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Solvothermal Process Assisted Sensitization of 1D Anodized TiO2 Nanotubes with 0D Cadmium Chalcogenides (CdTe, CdS) for Efficient Solar to Clean Energy Generation.

机译：溶剂热过程辅助使用0D硫属硫化物（CdTe，CdS）的1D阳极氧化TiO2纳米管的增感，以有效地清洁太阳能。

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The creation of an n-n heterojunction between TiO2 nanotubes (T_NT) and CdTe nanocrystals (which mostly exist as p-type) is crucial for realizing the benefits of efficient directional charge transport in a photoanode of 1D/0D architecture. The presented one-pot solvothermal approach leverages temperature control to achieve linker-free spatial distribution of CdTe nanocrystals (NCs) on T_NT resulting in highly efficient optical and photoelectrochemical responses. As a result of this positive outcome, a comparative study between the solvothermal approach and the linker mediated approach was performed on water oxidation with CdS NC decorated T_NT. Solvothermally synthesized T_NT/CdS photoelectrode presents ∼600% higher value of short-circuit current density (Isc) than that of the plain T_NT (0.95 mA/cm2); in addition, it demonstrates 4.20-fold increased applied-bias-to photoconversion efficiency (ABPE) in comparison with the lone T_NT (0.77%). However, linker mediated T_NT/MPA-CdS photoelectrode exhibits relatively lower value of I sc (2.51 mA/cm2) and ABPE (1.79 %).

机译：在TiO2纳米管（T_NT）和CdTe纳米晶体（通常以p型存在）之间创建n-n异质结对于在1D / 0D结构的光电阳极中实现有效的定向电荷传输的好处至关重要。提出的一锅溶剂热方法利用温度控制来实现T_NT上CdTe纳米晶体（NC）的无连接子的空间分布，从而产生高效的光学和光电化学反应。由于这一积极成果，使用CdS NC装饰的T_NT对水热氧化进行了溶剂热方法和接头介导方法之间的比较研究。溶剂热合成的T_NT / CdS光电极的短路电流密度（Isc）值比普通T_NT（0.95 mA / cm2）高约600％；此外，与单独的T_NT（0.77％）相比，它证明了从应用到光电转换的效率（ABPE）增加了4.20倍。但是，接头介导的T_NT / MPA-CdS光电极表现出相对较低的I sc（2.51 mA / cm2）和ABPE（1.79％）值。

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作者
Sarker, Swagotom.;
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作者单位

University of Nevada, Reno.;

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授予单位 University of Nevada, Reno.;
学科 Chemical engineering.;Alternative Energy.;Nanotechnology.
学位 M.S.
年度 2014
页码 54 p.
总页数 54
原文格式 PDF
正文语种 eng
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专利

1. CdS-CdSe (CdTe) core-shell quantum dots sensitized TiO2 nanotube array solar cells [J] . Wang Qingyao, Li Song, Qiao Jianlei, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2015,第Null期

机译：CdS-CdSe（CdTe）核壳量子点敏化的TiO2纳米管阵列太阳能电池
2. Engineered Solution-Liquid-Solid Growth of a "Treelike" 1D/1D TiO2 Nanotube-CdSe Nanowire Heterostructure: Photoelectrochemical Conversion of Broad Spectrum of Solar Energy [J] . Mukherjee Bratindranath, Sarker Swagotom, Crone Eric, ACS applied materials & interfaces . 2016,第48期

机译：工程化溶液-液体-固体生长的“树状” 1D / 1D TiO2纳米管-CdSe纳米线异质结构：宽光谱太阳能的光电化学转化
3. Highly efficient CdTe/CdS quantum dot sensitized solar cells fabricated by a one-step linker assisted chemical bath deposition [J] . Xiao-Yun Yu, Bing-Xin Lei, Dai-Bin Kuang Chemical science . 2011,第7期

机译：通过一步连接器辅助化学浴沉积制备的高效CdTe / CdS量子点敏化太阳能电池
4. Preparation of TiO2 nanotube arrays through two-step anodization for efficient dye sensitized solar cells [C] . Chuanjun Huang, Limin Zhou, Guoge Zhang, The 2nd international conference on nanomechanics amp; nanocomposites: program amp; abstracts. . 2010

机译：通过两步阳极氧化制备TiO2纳米管阵列，以实现高效的染料敏化太阳能电池
5. Computational modeling of cadmium sulfide deposition in the CdS/CdTe solar cell manufacturing process. [D] . Hemenway, Davis Robert. 2013

机译：CdS / CdTe太阳能电池制造过程中硫化镉沉积的计算模型。
6. Double-Sided Transparent TiO2 Nanotube/ITO Electrodes for Efficient CdS/CuInS2 Quantum Dot-Sensitized Solar Cells [O] . Chong Chen, Lanyu Ling, Fumin Li 2017

机译：双面透明TiO2纳米管/ ITO电极用于高效CdS / CuInS2量子点敏化太阳能电池
7. Engineered SolutionLiquidSolid Growth of a Treelike 1D/1D TiO2 Nanotube-CdSe Nanowire Heterostructure: Photoelectrochemical Conversion of Broad Spectrum of Solar Energy [O] . -1

机译：工程化溶液中溶液的溶液溶血剂溶剂生长型纳米管 - CDSE纳米线异质结构：太阳能广谱的光电化学转换

Solvothermal Process Assisted Sensitization of 1D Anodized TiO2 Nanotubes with 0D Cadmium Chalcogenides (CdTe, CdS) for Efficient Solar to Clean Energy Generation.

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