Artigos com autorizações de acesso público - Qing WangSaiba mais
Não disponíveis em nenhum local: 101
High-temperature dielectric materials for electrical energy storage
Q Li, FZ Yao, Y Liu, G Zhang, H Wang, Q Wang
Annual Review of Materials Research 48 (1), 219-243, 2018
Autorizações: US Department of Defense, National Natural Science Foundation of China
A scalable, high‐throughput, and environmentally benign approach to polymer dielectrics exhibiting significantly improved capacitive performance at high temperatures
Y Zhou, Q Li, B Dang, Y Yang, T Shao, H Li, J Hu, R Zeng, J He, Q Wang
Advanced Materials 30 (49), 1805672, 2018
Autorizações: National Natural Science Foundation of China
High‐energy‐density dielectric polymer nanocomposites with trilayered architecture
F Liu, Q Li, J Cui, Z Li, G Yang, Y Liu, L Dong, C Xiong, H Wang, Q Wang
Advanced Functional Materials 27 (20), 1606292, 2017
Autorizações: US Department of Defense, National Natural Science Foundation of China
Ferroelectric polymers exhibiting behaviour reminiscent of a morphotropic phase boundary
Y Liu, H Aziguli, B Zhang, W Xu, W Lu, J Bernholc, Q Wang
Nature 562 (7725), 96-100, 2018
Autorizações: US National Science Foundation, US Department of Defense
Ultrahigh energy density and greatly enhanced discharged efficiency of sandwich-structured polymer nanocomposites with optimized spatial organization
Y Wang, L Wang, Q Yuan, J Chen, Y Niu, X Xu, Y Cheng, B Yao, Q Wang, ...
Nano Energy 44, 364-370, 2018
Autorizações: National Natural Science Foundation of China
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
Autorizações: National Natural Science Foundation of China
Ultrahigh electric displacement and energy density in gradient layer-structured BaTiO 3/PVDF nanocomposites with an interfacial barrier effect
Y Wang, L Wang, Q Yuan, Y Niu, J Chen, Q Wang, H Wang
Journal of Materials Chemistry A 5 (22), 10849-10855, 2017
Autorizações: National Natural Science Foundation of China
High‐Energy Storage Performance of (Pb0.87Ba0.1La0.02)(Zr0.68Sn0.24Ti0.08)O3 Antiferroelectric Ceramics Fabricated by the Hot‐Press Sintering Method
G Zhang, D Zhu, X Zhang, L Zhang, J Yi, B Xie, Y Zeng, Q Li, Q Wang, ...
Journal of the American Ceramic Society 98 (4), 1175-1181, 2015
Autorizações: National Natural Science Foundation of China
Multiscale structural engineering of dielectric ceramics for energy storage applications: from bulk to thin film
FZ Yao, Q Yuan, Q Wang, H Wang
Nanoscale, 2020
Autorizações: National Natural Science Foundation of China
Multilayered hierarchical polymer composites for high energydensity capacitors
Y Wang, J Chen, Y Li, Y Niu, Q Wang, H Wang
Journal of Materials Chemistry A 7, 2965, 2019
Autorizações: National Natural Science Foundation of China
Multilayered ferroelectric polymer films incorporating low-dielectricconstant components for concurrent enhancement of energy density and charge–discharge efficiency
J Chen, Y Wang, Q Yuan, X Xu, Y Niu, Q Wang, H Wang
Nano Energy 54, 288-296, 2018
Autorizações: National Natural Science Foundation of China
Gradient-layered polymer nanocomposites with significantly improved insulation performance for dielectric energy storage
Y Wang, Y Li, L Wang, Q Yuan, J Chen, Y Niu, X Xu, Q Wang, H Wang
Energy Storage Materials 24, 626-634, 2020
Autorizações: National Natural Science Foundation of China
Poly (methyl methacrylate)/boron nitride nanocomposites with enhanced energy density as high temperature dielectrics
F Liu, Q Li, Z Li, Y Liu, L Dong, C Xiong, Q Wang
Composites Science and Technology 142, 139-144, 2017
Autorizações: National Natural Science Foundation of China
Ultrahigh energy storage performance of layered polymer nanocomposites over a broad temperature range
P Wang, L Yao, Z Pan, S Shi, J Yu, Y Zhou, Y Liu, J Liu, Q Chi, J Zhai, ...
Advanced Materials 33 (42), 2103338, 2021
Autorizações: National Natural Science Foundation of China
Fatigue‐Free Aurivillius Phase Ferroelectric Thin Films with Ultrahigh Energy Storage Performance
Z Pan, P Wang, H X., Y L., G Zhang, J Wang, J Liu, M Shen, Y Zhang, ...
Advanced Energy Materials, 2020
Autorizações: National Natural Science Foundation of China
Multifunctional hydrogel enables extremely simplified electrochromic devices for smart windows and ionic writing boards
H Fang, P Zheng, R Ma, C Xu, G Yang, Q Wang, H Wang
Materials Horizons 5 (5), 1000-1007, 2018
Autorizações: National Natural Science Foundation of China
Y doping and grain size co-effects on the electrical energy storage performance of (Pb0. 87Ba0. 1La0. 02)(Zr0. 65Sn0. 3Ti0. 05) O3 anti-ferroelectric ceramics
L Zhang, S Jiang, Y Zeng, M Fu, K Han, Q Li, Q Wang, G Zhang
Ceramics International 40 (4), 5455-5460, 2014
Autorizações: National Natural Science Foundation of China
Soft liquid-metal/elastomer foam with compression-adjustable thermal conductivity and electromagnetic interference shielding
B Yao, X Xu, H Li, Z Han, J Hao, G Yang, Z Xie, Y Chen, W Liu, Q Wang, ...
Chemical Engineering Journal 410, 128288, 2021
Autorizações: National Natural Science Foundation of China
Bioinspired elastic piezoelectric composites for high-performance mechanical energy harvesting
Y Zhang, CK Jeong, T Yang, H Sun, LQ Chen, S Zhang, W Chen, Q Wang
Journal of Materials Chemistry A 6 (30), 14546-14552, 2018
Autorizações: National Natural Science Foundation of China
Significantly enhancing the discharge efficiency of sandwich-structured polymer dielectrics at elevated temperature by building carrier blocking interface
Y Niu, J Dong, Y He, X Xu, S Li, K Wu, Q Wang, H Wang
Nano Energy 97, 107215, 2022
Autorizações: National Natural Science Foundation of China
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