Hung-Hsien Li scite author profile

A novel coaxial-structured amorphous-silicon (a-Si) p-i-n solar cell with 1-mu m-long low-temperature hydrothermally synthesized Al-doped-ZnO (AZO) nanowires was demonstrated for the first time. The conversion efficiency. increased from 3.92% to 4.27% when the intrinsic a-Si thickness was increased from 25 to 150 nm and then decreased to 3.66% when the intrinsic layer thickness was further increased to 250 nm. It was attributed to an excessively thick intrinsic a-Si layer that would decrease the internal electrical field and interfere with charge separation. With the optimum intrinsic a-Si thickness of 150 nm, the conversion efficiency increased from 4.27% to 4.73% when the AZO wire length was increased from 1 to 2 mu m. Moreover, the proposed coaxial-structured solar cell exhibited a nearly 46% efficiency enhancement over a conventional a-Si thin-film solar cell

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Experimental and theoretical study of low-cost hydrothermally grown nanowire silicon solar cell

Lin

Zhong

et al. 2013

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Photoresponse of Zinc oxide thin-film transistors with location-controlled crystal grains fabricated by low-temperature hydrothermal method

Yang

Lee

Chang

et al. 2011

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Hung-Hsien Li

pH Sensing Characteristics of Extended-Gate Field-Effect Transistor Based on Al-Doped ZnO Nanostructures Hydrothermally Synthesized at Low Temperatures

An Extended-Gate Field-Effect Transistor With Low-Temperature Hydrothermally Synthesized $\hbox{SnO}_{2}$ Nanorods as pH Sensor

A Novel Coaxial-Structured Amorphous-Silicon p-i-n Solar Cell With Al-Doped ZnO Nanowires

Experimental and theoretical study of low-cost hydrothermally grown nanowire silicon solar cell

Photoresponse of Zinc oxide thin-film transistors with location-controlled crystal grains fabricated by low-temperature hydrothermal method

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