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Enhancing energy harvesting and conversion efficiencies of heterogeneous photocatalysts for solar water splitting using surface plasmon resonance and cathodic reduction methods

机译：使用表面等离振子共振和阴极还原方法提高用于太阳能水分解的非均相光催化剂的能量收集和转化效率

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作者
Wang, Jue;
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作者单位

The University of Alabama;

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授予单位 The University of Alabama;
学科
学位 Ph.D.
年度 2015
页码 183 p.
总页数 183
原文格式 PDF
正文语种 eng
中图分类
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入库时间 2022-08-17 12:00:00

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1. Surface plasmon resonance effect of a Pt-nano-particles-modified TiO2 nanoball overlayer enables a significant enhancement in efficiency to 3.5% for a Cu2ZnSnS4-based thin film photocathode used for solar water splitting [J] . Li Lintao, Feng Kuang, Huang Dingwang, Chemical engineering journal . 2020,第期

机译：Pt-纳米颗粒改性TiO2纳米覆载机的表面等离子体共振效应使得能够显着提高到用于太阳能分裂的Cu2ZnSNS4的薄膜光阴离区的3.5％
2. Scalable water splitting on particulate photocatalyst sheets with a solar-to-hydrogen energy conversion efficiency exceeding 1% [J] . Qian Wang, Takashi Hisatomi, Qingxin Jia, Nature Materials . 2016,第6期

机译：可缩放的水分解成颗粒状的光催化剂片，太阳能到氢的能量转换效率超过1％
3. Manipulation of surface plasmon resonance of sputtered gold-nanoparticles on TiO_2 nanostructured films for enhanced photoelectrochemical water splitting efficiency [J] . Jiang Liyun, Li Hongxia, Mu Jinxia, Thin Solid Films . 2018,第SEPa1期

机译：操纵溅射的金纳米颗粒在TiO_2纳米结构薄膜上的表面等离子体共振，以提高光电化学水分解效率
4. High Efficiency Solar to Electric Energy Conversion through Spectrum Splitting and Multi-channel Full Spectrum Harvesting [C] . Lirong Zeng Broderick, Tiejun Zhang, Marco Stefancich, Materials Research Society Meeting . 2013

机译：高效太阳能通过频谱分裂和多通道全谱收获电力转换
5. Composite Silver/Titania Photocatalysts for Visible Light Water Splitting: The Role of Silver Surface Plasmons. [D] . Ingram, David Brooke. 2011

机译：可见光水分解的复合银/二氧化钛光催化剂：银表面等离激元的作用。
6. Tunable localized surface plasmon-enabled broadband light harvesting enhancement for high-efficiency panchromatic dye-sensitized solar cells [O] . XIANGNAN DANG, JIFA QI, MATTHEW T. KLUG, -1

机译：可调谐局部等离子体的宽带光收获高效染色敏化太阳能电池的增强
7. Solar Water Splitting: Enhancing Low-Bias Performance of Hematite Photoanodes for Solar Water Splitting by Simultaneous Reduction of Bulk, Interface, and Surface Recombination Pathways (Adv. Energy Mater. 4/2016) [O] . In Sun Cho, Hyun Soo Han, Manca Logar, 2016

机译：太阳能分裂：通过同时减少散装，界面和表面重组途径（ADV。能量母体，增强太阳能水分裂的低偏置性能

Enhancing energy harvesting and conversion efficiencies of heterogeneous photocatalysts for solar water splitting using surface plasmon resonance and cathodic reduction methods

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