Yejing DAI (戴叶婧)
Yejing DAI (戴叶婧)
在 的电子邮件经过验证
Phase transitional behavior in ceramics
Y Dai, X Zhang, G Zhou
Applied physics letters 90 (26), 262903, 2007
Achieving ultrahigh triboelectric charge density for efficient energy harvesting
J Wang, C Wu, Y Dai, Z Zhao, A Wang, T Zhang, ZL Wang
Nature communications 8 (1), 1-8, 2017
On the electrontransfer mechanism in the contactelectrification effect
C Xu, Y Zi, AC Wang, H Zou, Y Dai, X He, P Wang, YC Wang, P Feng, D Li, ...
Advanced Materials 30 (15), 1706790, 2018
A highly stretchable and washable all-yarn-based self-charging knitting power textile composed of fiber triboelectric nanogenerators and supercapacitors
K Dong, YC Wang, J Deng, Y Dai, SL Zhang, H Zou, B Gu, B Sun, ...
ACS nano 11 (9), 9490-9499, 2017
Morphotropic phase boundary and electrical properties of lead-free ceramics
YJ Dai, XW Zhang, KP Chen
Applied Physics Letters 94 (4), 042905, 2009
3D orthogonal woven triboelectric nanogenerator for effective biomechanical energy harvesting and as selfpowered active motion sensors
K Dong, J Deng, Y Zi, YC Wang, C Xu, H Zou, W Ding, Y Dai, B Gu, B Sun, ...
Advanced Materials 29 (38), 1702648, 2017
Enhanced Performance of a SelfPowered Organic/Inorganic Photodetector by PyroPhototronic and PiezoPhototronic Effects
W Peng, X Wang, R Yu, Y Dai, H Zou, AC Wang, Y He, ZL Wang
Advanced Materials 29 (23), 1606698, 2017
Piezoelectric and Ferroelectric Properties of LiDoped (Bi0.5Na0.5)TiO3–(Bi0.5K0.5)TiO3–BaTiO3 LeadFree Piezoelectric Ceramics
YJ Dai, S Zhang, TR Shrout, XW Zhang
Journal of the American Ceramic Society 93 (4), 1108-1113, 2010
Light-triggered pyroelectric nanogenerator based on a pn-junction for self-powered near-infrared photosensing
X Wang, Y Dai, R Liu, X He, S Li, ZL Wang
ACS nano 11 (8), 8339-8345, 2017
Selfpowered Si/CdS flexible photodetector with broadband response from 325 to 1550 nm based on pyrophototronic effect: an approach for photosensing below bandgap energy
Y Dai, X Wang, W Peng, C Xu, C Wu, K Dong, R Liu, ZL Wang
Advanced Materials 30 (9), 1705893, 2018
Self-powered multifunctional motion sensor enabled by magnetic-regulated triboelectric nanogenerator
Z Wu, W Ding, Y Dai, K Dong, C Wu, L Zhang, Z Lin, J Cheng, ZL Wang
ACS nano 12 (6), 5726-5733, 2018
Superelastic 3D few-layer MoS2/carbon framework heterogeneous electrodes for highly reversible sodium-ion batteries
ZH Zhao, XD Hu, H Wang, MY Ye, ZY Sang, HM Ji, XL Li, Y Dai
Nano Energy 48, 526-535, 2018
Microstructure and electrical properties in Zn-doped Ba0. 85Ca0. 15Ti0. 90Zr0. 10O3 piezoelectric ceramics
Z Zhao, X Li, H Ji, Y Dai, T Li
Journal of Alloys and Compounds 637, 291-296, 2015
The evolution mechanism of defect dipoles and high strain in MnO2-doped KNN lead-free ceramics
Z Zhao, Y Dai, X Li, Z Zhao, X Zhang
Applied Physics Letters 108 (17), 172906, 2016
Flexible and free-standing SiOx/CNT composite films for high capacity and durable lithium ion batteries
W Guo, X Yan, F Hou, L Wen, Y Dai, D Yang, X Jiang, J Liu, J Liang, ...
Carbon 152, 888-897, 2019
Simultaneously enhancing light emission and suppressing efficiency droop in GaN microwire-based ultraviolet light-emitting diode by the piezo-phototronic effect
X Wang, W Peng, R Yu, H Zou, Y Dai, Y Zi, C Wu, S Li, ZL Wang
Nano letters 17 (6), 3718-3724, 2017
Electrical properties and relaxor phase evolution of Limodified BNTBKTBT leadfree ceramics
DS Yin, ZH Zhao, YJ Dai, Z Zhao, XW Zhang, SH Wang
Journal of the American Ceramic Society 99 (7), 2354-2360, 2016
Largely improved near-infrared silicon-photosensing by the piezo-phototronic effect
Y Dai, X Wang, W Peng, H Zou, R Yu, Y Ding, C Wu, ZL Wang
ACS nano 11 (7), 7118-7125, 2017
Photocatalytic degradation efficacy of Bi4Ti3O12 micro-scale platelets over methylene blue under visible light
W Zhao, Z Jia, E Lei, L Wang, Z Li, Y Dai
Journal of Physics and Chemistry of Solids 74 (11), 1604-1607, 2013
Microstructure and Hardening Mechanism of K0.5Na0.5NbO3 LeadFree Ceramics with CuO Doping Sintered in Different Atmospheres
HQ Wang, YJ Dai, XW Zhang
Journal of the American Ceramic Society 95 (4), 1182-1184, 2012
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