Designs of Solar Voltaic Cells based on Carbon Nano-Tubes

机译：基于碳纳米管的太阳能伏打电池设计

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Since the recent success of Freitag et al (2002 NL), Guo et al. (PR 2004) and J-U Lee (2005 APL)of GE have demonstrated about 5% conversion efficiency of Voltaic Cell using a homogeneous lithography fabrication of single wall Carbon NanoTubes (CNT, or SWNT) as the p-n junction diode tuned at 1.5μm CW IR laser diode under 10 mW. We apply a NanoRobot of Xi& Szu to build the heterogeneous structure of a bundle of 4 CNT's for 4 solar spectral bands in 4 polarization orientations, a total of 16 CNTs per single unit of solar cells. In so doing, we design a circuit of 3 electrodes for 16 sources which can increase the efficiency to 80% per unit capturing the solar irradiance. The Einstein photoelectrical effect generating electron-hole pairs in the one-dimensional semiconductor band gap material: Carbon NanoTubes will be collected by a bias voltage on the side.

机译：自从Freitag等人（2002 NL）最近取得成功以来，Guo等人（2002）。 GE的（PR 2004）和JU Lee（2005 APL）通过使用单壁碳纳米管（CNT或SWNT）作为PN结二极管的均相光刻工艺，在1.5μmCW IR下调谐，证明了伏打电池的转换效率约为5％。 10 mW以下的激光二极管。我们应用Xi＆Szu的NanoRobot来构建4个CNT束的异质结构，用于4个极化方向的4个太阳光谱带，每个太阳能电池单元总共16个CNT。为此，我们设计了一个由3个电极组成的电路，用于16个源，可以将捕获太阳辐照度的效率提高到每单位80％。爱因斯坦光电效应在一维半导体带隙材料中产生电子-空穴对：碳纳米管将通过侧面的偏置电压收集。

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来源
《Independent Component Analyses, Wavelets, Unsupervised Smart Sensors, and Neural Networks IV》|2006年|P.62470F.1-62470F.8|共8页
会议地点 KissimmeeFL(US)
作者
Hsu-Cheng Ou; Harold Szu;
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作者单位

Digital Media RF Lab, Dept. ECE, GWU, Washington, DC 20052;

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会议组织
原文格式 PDF
正文语种 eng
中图分类图像信号处理;
关键词
nano-robot; carbon nanotube; CNT; solar voltaic cell; electrical power; clean energy;

机译：纳米机器人;碳纳米管;碳纳米管;太阳能电池;电力;清洁能源;

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Designs of Solar Voltaic Cells based on Carbon Nano-Tubes

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