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Efficiency enhancements in Ag nanoparticles-SiO2-TiO2 sandwiched structure via plasmonic effect-enhanced light capturing

机译：通过等离激元效应增强光捕获提高Ag纳米颗粒-SiO2-TiO2夹心结构的效率

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摘要

TiO2-SiO2-Ag composites are fabricated by depositing TiO2 films on silica substrates embedded with Ag nanoparticles. Enhancement of light absorption of the nanostructural composites is observed. The light absorption enhancement of the synthesized structure in comparison to TiO2 originated from the near-field enhancement caused by the plasmonic effect of Ag nanoparticles, which can be demonstrated by the optical absorption spectra, Raman scattering investigation, and the increase of the photocatalytic activity. The embedded Ag nanoparticles are formed by ion implantation, which effectively prevents Ag to be oxidized through direct contact with TiO2. The suggested incorporation of plasmonic nanostructures shows a great potential application in a highly efficient photocatalyst and ultra-thin solar cell.

机译：TiO2-SiO2-Ag复合材料是通过将TiO2膜沉积在嵌入有Ag纳米颗粒的二氧化硅基底上而制成的。观察到纳米结构复合材料的光吸收增强。与TiO2相比，合成结构的光吸收增强源自Ag纳米粒子的等离子体效应引起的近场增强，这可以通过光吸收光谱，拉曼散射研究以及光催化活性的增加来证明。内嵌的银纳米粒子是通过离子注入形成的，可以有效防止银通过与TiO2直接接触而被氧化。建议的等离子纳米结构的结合显示出在高效光催化剂和超薄太阳能电池中的巨大潜在应用。

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期刊名称 Nanoscale Research Letters
作者
Jinxia Xu; Xiangheng Xiao; Andrey L Stepanov; Fen Ren; Wei Wu; Guangxu Cai; Shaofeng Zhang; Zhigao Dai; Fei Mei; Changzhong Jiang;
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作者单位

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年(卷),期 2013(8),1
年度 2013
页码 73
总页数 5
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
Plasmonic effect Ion implantation Ag nanoparticles Photocatalysis;

机译：等离子体效应;离子注入;银纳米颗粒;光催化;

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机译：等离子体银夹层结构化光电码和反射电极增强染料敏化太阳能电池的电力转换效率
2. Light trapping plasmonic butterfly-wing-shaped nanostructures for enhanced absorption and efficiency in organic solar cells [J] . Kumar Kamal, Kumawat Uttam K., Mital R., Journal of the Optical Society of America, B. Optical Physics . 2019,第4期

机译：光捕获等离子体蝶形翼形纳米结构，用于增强有机太阳能电池的吸收和效率
3. Visible-light-driven Ag/AgCl plasmonic photocatalysts via a surfactant-assisted protocol: enhanced catalytic performance by morphology evolution from near-spherical to 1D structures [J] . Wang Yanping, Chen Penglei, Shen Yunfan, Physical chemistry chemical physics: PCCP . 2015,第38期

机译：通过表面活性剂辅助方案的可见光驱动的Ag / AgCl等离子体激元光催化剂：通过从近球形到一维结构的形态演变，增强了催化性能
4. New Type of Adhesive Resin with Ceramic Nanoparticle for Enhancement in Light Extraction Efficiency of Sandwiched LED Device Structure [C] . J. G. Park, W. J. Kim, I. J. Lee, International Symposium on the Science and Technology of Lighting . 2016

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5. Optimizing the Plasmonic Enhancement of Light in Metallic Nanogap Structures for Surface-Enhanced Raman Spectroscopy [D] . Bauman, Stephen Joseph. 2018

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6. Large enhancement of light extraction efficiency in AlGaN-based nanorod ultraviolet light-emitting diode structures [O] . Han-Youl Ryu 2014

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7. Efficiency enhancements in Ag nanoparticles-SiO2-TiO2 sandwiched structure via plasmonic effect-enhanced light capturing [O] . Jinxia Xu, Xiangheng Xiao, Andrey L Stepanov, 2013

机译：通过等离激元效应增强光捕获提高Ag纳米颗粒-SiO2-TiO2夹心结构的效率
8. Aperiodic Photonic-Plasmonic Structures with Broadband Field Enhancement. [R] . Walsh, G., Dal Negro, L. 2012

机译：具有宽带场增强的非周期光子 - 等离子体结构。

Efficiency enhancements in Ag nanoparticles-SiO2-TiO2 sandwiched structure via plasmonic effect-enhanced light capturing

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