科研成果 by Type: 期刊论文

2010
Hu Y, Zhang Y, Xu C, Zhu G, Wang ZL*. High-output nanogenerator by rational unipolar assembly of conical nanowires and its application for driving a small liquid crystal display. Nano Letters. 2010;10:5025–5031.
Zhang Y, Hu Y, Xiang S, Wang ZL*. Effects of piezopotential spatial distribution on local contact dictated transport property of ZnO micro/nanowires. Applied Physics Letters. 2010;97:033509.
Hu Y, Zhang Y, Chang Y, Snyder RL, Wang ZL*. Optimizing the power output of a ZnO photocell by piezopotential. ACS Nano. 2010;4:4220–4224.
Hu Y, Chang Y, Fei P, Snyder RL, Wang ZL*. Designing the electric transport characteristics of ZnO micro/nanowire devices by coupling piezoelectric and photoexcitation effects. ACS Nano. 2010;4:1234–1240.
Xu S, Xu C, Liu Y, Hu Y, Yang R, Yang Q, Ryou J-H, Kim HJ, Lochner Z, Choi S, et al. Ordered Nanowire Array Blue/Near-UV Light Emitting Diodes. Advanced Materials. 2010;22:4749–4753.
Wang ZL*, Yang R, Zhou J, Qin Y, Xu C, Hu Y, Xu S. Lateral nanowire/nanobelt based nanogenerators, piezotronics and piezo-phototronics. Materials Science and Engineering: R: Reports. 2010;70:320–329.
2009
Hu Y, Gao Y, Singamaneni S, Tsukruk VV, Wang ZL. Converse piezoelectric effect induced transverse deflection of a free-standing ZnO microbelt. Nano letters. 2009;9:2661–2665.
Zhou J, Gu Y, Hu Y, Mai W, Yeh P-H, Bao G, Sood AK, Polla DL, Wang ZL*. Gigantic enhancement in response and reset time of ZnO UV nanosensor by utilizing Schottky contact and surface functionalization. Applied Physics Letters. 2009;94:191103.
Hu Y, Liu Y, Li W, Gao M, Liang X, Li Q, Peng L-M*. Observation of a 2D Electron Gas and the Tuning of the Electrical Conductance of ZnO Nanowires by Controllable Surface Band-Bending. Advanced Functional Materials. 2009;19:2380–2387.
Liu Y, Zhang Z, Xu H, Zhang L, Wang Z, Li W, Ding L, Hu Y, Gao M, Li Q, et al. Visible light response of unintentionally doped ZnO nanowire field effect transistors. The Journal of Physical Chemistry C. 2009;113:16796–16801.
Hu Y, Gao Y, Singamaneni S, Tsukruk VV, Wang ZL. Converse piezoelectric effect induced transverse deflection of a free-standing ZnO microbelt. Nano letters. 2009;9:2661–2665.
Hu Y, Liu Y, Li W, Gao M, Liang X, Li Q, Peng L-M*. Observation of a 2D Electron Gas and the Tuning of the Electrical Conductance of ZnO Nanowires by Controllable Surface Band-Bending. Advanced Functional Materials. 2009;19:2380–2387.
Zhou J, Gu Y, Hu Y, Mai W, Yeh P-H, Bao G, Sood AK, Polla DL, Wang ZL*. Gigantic enhancement in response and reset time of ZnO UV nanosensor by utilizing Schottky contact and surface functionalization. Applied Physics Letters. 2009;94:191103.
Liu Y, Zhang Z, Xu H, Zhang L, Wang Z, Li W, Ding L, Hu Y, Gao M, Li Q, et al. Visible light response of unintentionally doped ZnO nanowire field effect transistors. The Journal of Physical Chemistry C. 2009;113:16796–16801.
2008
Yao K, Gong WW, Hu YF, Liang XL, Chen Q, Peng L-M *. Individual Bi2S3 nanowire-based room-temperature H2 sensor. The Journal of Physical Chemistry C. 2008;112:8721–8724.
Liu Y, Zhang ZY, Hu YF, Jin CH, Peng L-M *. Quantitative fitting of nonlinear current–voltage curves and parameter retrieval of semiconducting nanowire, nanotube and nanoribbon devices. Journal of Nanoscience and Nanotechnology. 2008;8:252–258.
Hu Y, Liu Y, Xu H, Liang X, Peng L-M*, Lam N, Wong K, Li Q*. Quantitative study on the effect of surface treatments on the electric characteristics of ZnO nanowires. The Journal of Physical Chemistry C. 2008;112:14225–14228.
Hu Y, Liu Y, Xu H, Liang X, Peng L-M*, Lam N, Wong K, Li Q*. Quantitative study on the effect of surface treatments on the electric characteristics of ZnO nanowires. The Journal of Physical Chemistry C. 2008;112:14225–14228.
Yao K, Gong WW, Hu YF, Liang XL, Chen Q, Peng L-M *. Individual Bi2S3 nanowire-based room-temperature H2 sensor. The Journal of Physical Chemistry C. 2008;112:8721–8724.
Liu Y, Zhang ZY, Hu YF, Jin CH, Peng L-M *. Quantitative fitting of nonlinear current–voltage curves and parameter retrieval of semiconducting nanowire, nanotube and nanoribbon devices. Journal of Nanoscience and Nanotechnology. 2008;8:252–258.

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