CdS/CdSe Core-Shell Nanorod Arrays: Energy Level Alignment and Enhanced Photoelectrochemical Performance

Meng Wang; Jiangang Jiang; Jinwen Shi

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CdS/CdSe Core-Shell Nanorod Arrays: Energy Level Alignment and Enhanced Photoelectrochemical Performance

机译：CdS / CdSe核壳纳米棒阵列：能级对准和增强的光电化学性能

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Novel CdS/CdSe core-shell nanorod arrays were fabricated by a chemical bath deposition of CdSe on hydrothermally synthesized CdS nanorods. The CdS rods were hexagonal phase faced and the top of the rod was subulate. After the chemical bath deposition approach, CdS nanorod arrays were encapsulated by a uniform CdSe layer resulting enhanced absorbance and extended absorption edges of the films. A tandem structure of the energy bands of CdS/ CdSe was also formed as a result of the Fermi level alignment, which is a benefit to the efficient separation of photogenerated charges. CdS/CdSe core—shell arrays gave a maximum photocurrent of 5.3 mA/cm~2, which was 4 and 11 times as large as bare CdS and CdSe, respectively,

机译：通过在水热合成的CdS纳米棒上化学浴沉积CdSe制备了新型CdS / CdSe核壳纳米棒阵列。 CdS棒的表面为六边形，棒的顶部为钻形。在化学浴沉积方法之后，CdS纳米棒阵列被均匀的CdSe层封装，从而提高了薄膜的吸收率并扩展了吸收边缘。费米能级对准还形成了CdS / CdSe能带的串联结构，这对有效分离光生电荷是有好处的。 CdS / CdSe核-壳阵列的最大光电流为5.3 mA / cm〜2，分别是裸CdS和CdSe的4和11倍。

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《ACS applied materials & interfaces》 |2013年第10期|共5页
作者
Meng Wang; Jiangang Jiang; Jinwen Shi;
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正文语种 eng
中图分类化学工业;
关键词
core—shell; CdS; CdSe; Fermi level alignment; photoeledrochetnistry;

机译：核—壳;CdS;CdSe;费米能级比对;光电致伸缩;
入库时间 2022-08-18 10:01:01

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1. CdS/CdSe Core-Shell Nanorod Arrays: Energy Level Alignment and Enhanced Photoelectrochemical Performance [J] . Meng Wang, Jiangang Jiang, Jinwen Shi ACS applied materials & interfaces . 2013,第10期

机译：CdS / CdSe核壳纳米棒阵列：能级对准和增强的光电化学性能
2. Enhanced photoelectrochemical performance of CdSe/Mn-CdS/TiO_2 nanorod arrays solar cell [J] . Libo Yu, Zhen Li, Yingbo Liu, Applied Surface Science . 2014,第auga1期

机译：CdSe / Mn-CdS / TiO_2纳米棒阵列太阳能电池的光电化学性能增强
3. The enhanced photoelectrochemical performance of PbS/ZnS quantum dots co-sensitized CdSe nanorods array heterostructure [J] . Shi Baozhu, Qi Yan, Tian Lecheng, Materials science in semiconductor processing . 2019,第期

机译：PBS / ZnS量子点的增强光电化学性能共敏化CDSE纳米棒阵列异质结构
4. Fabrication of TiO_2/Ag/Ag_3PO_4 Heterostructured Nanorod Arrays on FTO for Enhanced Photoelectrochemical and Photocatalytic Performances [C] . Wei Liang, Shengling Lin, Chuanxiang Chen, International Conference on Mechatronics and Information Technology . 2016

机译：用于增强光电化学和光催化性能的FTO制备TiO_2 / AG / AG_3PO_4异质结构纳米棒阵列
5. Excited-state Dynamics of Semiconductor Nanocrystals: Trapped-hole Diffusion and Electron-transfer Kinetics in CdS and CdSe Nanorods [D] . Utterback, James Keller. 2018

机译：半导体纳米晶体的激发态动力学：CdS和CdSe纳米棒中的陷孔扩散和电子转移动力学
6. Solar Energy Conversion: Hole‐Accepting‐Ligand‐Modified CdSe QDs for Dramatic Enhancement of Photocatalytic and Photoelectrochemical Hydrogen Evolution by Solar Energy (Adv. Sci. 4/2016) [O] . Xu‐Bing Li, Bin Liu, Min Wen, 2016

机译：太阳能转化：空穴接受配体修饰的CdSe QD可显着增强太阳能对光催化和光电化学氢的释放（Adv。Sci。4/2016）
7. N-N type core-shell heterojunction engineering with MoO3 over ZnO nanorod cores for enhanced solar energy harvesting application in a photoelectrochemical cell [O] . Dipanjan Maity, Keshab Karmakar, Kalyan Mandal 2019

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8. Research on Photoelectrochemical Cells Based on CdSe, CdSe/sub 1-X/Te/sub X/ and Other Photoelectrode Materials [R] . Wallace, W. L. 1984

机译：基于Cdse，Cdse / sub 1-X / Te / sub X /等光电极材料的光电化学电池研究

CdS/CdSe Core-Shell Nanorod Arrays: Energy Level Alignment and Enhanced Photoelectrochemical Performance

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