CdS/CdSe core-shell nanorod arrays: Energy level alignment and enhanced photoelectrochemical performance

Meng Wang; Jiangang Jiang; Jinwen Shi; Liejin Guo

doi:10.1021/am400851q

CdS/CdSe core-shell nanorod arrays: Energy level alignment and enhanced photoelectrochemical performance

Meng Wang
, Jiangang Jiang
, Jinwen Shi
, Liejin Guo

School of Energy and Power Engineering

Xi'an Jiaotong University

Research output: Contribution to journal › Article › peer-review

65 Scopus citations

Abstract

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/cm², which was 4 and 11 times as large as bare CdS and CdSe, respectively.

Original language	English
Pages (from-to)	4021-4025
Number of pages	5
Journal	ACS Applied Materials and Interfaces
Volume	5
Issue number	10
DOIs	https://doi.org/10.1021/am400851q
State	Published - 22 May 2013

Keywords

CdS
CdSe
Fermi level alignment
core-shell
photoelectrochemistry

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10.1021/am400851q

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title = "CdS/CdSe core-shell nanorod arrays: Energy level alignment and enhanced photoelectrochemical performance",

abstract = "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/cm2, which was 4 and 11 times as large as bare CdS and CdSe, respectively.",

keywords = "CdS, CdSe, Fermi level alignment, core-shell, photoelectrochemistry",

author = "Meng Wang and Jiangang Jiang and Jinwen Shi and Liejin Guo",

year = "2013",

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doi = "10.1021/am400851q",

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}

TY - JOUR

T1 - CdS/CdSe core-shell nanorod arrays

T2 - Energy level alignment and enhanced photoelectrochemical performance

AU - Wang, Meng

AU - Jiang, Jiangang

AU - Shi, Jinwen

AU - Guo, Liejin

PY - 2013/5/22

Y1 - 2013/5/22

N2 - 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/cm2, which was 4 and 11 times as large as bare CdS and CdSe, respectively.

AB - 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/cm2, which was 4 and 11 times as large as bare CdS and CdSe, respectively.

KW - CdS

KW - CdSe

KW - Fermi level alignment

KW - core-shell

KW - photoelectrochemistry

UR - https://www.scopus.com/pages/publications/84878297727

U2 - 10.1021/am400851q

DO - 10.1021/am400851q

M3 - 文章

AN - SCOPUS:84878297727

SN - 1944-8244

VL - 5

SP - 4021

EP - 4025

JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

IS - 10

ER -

CdS/CdSe core-shell nanorod arrays: Energy level alignment and enhanced photoelectrochemical performance

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Keywords

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