Lattice thermal conductivity evaluated using elastic properties T Jia, G Chen, Y Zhang
Physical Review B 95 (15), 155206, 2017
136 2017 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
61 2020 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
57 2017 Electrical property dominated promising half-Heusler thermoelectrics through high-throughput material computations S Guo, T Jia, Y Zhang
The Journal of Physical Chemistry C 123 (31), 18824-18833, 2019
39 2019 Thermoelectric optimization of by defect engineering for room-temperature applications Z Feng, X Zhang, Y Wang, J Zhang, T Jia, B Cao, Y Zhang
Physical Review B 99 (15), 155203, 2019
38 2019 Prediction of improved thermoelectric performance by ordering in double half-Heusler materials S Guo, Z Liu, Z Feng, T Jia, S Anand, GJ Snyder, Y Zhang
Journal of Materials Chemistry A 8 (44), 23590-23598, 2020
36 2020 Dirac cone move and bandgap on/off switching of graphene superlattice TT Jia, MM Zheng, XY Fan, Y Su, SJ Li, HY Liu, G Chen, Y Kawazoe
Scientific reports 6 (1), 18869, 2016
31 2016 Band gap on/off switching of silicene superlattice TT Jia, MM Zheng, XY Fan, Y Su, SJ Li, HY Liu, G Chen, Y Kawazoe
The Journal of Physical Chemistry C 119 (35), 20747-20754, 2015
24 2015 Indirect–direct bandgap transition and gap width tuning in bilayer MoS2 superlattices JT Jiang, SL Xiu, MM Zheng, TT Jia, HY Liu, Y Zhang, G Chen
Chemical Physics Letters 613, 74-79, 2014
23 2014 Silicene nanomeshes: bandgap opening by bond symmetry breaking and uniaxial strain TT Jia, XY Fan, MM Zheng, G Chen
Scientific reports 6 (1), 20971, 2016
22 2016 Localized dimers drive strong anharmonicity and low lattice thermal conductivity in T Jia, J Carrete, Z Feng, S Guo, Y Zhang, GKH Madsen
Physical Review B 102 (12), 125204, 2020
20 2020 Band engineering SnTe via trivalent substitutions for enhanced thermoelectric performance X Zhang, Z Wang, B Zou, MK Brod, J Zhu, T Jia, G Tang, GJ Snyder, ...
Chemistry of Materials 33 (24), 9624-9637, 2021
17 2021 Band structure modification of the thermoelectric Heusler-phase TiFe 2 Sn via Mn substitution T Zou, T Jia, W Xie, Y Zhang, M Widenmeyer, X Xiao, A Weidenkaff
Physical Chemistry Chemical Physics 19 (28), 18273-18278, 2017
9 2017 Chemical trends in the high thermoelectric performance of the pyrite-type dichalcogenides , and T Jia, J Carrete, GKH Madsen, Y Zhang, SH Wei
Physical Review B 105 (24), 245203, 2022
6 2022 First principles investigation of intrinsic and Na defects in XTe (X= Ca, Sr, Ba) nanostructured PbTe X Zhang, MY Toriyama, JP Male, Z Feng, S Guo, T Jia, Z Ti, GJ Snyder, ...
Materials Today Physics 19, 100415, 2021
4 2021 Origin of the variation in lattice thermal conductivities in pyrite-type dichalcogenides T Jia, X Liu, Y Zhang, SH Wei
Physical Review B 107 (11), 115204, 2023
3 2023 Excellent thermoelectric performances of pressure synthesized ZnSe2 T Jia, J Carrete, Z Feng, S Guo, Y Zhang, GKH Madsen
arXiv preprint arXiv:1912.10603, 2019
2 2019 Geometrically induced π-band splitting in graphene superlattices Y Wei, T Jia, G Chen
Chinese Physics B 26 (2), 028103, 2017
2 2017 Unveiling disparities and promises of Cu and Ag chalcopyrites for thermoelectrics HP Liang, S Geng, T Jia, CN Li, X Xu, X Zhang, SH Wei
Physical Review B 109 (3), 035205, 2024
1 2024 Low thermal conductivities and excellent thermoelectric performances of the pyrite-type IIB-VIA2 dichalcogenides: ZnS2, CdS2 and CdSe2 T Jia, J Carrete, Y Zhang, GKH Madsen