Haixia(Alice) Zhang
Haixia(Alice) Zhang
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Zitiert von
Zitiert von
Frequency-multiplication high-output triboelectric nanogenerator for sustainably powering biomedical microsystems
XS Zhang, MD Han, RX Wang, FY Zhu, ZH Li, W Wang, HX Zhang
Nano letters 13 (3), 1168-1172, 2013
A transparent single-friction-surface triboelectric generator and self-powered touch sensor
B Meng, W Tang, Z Too, X Zhang, M Han, W Liu, H Zhang
Energy & Environmental Science 6 (11), 3235-3240, 2013
A laser-engraved wearable sensor for sensitive detection of uric acid and tyrosine in sweat
Y Yang, Y Song, X Bo, J Min, OS Pak, L Zhu, M Wang, J Tu, A Kogan, ...
Nature biotechnology 38 (2), 217-224, 2020
Roll‐to‐roll green transfer of CVD graphene onto plastic for a transparent and flexible triboelectric nanogenerator
BN Chandrashekar, B Deng, AS Smitha, Y Chen, C Tan, H Zhang, ...
Advanced materials 27 (35), 5210-5216, 2015
High-performance triboelectric nanogenerator with enhanced energy density based on single-step fluorocarbon plasma treatment
XS Zhang, MD Han, RX Wang, B Meng, FY Zhu, XM Sun, W Hu, W Wang, ...
Nano Energy 4, 123-131, 2014
Highly compressible integrated supercapacitor–piezoresistance‐sensor system with CNT–PDMS sponge for health monitoring
Y Song, H Chen, Z Su, X Chen, L Miao, J Zhang, X Cheng, H Zhang
Small 13 (39), 1702091, 2017
All-in-one self-powered flexible microsystems based on triboelectric nanogenerators
XS Zhang, M Han, B Kim, JF Bao, J Brugger, H Zhang
Nano Energy 47, 410-426, 2018
r-Shaped hybrid nanogenerator with enhanced piezoelectricity
M Han, XS Zhang, B Meng, W Liu, W Tang, X Sun, W Wang, H Zhang
ACS nano 7 (10), 8554-8560, 2013
Flexible fiber-based hybrid nanogenerator for biomechanical energy harvesting and physiological monitoring
X Chen, Y Song, Z Su, H Chen, X Cheng, J Zhang, M Han, H Zhang
Nano Energy 38, 43-50, 2017
High performance triboelectric nanogenerators based on large-scale mass-fabrication technologies
XS Zhang, MD Han, B Meng, HX Zhang
Nano Energy 11, 304-322, 2015
Self-powered electronic skin based on the triboelectric generator
H Chen, Y Song, X Cheng, H Zhang
Nano energy 56, 252-268, 2019
Wireless battery-free wearable sweat sensor powered by human motion
Y Song, J Min, Y Yu, H Wang, Y Yang, H Zhang, W Gao
Science advances 6 (40), eaay9842, 2020
Self-powered analogue smart skin
M Shi, J Zhang, H Chen, M Han, SA Shankaregowda, Z Su, B Meng, ...
ACS nano 10 (4), 4083-4091, 2016
A flexible and implantable piezoelectric generator harvesting energy from the pulsation of ascending aorta: in vitro and in vivo studies
H Zhang, XS Zhang, X Cheng, Y Liu, M Han, X Xue, S Wang, F Yang, ...
Nano Energy 12, 296-304, 2015
Omnidirectional bending and pressure sensor based on stretchable CNT‐PU sponge
H Chen, Z Su, Y Song, X Cheng, X Chen, B Meng, Z Song, D Chen, ...
Advanced functional materials 27 (3), 1604434, 2017
High efficiency power management and charge boosting strategy for a triboelectric nanogenerator
X Cheng, L Miao, Y Song, Z Su, H Chen, X Chen, J Zhang, H Zhang
Nano Energy 38, 438-446, 2017
Wearable electrode-free triboelectric generator for harvesting biomechanical energy
X Cheng, B Meng, X Zhang, M Han, Z Su, H Zhang
Nano Energy 12, 19-25, 2015
Implantable and self-powered blood pressure monitoring based on a piezoelectric thinfilm: Simulated, in vitro and in vivo studies
X Cheng, X Xue, Y Ma, M Han, W Zhang, Z Xu, H Zhang, H Zhang
Nano Energy 22, 453-460, 2016
Single‐step fluorocarbon plasma treatment‐induced wrinkle structure for high‐performance triboelectric nanogenerator
X Cheng, B Meng, X Chen, M Han, H Chen, Z Su, M Shi, H Zhang
Small 12 (2), 229-236, 2016
Self-powered flexible printed circuit board with integrated triboelectric generator
B Meng, W Tang, X Zhang, M Han, W Liu, H Zhang
Nano Energy 2 (6), 1101-1106, 2013
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