
- Zevalkink, Alexandra (2014) Chain-Forming Zintl Antimonidcs as Novel Thermoelectric Materials; 10.7907/YDSW-A554
- Heinz, Nicholas A. (2014) Microstructure Control and Iodine Doping of Bismuth Telluride; 10.7907/HKX2-QG08
- Pomrehn, Gregory Schoelerman (2013) Phase Stability and Defect Behavior in Complex Thermoelectric Zinc-Antimonides; 10.7907/0AWH-4P69
- Chueh, William C. (2011) Electrochemical and Thermochemical Behavior of CeO₂-δ; 10.7907/EBKT-ET32
- May, Andrew Friedrich (2010) High-Temperature Transport in Lanthanum Telluride and Other Modern Thermoelectric Materials; 10.7907/W5AZ-JF32