Band structure engineering of TiO2 nanowires by n-p codoping for enhanced visibie-iight photoelectrochemical water-splitting

Daoyu Zhang; Minnan Yang

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Band structure engineering of TiO2 nanowires by n-p codoping for enhanced visibie-iight photoelectrochemical water-splitting

机译：N-P编码增强型visibie-iighie光电化学水分解的TiO2纳米线带结构工程

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The advantages of one-dimensional nanostructures, such as excellent charge separation and charge transport, low charge carrier recombination losses and so on, render them the photocatalysts of choice for many applications that exploit solar energy. In this work, based on very recently synthesized ultrathin anatase TiO2 nanowires, we explore the possibility of these wires as photocatalysts for photoelectrochemical water-splitting via the mono-doping (C, N, V, and Cr) and n-p codoping (C&V, C&Cr, N&V, and N&Cr) schemes. Our first-principles calculations predict that the C&Cr and C&V codoped ANWs may be strong candidates for photoelectrochemical water-splitting, because they have a substantially reduced band gap of 2.49 eV, appropriate band edge positions, no carrier recombination centers, and enhanced optical absorption in the visible light region.

机译：一维纳米结构的优点，例如优异的电荷分离和电荷传输，低电荷载体复合损失等，使其成为利用太阳能的许多应用选择的光催化剂。在这项工作中，基于最近合成的超薄锐钛矿TiO2纳米线，我们探讨了这些导线作为光催化剂，通过单掺杂（C，N，V和Cr）和NP编码（C＆V，C＆CR）（C＆V，C＆CR）来探讨光电化学水分解，N＆V和N＆CR）方案。我们的第一原理计算预测C＆CR和C＆V编码anws可能是光电化学水分解的强烈候选者，因为它们具有2.49eV的基本上减小的带隙，适当的带边缘位置，无载体重组中心，以及增强的光学吸收可见光区域。

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《Physical chemistry chemical physics: PCCP》 |2013年第42期|共7页
作者
Daoyu Zhang; Minnan Yang;
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Department of Physics Southeast University Nanjing 211189 China.;

Department of Physics China Pharmaceutical University Nanjing 211198 China;

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正文语种 eng
中图分类物理学;化学;
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1. Band structure engineering of TiO2 nanowires by n-p codoping for enhanced visibie-iight photoelectrochemical water-splitting [J] . Daoyu Zhang, Minnan Yang Physical chemistry chemical physics: PCCP . 2013,第42期

机译：N-P编码增强型visibie-iighie光电化学水分解的TiO2纳米线带结构工程
2. Efficient charge transfer and separation of TiO2@NiCo-LDH core-shell nanowire arrays for enhanced photoelectrochemical water-splitting [J] . Hao Chenchun, Zhang Ru, Wang Wenzhong, Journal of solid state electrochemistry . 2019,第8期

机译：用于增强光电化学水分解的TiO2 @ Nico-LDH芯 - 壳纳米线阵列的高效电荷转移和分离
3. Hydrogen plasma reduced black TiO2-B nanowires for enhanced photoelectrochemical water-splitting [J] . Tian Zhangliu, Cui Huolei, Zhu Guilian, Journal of power sources . 2016,第sepa1期

机译：氢等离子体还原的黑色TiO2-B纳米线，用于增强光电化学水分解
4. Cationic (V, Y)-codoped TiO_2 with Enhanced Visible Light Induced Photocatalytic Activity for Photoelectrochemical Applications [C] . Matiullah Khan, Wenbin Cao, Bilal Mansoor Mediterranean Materials Congress on Energy and Infrastructure Systems . 2015

机译：阳离子（v，y）-codoped tiO_2具有增强的可见光诱导光电催化活性的光电化学应用
5. Nanostructured nitrogen and carbon codoped TiO2 thin films: Synthesis, structural characterization and optoelectronic properties. [D] . Ruzybayev, Inci. 2014

机译：氮和碳共掺杂的纳米结构TiO2薄膜：合成，结构表征和光电性能。
6. Ni/Si-Codoped TiO2 Nanostructure Photoanode for Enhanced Photoelectrochemical Water Splitting [O] . Ting Li, Dongyan Ding 2019

机译：Ni / Si掺杂的TiO2纳米结构光阳极用于增强光电化学水分解
7. Charged States and Band-Gap Narrowing in Codoped ZnO Nanowires for Enhanced Photoelectrochemical Responses [O] . Xu, Zhuo, Zheng, Qing-Rong, Su, Gang 2012

机译：共掺杂ZnO纳米线中的带电状态和带隙变窄增强的光电化学响应

Band structure engineering of TiO2 nanowires by n-p codoping for enhanced visibie-iight photoelectrochemical water-splitting

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