Effect of Al-pillar nanostructures on organic thin film solar cells

カテゴリ: 研究会(論文単位)

論文No: DEI18017

グループ名: 【A】基礎・材料・共通部門 誘電・絶縁材料研究会

発行日: 2018/01/23

タイトル(英語): Effect of Al-pillar nanostructures on organic thin film solar cells

著者名: Phengdaam Apichat(Prince of Songkla University),Yang Jing(National University of Singapore),Li Jiabao(National University of Singapore),Hong Minghui(National University of Singapore),Shinbo Kazunari(Niigata University),Kato Keizo(Niigata University),Kaneko Futao(Niigata University),Ishikawa Ryousuke(Niigata University),Lertvachirapaiboon Chutiparn(Niigata University),Ekgasit Sanong(Chulalongkorn University),Baba Akira(Niigata University)

著者名(英語): Apichat Phengdaam(Prince of Songkla University),Jing Yang(National University of Singapore),Jiabao Li(National University of Singapore),Minghui Hong(National University of Singapore),Kazunari Shinbo(Niigata University),Keizo Kato(Niigata University),Futao Kaneko(Niigata University),Ryousuke Ishikawa(Niigata University),Chutiparn Lertvachirapaiboon(Niigata University),Sanong Ekgasit(Chulalongkorn University),Akira Baba(Niigata University)

キーワード: Al-pillar nanostructures|anti-reflection|SPR|Al-pillar nanostructures|anti-reflection|SPR

要約(日本語): As anti-reflection structures, the Al-pillar nanostructures were introduced on OSCs by thermal imprinting process. The effect of varied weighting on PDMS mold were investigated. The morphology of Al-pillar nanostructures such as height and diameter were observed by atomic force microscope (AFM). The photovoltaic parameters were studied following irradiation under a solar simulator equipped with a precision source-meter unit. The results show that variation of weighting on PDMS mold for thermal imprinting process played an important role to control the height and diameter of Al-pillar nanostructures on OSCs. Only none weighting condition, OSCs with pillar nanostructures have the solar cell efficiency more than with flat surface around 10%.

要約(英語): As anti-reflection structures, the Al-pillar nanostructures were introduced on OSCs by thermal imprinting process. The effect of varied weighting on PDMS mold were investigated. The morphology of Al-pillar nanostructures such as height and diameter were observed by atomic force microscope (AFM). The photovoltaic parameters were studied following irradiation under a solar simulator equipped with a precision source-meter unit. The results show that variation of weighting on PDMS mold for thermal imprinting process played an important role to control the height and diameter of Al-pillar nanostructures on OSCs. Only none weighting condition, OSCs with pillar nanostructures have the solar cell efficiency more than with flat surface around 10%.

原稿種別: 英語

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