Xiaoshi Qian
Xiaoshi Qian
Department of Mechanical Engineering, Shanghai Jiao Tong University
Verified email at - Homepage
Cited by
Cited by
Giant Electrocaloric Response Over A Broad Temperature Range in Modified BaTiO3 Ceramics
XS Qian, HJ Ye, YT Zhang, H Gu, X Li, CA Randall, QM Zhang
Advanced Functional Materials 24 (9), 1300-1305, 2014
Soft phototactic swimmer based on self-sustained hydrogel oscillator
Y Zhao, C Xuan, X Qian, Y Alsaid, M Hua, L Jin, X He
Science Robotics 4 (33), 2019
Electrocaloric cooling materials and devices for zero-global-warming-potential, high-efficiency refrigeration
J Shi, D Han, Z Li, L Yang, SG Lu, Z Zhong, J Chen, QM Zhang, X Qian
Joule 3 (5), 1200-1225, 2019
Pyroelectric and electrocaloric materials
X Li, SG Lu, XZ Chen, H Gu, X Qian, QM Zhang
Journal of Materials Chemistry C 1 (1), 23-37, 2013
Bioinspired hydrogel interferometer for adaptive coloration and chemical sensing
M Qin, M Sun, R Bai, Y Mao, X Qian, D Sikka, Y Zhao, HJ Qi, Z Suo, X He
Advanced Materials 30 (21), 1800468, 2018
A chip scale electrocaloric effect based cooling device
H Gu, X Qian, X Li, B Craven, W Zhu, A Cheng, SC Yao, QM Zhang
Applied Physics Letters 102 (12), 122904, 2013
Artificial phototropism for omnidirectional tracking and harvesting of light
X Qian, Y Zhao, Y Alsaid, X Wang, M Hua, T Galy, H Gopalakrishna, ...
Nat. Nanotechnol 14 (11), 1048-1055, 2019
Tunable temperature dependence of electrocaloric effect in ferroelectric relaxor poly (vinylidene fluoride-trifluoroethylene-chlorofluoroethylene terpolymer
X Li, X Qian, SG Lu, J Cheng, Z Fang, QM Zhang
Applied Physics Letters 99 (5), 052907, 2011
High-entropy polymer produces a giant electrocaloric effect at low fields
X Qian, D Han, L Zheng, J Chen, M Tyagi, Q Li, F Du, S Zheng, X Huang, ...
Nature 600 (7890), 664-669, 2021
Tunable one-way cross-waveguide splitter based on gyromagnetic photonic crystal
C He, XL Chen, MH Lu, XF Li, WW Wan, XS Qian, RC Yin, YF Chen
Applied Physics Letters 96 (11), 111111, 2010
Giant electrocaloric effect in ferroelectric poly (vinylidenefluoride-trifluoroethylene) copolymers near a first-order ferroelectric transition
X Li, XS Qian, H Gu, X Chen, SG Lu, M Lin, F Bateman, QM Zhang
Applied Physics Letters 101 (13), 132903, 2012
Giant electrocaloric effect in BaZr0. 2Ti0. 8O3 thick film
HJ Ye, XS Qian, DY Jeong, S Zhang, Y Zhou, WZ Shao, L Zhen, ...
Applied Physics Letters 105 (15), 152908, 2014
Bioinspired Polymer Nanocomposites Exhibit Giant Energy Density and High Efficiency at High Temperature
W Xu, J Liu, T Chen, X Jiang, X Qian, Y Zhang, Z Jiang, Y Zhang
Small 15 (28), 1901582, 2019
Ladderphane copolymers for high-temperature capacitive energy storage
J Chen, Y Zhou, X Huang, C Yu, D Han, A Wang, Y Zhu, K Shi, Q Kang, ...
Nature 615 (7950), 62-66, 2023
Relaxor ferroelectric polymer exhibits ultrahigh electromechanical coupling at low electric field
X Chen, H Qin, X Qian, W Zhu, B Li, B Zhang, W Lu, R Li, S Zhang, L Zhu, ...
Science 375 (6587), 1418-1422, 2022
An electrocaloric refrigerator without external regenerator
H Gu, XS Qian, HJ Ye, QM Zhang
Applied Physics Letters 105 (16), 162905, 2014
A polymer blend approach to tailor the ferroelectric responses in P (VDF–TrFE) based copolymers
XZ Chen, X Li, XS Qian, S Wu, SG Lu, HM Gu, M Lin, QD Shen, QM Zhang
Polymer 54 (9), 2373-2381, 2013
An electrocaloric refrigerator with direct solid to solid regeneration
T Zhang, XS Qian, H Gu, Y Hou, QM Zhang
Applied Physics Letters 110 (24), 243503, 2017
Interface‐Strengthened Polymer Nanocomposites with Reduced Dielectric Relaxation Exhibit High Energy Density at Elevated Temperatures Utilizing a Facile Dual Crosslinked Network
J Liu, Z Shen, W Xu, Y Zhang, X Qian, Z Jiang, Y Zhang
Small, 2000714, 2020
Simulation of chip-size electrocaloric refrigerator with high cooling-power density
H Gu, B Craven, X Qian, X Li, A Cheng, QM Zhang
Applied Physics Letters 102 (11), 112901, 2013
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