Thermoelectrics: basic principles and new materials developments GS Nolas, J Sharp, J Goldsmid Springer Science & Business Media, 2013 | 2939 | 2013 |
Skutterudites: A phonon-glass-electron crystal approach to advanced thermoelectric energy conversion applications GS Nolas, DT Morelli, TM Tritt Annual Review of Materials Science 29 (1), 89-116, 1999 | 1239 | 1999 |
Semiconducting Ge clathrates: Promising candidates for thermoelectric applications GS Nolas, JL Cohn, GA Slack, SB Schujman Applied Physics Letters 73 (2), 178-180, 1998 | 1191 | 1998 |
Glasslike heat conduction in high-mobility crystalline semiconductors JL Cohn, GS Nolas, V Fessatidis, TH Metcalf, GA Slack Physical Review Letters 82 (4), 779, 1999 | 792 | 1999 |
Effect of partial void filling on the lattice thermal conductivity of skutterudites GS Nolas, JL Cohn, GA Slack Physical Review B 58 (1), 164, 1998 | 720 | 1998 |
High figure of merit in partially filled ytterbium skutterudite materials GS Nolas, M Kaeser, RT Littleton, TM Tritt Applied Physics Letters 77 (12), 1855-1857, 2000 | 716 | 2000 |
Recent developments in bulk thermoelectric materials GS Nolas, J Poon, M Kanatzidis MRS bulletin 31 (3), 199-205, 2006 | 639 | 2006 |
The effect of rare‐earth filling on the lattice thermal conductivity of skutterudites GS Nolas, GA Slack, DT Morelli, TM Tritt, AC Ehrlich Journal of Applied Physics 79 (8), 4002-4008, 1996 | 605 | 1996 |
Enhanced Seebeck coefficient through energy-barrier scattering in PbTe nanocomposites J Martin, L Wang, L Chen, GS Nolas Physical Review B—Condensed Matter and Materials Physics 79 (11), 115311, 2009 | 576 | 2009 |
Structural properties and thermal conductivity of crystalline Ge clathrates GS Nolas, TJR Weakley, JL Cohn, R Sharma Physical Review B 61 (6), 3845, 2000 | 281 | 2000 |
High figure of merit in Eu-filled CoSb3-based skutterudites GA Lamberton Jr, S Bhattacharya, RT Littleton IV, MA Kaeser, ... Applied physics letters 80 (4), 598-600, 2002 | 278 | 2002 |
Better thermoelectrics through glass-like crystals M Beekman, DT Morelli, GS Nolas Nature materials 14 (12), 1182-1185, 2015 | 275 | 2015 |
Model of transport properties of thermoelectric nanocomposite materials A Popescu, LM Woods, J Martin, GS Nolas Physical Review B—Condensed Matter and Materials Physics 79 (20), 205302, 2009 | 243 | 2009 |
Semiconductor clathrates: A phonon glass electron crystal material with potential for thermoelectric applications GS Nolas, GA Slack, SB Schujman Semiconductors and semimetals 69, 255-300, 2001 | 239 | 2001 |
Structural disorder and thermal conductivity of the semiconducting clathrate Sr8Ga16Ge30 BC Chakoumakos, BC Sales, DG Mandrus, GS Nolas Journal of alloys and compounds 296 (1-2), 80-86, 2000 | 232 | 2000 |
Inorganic clathrate-II materials of group 14: synthetic routes and physical properties M Beekman, GS Nolas Journal of Materials Chemistry 18 (8), 842-851, 2008 | 211 | 2008 |
Why are clathrates good candidates for thermoelectric materials? BB Iversen, AEC Palmqvist, DE Cox, GS Nolas, GD Stucky, NP Blake, ... Journal of Solid State Chemistry 149 (2), 455-458, 2000 | 201 | 2000 |
Thermoelectric properties of Sn-filled skutterudites GS Nolas, H Takizawa, T Endo, H Sellinschegg, DC Johnson Applied Physics Letters 77 (1), 52-54, 2000 | 191 | 2000 |
PbTe nanocomposites synthesized from PbTe nanocrystals J Martin, GS Nolas, W Zhang, L Chen Applied physics letters 90 (22), 2007 | 179 | 2007 |
Thermal and electrical conductivity of size‐tuned bismuth telluride nanoparticles MR Dirmyer, J Martin, GS Nolas, A Sen, JV Badding small 5 (8), 933-937, 2009 | 176 | 2009 |