矽粉塗抹式太陽能發電裝置研製

矽粉塗抹式太陽能發電裝置研製

碩士 === 國立勤益科技大學 === 電子工程系 === 104 === A traditional solar power generation device (SPGD) is generally a solid block, so the shape of the traditional SPGD will be limited to minority appearances and can’t be applied to the flexible substrates. In this paper, we use nanotechnology to grind solid block...

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Main Authors: Tsan-Sheng Huang, 黃贊升
Other Authors: Chen-Chung Liu
Format: Others
Language:zh-TW
Published: 2016
Online Access:http://ndltd.ncl.edu.tw/handle/4dkzv4
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spelling ndltd-TW-104NCIT57750232019-05-15T23:09:29Z http://ndltd.ncl.edu.tw/handle/4dkzv4 矽粉塗抹式太陽能發電裝置研製 矽粉塗抹式太陽能發電裝置研製 Tsan-Sheng Huang 黃贊升 碩士 國立勤益科技大學 電子工程系 104 A traditional solar power generation device (SPGD) is generally a solid block, so the shape of the traditional SPGD will be limited to minority appearances and can’t be applied to the flexible substrates. In this paper, we use nanotechnology to grind solid block of silicon into a nano-grade silicon powder first. The powder is then painted on a flexible copper foil to produce a new type SPGD. The new type SPGD can be applied in any illuminated place. And, its shape and size have greater flexibility. Further, the experiment results show that small size substrate painted with 200 nanometer grade silicon powder or large size substrate painted with 30 nanometer grade silicon powder have higher photoelectric conversion efficiency. Chen-Chung Liu Po-Ying Chen 劉正忠 陳柏頴 2016 學位論文 ; thesis 67 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立勤益科技大學 === 電子工程系 === 104 === A traditional solar power generation device (SPGD) is generally a solid block, so the shape of the traditional SPGD will be limited to minority appearances and can’t be applied to the flexible substrates. In this paper, we use nanotechnology to grind solid block of silicon into a nano-grade silicon powder first. The powder is then painted on a flexible copper foil to produce a new type SPGD. The new type SPGD can be applied in any illuminated place. And, its shape and size have greater flexibility. Further, the experiment results show that small size substrate painted with 200 nanometer grade silicon powder or large size substrate painted with 30 nanometer grade silicon powder have higher photoelectric conversion efficiency.
author2 Chen-Chung Liu
author_facet Chen-Chung Liu
Tsan-Sheng Huang
黃贊升
author Tsan-Sheng Huang
黃贊升
spellingShingle Tsan-Sheng Huang
黃贊升
矽粉塗抹式太陽能發電裝置研製
author_sort Tsan-Sheng Huang
title 矽粉塗抹式太陽能發電裝置研製
title_short 矽粉塗抹式太陽能發電裝置研製
title_full 矽粉塗抹式太陽能發電裝置研製
title_fullStr 矽粉塗抹式太陽能發電裝置研製
title_full_unstemmed 矽粉塗抹式太陽能發電裝置研製
title_sort 矽粉塗抹式太陽能發電裝置研製
publishDate 2016
url http://ndltd.ncl.edu.tw/handle/4dkzv4
work_keys_str_mv AT tsanshenghuang xìfěntúmǒshìtàiyángnéngfādiànzhuāngzhìyánzhì
AT huángzànshēng xìfěntúmǒshìtàiyángnéngfādiànzhuāngzhìyánzhì
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