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Shiqian Hu
Shiqian Hu
Verified email at ynu.edu.cn
Title
Cited by
Cited by
Year
Experimental study of thermal rectification in suspended monolayer graphene
H Wang, S Hu, K Takahashi, X Zhang, H Takamatsu, J Chen
Nature communications 8 (1), 15843, 2017
3322017
Machine-learning-optimized aperiodic superlattice minimizes coherent phonon heat conduction
R Hu, S Iwamoto, L Feng, S Ju, S Hu, M Ohnishi, N Nagai, K Hirakawa, ...
Physical Review X 10 (2), 021050, 2020
1572020
Thermal transport in graphene with defect and doping: phonon modes analysis
S Hu, J Chen, N Yang, B Li
Carbon 116, 139-144, 2017
1382017
Randomness-induced phonon localization in graphene heat conduction
S Hu, Z Zhang, P Jiang, J Chen, S Volz, M Nomura, B Li
The journal of physical chemistry letters 9 (14), 3959-3968, 2018
1372018
Hexagonal boron nitride: a promising substrate for graphene with high heat dissipation
Z Zhang, S Hu, J Chen, B Li
Nanotechnology 28 (22), 225704, 2017
1192017
Thermal conductivity of suspended few-layer MoS 2
A Aiyiti, S Hu, C Wang, Q Xi, Z Cheng, M Xia, Y Ma, J Wu, J Guo, Q Wang, ...
Nanoscale 10 (6), 2727-2734, 2018
852018
Disorder limits the coherent phonon transport in two-dimensional phononic crystal structures
S Hu, Z Zhang, P Jiang, W Ren, C Yu, J Shiomi, J Chen
Nanoscale 11 (24), 11839-11846, 2019
762019
Reducing lattice thermal conductivity in schwarzites via engineering the hybridized phonon modes
Z Zhang, S Hu, T Nakayama, J Chen, B Li
Carbon 139, 289-298, 2018
672018
A series circuit of thermal rectifiers: an effective way to enhance rectification ratio
S Hu, M An, N (Yang, B Li
Small 13 (6), 1602726, 2017
672017
Weaker bonding can give larger thermal conductance at highly mismatched interfaces
B Xu, S Hu, SW Hung, C Shao, H Chandra, FR Chen, T Kodama, J Shiomi
Science Advances 7 (17), eabf8197, 2021
562021
Thermal rectification in Y-junction carbon nanotube bundle
A Aiyiti, Z Zhang, B Chen, S Hu, J Chen, X Xu, B Li
Carbon 140, 673-679, 2018
492018
Manipulating the temperature dependence of the thermal conductivity of graphene phononic crystal
S Hu, M An, N Yang, B Li
Nanotechnology 27 (26), 265702, 2016
482016
Remarkable thermal rectification in pristine and symmetric monolayer graphene enabled by asymmetric thermal contact
P Jiang, S Hu, Y Ouyang, W Ren, C Yu, Z Zhang, J Chen
Journal of Applied Physics 127 (23), 2020
472020
Nanoscale graphene disk: a natural functionally graded material–how is Fourier’s law violated along radius direction of 2D disk
N Yang, S Hu, D Ma, T Lu, B Li
Scientific reports 5 (1), 14878, 2015
382015
Mass difference and polarization lead to low thermal conductivity of graphene-like carbon nitride (C3N)
M An, L Li, S Hu, Z Ding, X Yu, B Demir, N Yang, W Ma, X Zhang
Carbon 162, 202-208, 2020
362020
Humidity-dependent thermal boundary conductance controls heat transport of super-insulating nanofibrillar foams
V Apostolopoulou-Kalkavoura, S Hu, N Lavoine, M Garg, M Linares, ...
Matter 4 (1), 276-289, 2021
322021
Significant Reduction in Thermal Conductivity of Lithium Cobalt Oxide Cathode Upon Charging: Propagating and Non-propagating Thermal Energy Transport
S Hu, Z Zhang, Z Wang, K Zeng, Y Cheng, J Chen, G Zhang
ES Energy & Environment 1, 74-79, 2018
312018
Ultimate impedance of coherent heat conduction in van der Waals graphene-MoS2 heterostructures
S Hu, S Ju, C Shao, J Guo, B Xu, M Ohnishi, J Shiomi
Materials Today Physics 16, 100324, 2021
302021
Spectral control of thermal boundary conductance between copper and carbon crystals by self-assembled monolayers
SW Hung, S Hu, J Shiomi
ACS Applied Electronic Materials 1 (12), 2594-2601, 2019
302019
Scalable monolayer-functionalized nanointerface for thermal conductivity enhancement in copper/diamond composite
B Xu, SW Hung, S Hu, C Shao, R Guo, J Choi, T Kodama, FR Chen, ...
Carbon 175, 299-306, 2021
282021
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