Qing Jie
Qing Jie
Подтвержден адрес электронной почты в домене central.uh.edu
Название
Процитировано
Процитировано
Год
Current progress and future challenges in thermoelectric power generation: From materials to devices
W Liu, Q Jie, HS Kim, Z Ren
Acta Materialia 87, 357-376, 2015
3582015
High thermoelectric performance of MgAgSb-based materials
H Zhao, J Sui, Z Tang, Y Lan, Q Jie, D Kraemer, K McEnaney, A Guloy, ...
Nano Energy 7, 97-103, 2014
2062014
Evidence for unusual superconducting correlations coexisting with stripe order in La 1.875 Ba 0.125 CuO 4
JM Tranquada, GD Gu, M Hücker, Q Jie, HJ Kang, R Klingeler, Q Li, ...
Physical Review B 78 (17), 174529, 2008
1962008
Concentrating solar thermoelectric generators with a peak efficiency of 7.4%
D Kraemer, Q Jie, K McEnaney, F Cao, W Liu, LA Weinstein, J Loomis, ...
Nature Energy 1 (11), 1-8, 2016
1912016
Achieving high power factor and output power density in p-type half-Heuslers Nb1-xTixFeSb
R He, D Kraemer, J Mao, L Zeng, Q Jie, Y Lan, C Li, J Shuai, HS Kim, ...
Proceedings of the National Academy of Sciences 113 (48), 13576-13581, 2016
173*2016
n-type thermoelectric material Mg2Sn0. 75Ge0. 25 for high power generation
W Liu, HS Kim, S Chen, Q Jie, B Lv, M Yao, Z Ren, CP Opeil, S Wilson, ...
Proceedings of the National Academy of Sciences 112 (11), 3269-3274, 2015
1552015
Importance of high power factor in thermoelectric materials for power generation application: A perspective
W Liu, HS Kim, Q Jie, Z Ren
Scripta Materialia 111, 3-9, 2016
1352016
High thermoelectric conversion efficiency of MgAgSb-based material with hot-pressed contacts
D Kraemer, J Sui, K McEnaney, H Zhao, Q Jie, ZF Ren, G Chen
Energy & Environmental Science 8 (4), 1299-1308, 2015
1282015
Enhanced superconducting transition temperature in thin films
W Si, ZW Lin, Q Jie, WG Yin, J Zhou, G Gu, PD Johnson, Q Li
Applied Physics Letters 95 (5), 052504, 2009
1182009
Iron-chalcogenide FeSe0.5Te0.5 coated superconducting tapes for high field applications
W Si, J Zhou, Q Jie, I Dimitrov, V Solovyov, PD Johnson, J Jaroszynski, ...
Applied Physics Letters 98 (26), 262509, 2011
942011
Fast phase formation of double-filled p-type skutterudites by ball-milling and hot-pressing
Q Jie, H Wang, W Liu, H Wang, G Chen, Z Ren
Physical Chemistry Chemical Physics 15 (18), 6809-6816, 2013
892013
Preparation and characterization of macroporous sol–gel bioglass
N Li, Q Jie, S Zhu, R Wang
Ceramics International 31 (5), 641-646, 2005
892005
Superconductivity in epitaxial thin films of Fe 1.08 Te: O x
W Si, Q Jie, L Wu, J Zhou, G Gu, PD Johnson, Q Li
Physical Review B 81 (9), 092506, 2010
752010
Superconductivity in epitaxial thin films of Fe 1.08 Te: O x
W Si, Q Jie, L Wu, J Zhou, G Gu, PD Johnson, Q Li
Physical Review B 81 (9), 092506, 2010
752010
Einstein modes in the phonon density of states of the single-filled skutterudite
IK Dimitrov, ME Manley, SM Shapiro, J Yang, W Zhang, LD Chen, Q Jie, ...
Physical Review B 82 (17), 174301, 2010
742010
New insight into the material parameter B to understand the enhanced thermoelectric performance of Mg 2 Sn 1− x− y Ge x Sb y
W Liu, J Zhou, Q Jie, Y Li, HS Kim, J Bao, G Chen, Z Ren
Energy & Environmental Science 9 (2), 530-539, 2016
702016
Disappearance of static magnetic order and evolution of spin fluctuations in Fe 1+ δ Se x Te 1− x
Z Xu, J Wen, G Xu, Q Jie, Z Lin, Q Li, S Chi, DK Singh, G Gu, ...
Physical Review B 82 (10), 104525, 2010
642010
Disappearance of static magnetic order and evolution of spin fluctuations in Fe1+ δSexTe1− x
Z Xu, J Wen, G Xu, Q Jie, Z Lin, Q Li, ...
Phys. Rev. B 82, 104525, 2010
642010
Disappearance of static magnetic order and evolution of spin fluctuations in Fe1+delta SexTe1-x
JMT Zhijun Xu, Jinsheng Wen, Guangyong Xu, Qing Jie, Zhiwei Lin, Qiang Li ...
PHYSICAL REVIEW B 82 (10), 104525, 2010
642010
Dramatic thermal conductivity reduction by nanostructures for large increase in thermoelectric figure-of-merit of FeSb2
H Zhao, M Pokharel, G Zhu, S Chen, K Lukas, Q Jie, C Opeil, G Chen, ...
Applied Physics Letters 99 (16), 163101, 2011
582011
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Статьи 1–20