Ultralow thermal conductivity and high thermoelectric figure of merit in SnSe crystals LD Zhao, SH Lo, Y Zhang, H Sun, G Tan, C Uher, C Wolverton, VP Dravid, ... nature 508 (7496), 373-377, 2014 | 5035 | 2014 |
Origin of low thermal conductivity in SnSe Y Xiao, C Chang, Y Pei, D Wu, K Peng, X Zhou, S Gong, J He, Y Zhang, ... Physical Review B 94 (12), 125203, 2016 | 379 | 2016 |
First-principles description of anomalously low lattice thermal conductivity in thermoelectric Cu-Sb-Se ternary semiconductors Y Zhang, E Skoug, J Cain, V Ozoliņš, D Morelli, C Wolverton Physical Review B 85 (5), 054306, 2012 | 272 | 2012 |
Lattice thermal conductivity evaluated using elastic properties T Jia, G Chen, Y Zhang Physical Review B 95 (15), 155206, 2017 | 162 | 2017 |
Accuracy of first-principles lateral interactions: Oxygen at Pd (100) Y Zhang, V Blum, K Reuter Physical Review B—Condensed Matter and Materials Physics 75 (23), 235406, 2007 | 117 | 2007 |
Design of high‐performance disordered half‐Heusler thermoelectric materials using 18‐electron rule Z Liu, S Guo, Y Wu, J Mao, Q Zhu, H Zhu, Y Pei, J Sui, Y Zhang, Z Ren Advanced Functional Materials 29 (44), 1905044, 2019 | 106 | 2019 |
Porous BN for hydrogen generation and storage LML Hui Zhang, Chuan-Jia Tong, Yongsheng Zhang, Yan-Ning Zhang Journal of Materials Chemistry A 3, 9632-9637, 2015 | 106 | 2015 |
Restructured single parabolic band model for quick analysis in thermoelectricity J Zhu, X Zhang, M Guo, J Li, J Hu, S Cai, W Cai, Y Zhang, J Sui npj Computational Materials 7 (1), 116, 2021 | 102 | 2021 |
Pressure induced thermoelectric enhancement in SnSe crystals Y Zhang, S Hao, LD Zhao, C Wolverton, Z Zeng Journal of Materials Chemistry A 4 (31), 12073-12079, 2016 | 95 | 2016 |
Lattice strain leads to high thermoelectric performance in polycrystalline SnSe X Lou, S Li, X Chen, Q Zhang, H Deng, J Zhang, D Li, X Zhang, Y Zhang, ... ACS nano 15 (5), 8204-8215, 2021 | 87 | 2021 |
Synergistic band convergence and endotaxial nanostructuring: Achieving ultralow lattice thermal conductivity and high figure of merit in eco-friendly SnTe X Li, J Liu, S Li, J Zhang, D Li, R Xu, Q Zhang, X Zhang, B Xu, Y Zhang, ... Nano Energy 67, 104261, 2020 | 85 | 2020 |
First-principles Debye-Callaway approach to lattice thermal conductivity Y Zhang Journal of Materiomics 2, 237, 2016 | 82 | 2016 |
NiCo2S4 quantum dots with high redox reactivity for hybrid supercapacitors W Chen, X Zhang, LE Mo, Y Zhang, S Chen, X Zhang, L Hu Chemical Engineering Journal 388, 124109, 2020 | 77 | 2020 |
Prediction of new stable compounds and promising thermoelectrics in the Cu–Sb–Se system Y Zhang, V Ozolins, D Morelli, C Wolverton Chemistry of materials 26 (11), 3427-3435, 2014 | 76 | 2014 |
Dual effects of lone-pair electrons and rattling atoms in on its ultralow thermal conductivity Z Feng, T Jia, J Zhang, Y Wang, Y Zhang Physical Review B 96 (23), 235205, 2017 | 74 | 2017 |
Enhanced thermoelectric performance of β-Zn4Sb3 based nanocomposites through combined effects of density of states resonance and carrier energy filtering T Zou, X Qin, Y Zhang, X Li, Z Zeng, D Li, J Zhang, H Xin, W Xie, ... Scientific reports 5 (1), 17803, 2015 | 71 | 2015 |
The microscopic origin of low thermal conductivity for enhanced thermoelectric performance of Yb doped MgAgSb Z Liu, Y Zhang, J Mao, W Gao, Y Wang, J Shuai, W Cai, J Sui, Z Ren Acta Materialia 128, 227-234, 2017 | 67 | 2017 |
Theoretical Prediction of Metastable Intermediates in the Decomposition of Mg(BH4)2 Y Zhang, E Majzoub, V Ozoliņš, C Wolverton The Journal of Physical Chemistry C 116 (19), 10522-10528, 2012 | 67 | 2012 |
Screening promising thermoelectric materials in binary chalcogenides through high-throughput computations T Jia, Z Feng, S Guo, X Zhang, Y Zhang ACS applied materials & interfaces 12 (10), 11852-11864, 2020 | 66 | 2020 |
Characterization of rattling in relation to thermal conductivity: Ordered half-Heusler semiconductors Z Feng, Y Fu, Y Zhang, DJ Singh Physical Review B 101 (6), 064301, 2020 | 65 | 2020 |