검색결과 : 8건
| No. | Article |
|---|---|
| 1 |
The fine-scale genetic structure of the British population Leslie S, Winney B, Hellenthal G, Davison D, Boumertit A, Day T, Hutnik K, Royrvik EC, Cunliffe B, Lawson DJ, Falush D, Freeman C, Pirinen M, Myers S, Robinson M, Donnelly P, Bodmer W Nature, 519(7543), 309, 2015 |
| 2 |
High Thermoelectric Performance in Non-Toxic Earth-Abundant Copper Sulfide He Y, Day T, Zhang TS, Liu HL, Shi X, Chen LD, Snyder GJ Advanced Materials, 26(23), 3974, 2014 |
| 3 |
Phonon Scattering through a Local Anisotropic Structural Disorder in the Thermoelectric Solid Solution Cu2Zn1-xFexGeSe4 Zeier WG, Pei YZ, Pomrehn G, Day T, Heinz N, Heinrich CP, Snyder GJ, Tremel W Journal of the American Chemical Society, 135(2), 726, 2013 |
| 4 |
Chalcopyrite CuGaTe2: A High-Efficiency Bulk Thermoelectric Material Plirdpring T, Kurosaki K, Kosuga A, Day T, Firdosy S, Ravi V, Snyder GJ, Harnwunggmoung A, Sugahara T, Ohishi Y, Muta H, Yamanaka S Advanced Materials, 24(27), 3622, 2012 |
| 5 |
A Mesoporous Anisotropic n-Type Bi2Te3 Monolith with Low Thermal Conductivity as an Efficient Thermoelectric Material Zhang YC, Day T, Snedaker ML, Wang H, Kramer S, Birkel CS, Ji XL, Liu DY, Snyder GJ, Stucky GD Advanced Materials, 24(37), 5065, 2012 |
| 6 |
Copper ion liquid-like thermoelectrics Liu HL, Shi X, Xu FF, Zhang LL, Zhang WQ, Chen LD, Li Q, Uher C, Day T, Snyder GJ Nature Materials, 11(5), 422, 2012 |
| 7 |
Inclusive fitness theory and eusociality Abbot P, Abe J, Alcock J, Alizon S, Alpedrinha JAC, Andersson M, Andre JB, van Baalen M, Balloux F, Balshine S, Barton N, Beukeboom LW, Biernaskie JM, Bilde T, Borgia G, Breed M, Brown S, Bshary R, Buckling A, Burley NT, Burton-Chellew MN, Cant MA, Chapuisat M, Charnov EL, Clutton-Brock T, Cockburn A, Cole BJ, Colegrave N, Cosmides L, Couzin ID, Coyne JA, Creel S, Crespi B, Curry RL, Dall SRX, Day T, Dickinson JL, Dugatkin LA, El Mouden C, Emlen ST, Evans J, Ferriere R, Field J, Foitzik S, Foster K, Foster WA, Fox CW, Gadau J, Gandon S, Gardner A, Gardner MG, Getty T, Goodisman MAD, Grafen A, Grosberg R, Grozinger CM, Gouyon PH, Gwynne D, Harvey PH, Hatchwell BJ, Heinze J, Helantera H, Helms KR, Hill K, Jiricny N, Johnstone RA, Kacelnik A, Kiers ET, Kokko H, Komdeur J, Korb J, Kronauer D, Kummerli R, Lehmann L, Linksvayer TA, Lion S, Lyon B, Marshall JAR, McElreath R, Michalakis Y, Michod RE, Mock D, Monnin T, Montgomerie R, Moore AJ, Mueller UG, Noe R, Okasha S, Pamilo P, Parker GA, Pedersen JS, Pen I, Pfennig D, Queller DC, Rankin DJ, Reece SE, Reeve HK, Reuter M, Roberts G, Robson SKA, Roze D, Rousset F, Rueppell O, Sachs JL, Santorelli L, Schmid-Hempel P, Schwarz MP, Scott-Phillips T, Shellmann-Sherman J, Sherman PW, Shuker DM, Smith J, Spagna JC, Strassmann B, Suarez AV, Sundstrom L, Taborsky M, Taylor P, Thompson G, Tooby J, Tsutsui ND, Tsuji K, Turillazzi S, Ubeda F, Vargo EL, Voelkl B, Wenseleers T, West SA, West-Eberhard MJ, Westneat DF, Wiernasz DC, Wild G, Wrangham R, Young AJ, Zeh DW, Zeh JA, Zink A Nature, 471(7339), E1, 2011 |
| 8 |
How Bad Genes Survive - Reply Wilcockson R, Crean C, Day T Nature, 376(6536), 128, 1995 |