Hu Y, Wang ZL*. Recent progress in piezoelectric nanogenerators as a sustainable power source in self-powered systems and active sensors. Nano Energy. 2015;14:3–14.

Yu R, Wang X, Wu W, Pan C, Bando Y, Fukata N, Hu Y, Peng W, Ding Y, Wang ZL*. Temperature dependence of the piezophototronic effect in CdS nanowires. Advanced Functional Materials. 2015;25:5277–5284.

Wen X, Wu W, Pan C, Hu Y, Yang Q, Wang ZL*. Development and progress in piezotronics. Nano Energy. 2015;14:276–295.

Hu Y, Wang ZL*. Recent progress in piezoelectric nanogenerators as a sustainable power source in self-powered systems and active sensors. Nano Energy. 2015;14:3–14.

Yu R, Wang X, Wu W, Pan C, Bando Y, Fukata N, Hu Y, Peng W, Ding Y, Wang ZL*. Temperature dependence of the piezophototronic effect in CdS nanowires. Advanced Functional Materials. 2015;25:5277–5284.

Hu Y#, Yang J#, Niu S, Wu W, Wang ZL*. Hybridizing triboelectrification and electromagnetic induction effects for high-efficient mechanical energy harvesting. ACS Nano. 2014;8:7442–7450.

Niu S, Liu Y, Wang S, Lin L, Zhou YS, Hu Y, Wang ZL*. Theoretical investigation and structural optimization of single-electrode triboelectric nanogenerators. Advanced Functional Materials. 2014;24:3332–3340.

Niu S, Wang S, Liu Y, Zhou YS, Lin L, Hu Y, Pradel KC, Wang ZL*. A theoretical study of grating structured triboelectric nanogenerators. Energy & Environmental Science. 2014;7:2339–2349.

Hu Y#, Yang J#, Niu S, Wu W, Wang ZL*. Hybridizing triboelectrification and electromagnetic induction effects for high-efficient mechanical energy harvesting. ACS Nano. 2014;8:7442–7450.

Niu S, Liu Y, Wang S, Lin L, Zhou YS, Hu Y, Wang ZL*. Theoretical investigation and structural optimization of single-electrode triboelectric nanogenerators. Advanced Functional Materials. 2014;24:3332–3340.

Niu S, Wang S, Liu Y, Zhou YS, Lin L, Hu Y, Pradel KC, Wang ZL*. A theoretical study of grating structured triboelectric nanogenerators. Energy & Environmental Science. 2014;7:2339–2349.

Hu Y, Yang J, Jing Q, Niu S, Wu W, Wang ZL*. Triboelectric nanogenerator built on suspended 3D spiral structure as vibration and positioning sensor and wave energy harvester. ACS Nano. 2013;7:10424–10432.

Lin L, Jing Q, Zhang Y, Hu Y, Wang S, Bando Y, Han RPS, Wang ZL*. An elastic-spring-substrated nanogenerator as an active sensor for self-powered balance. Energy & Environmental Science. 2013;6:1164–1169.

Niu S, Hu Y, Wen X, Zhou YS, Zhang F, Lin L, Wang S, Wang ZL*. Enhanced performance of flexible ZnO nanowire based room-temperature oxygen sensors by Piezotronic effect. Advanced Materials. 2013;25:3701–3706.

Yu R, Pan C, Hu Y, Li L, Liu H, Liu W, Chua S, Chi D, Wang ZL*. Enhanced performance of GaN nanobelt-based photodetectors by means of piezotronic effects. Nano Research. 2013;6:758–766.

Lin L, Wang S, Xie Y, Jing Q, Niu S, Hu Y, Wang ZL*. Segmentally structured disk triboelectric nanogenerator for harvesting rotational mechanical energy. Nano Letters. 2013;13:2916–2923.

Hu Y, Klein BDB, Su Y, Niu S, Liu Y, Wang ZL*. Temperature dependence of the piezotronic effect in ZnO nanowires. Nano Letters. 2013;13:5026–5032.

Niu S, Liu Y, Wang S, Lin L, Zhou YS, Hu Y, Wang ZL*. Theory of sliding-mode triboelectric nanogenerators. Advanced Materials. 2013;25:6184–6193.

Lin L, Hu Y, Xu C, Zhang Y, Zhang R, Wen X, Wang ZL*. Transparent flexible nanogenerator as self-powered sensor for transportation monitoring. Nano Energy. 2013;2:75–81.

Lin L, Jing Q, Zhang Y, Hu Y, Wang S, Bando Y, Han RPS, Wang ZL*. An elastic-spring-substrated nanogenerator as an active sensor for self-powered balance. Energy & Environmental Science. 2013;6:1164–1169.