ZnO and carbon nanocomposites for enhanced photoelectrochemical sensing activity: influence of the carbon content

被引:0
|
作者
M. Gaidi
M. Salem
S. Akir
I. Massoudi
T. Ghrib
Y. Litaiem
K. Khirouni
机构
[1] University of Sharjah,Center of Advanced Research Materials, Research Institute of Sciences and Engineering
[2] Laboratoire de Photovoltaique,Centre National de Recherches en Sciences des Matériaux (CNRSM)
[3] Centre de Recherches et des Technologies de l’Energie,Department of Physics, College of Science
[4] Technopole de Borj-Cédria,Laboratory of Physical Alloys (LPA), College of Science of Dammam
[5] Laboratoire de physique des matériaux et nanomatériaux appliqués à l’environnement,undefined
[6] Faculté des sciences de Gabes,undefined
[7] Département de Physique,undefined
[8] Technopôle Borj Cedria,undefined
[9] Imam Abdulrahman Bin Faisal University,undefined
[10] Imam Abdulrahman Bin Faisal University,undefined
[11] Laboratoire nanomatériaux et système pour les énergies renouvelables (LANSER),undefined
[12] Centre de Recherches et des Technologies de l’Energie,undefined
[13] Technopole de Borj-Cédria,undefined
来源
Journal of Solid State Electrochemistry | 2018年 / 22卷
关键词
ZnO; Carbon; PEC; Hydrothermal; SEM;
D O I
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中图分类号
学科分类号
摘要
In this work, carbon and zinc oxide (ZnO:C) nanocomposites were obtained by a hydrothermal reaction process. ZnO nanoparticles were first prepared by a homogeneous coprecipitation method. Nanocomposites with atomic concentrations of carbon ranging from 39.4 to 69.7 wt.% were then attained. The microstructure and morphology of each prepared nanocomposite was investigated by X-ray diffraction (XRD), Raman spectroscopy, and scanning electron microscopy (SEM). The ZnO:C nanocomposites were found to present a wurtzite-type hexagonal crystalline structure that shifted towards an amorphous state with increasing C content. Results showed that incorporating the covalent carbon at O sites in the ZnO lattice causes lattice compression. Due to their low band-gap energies, the photoresponses of the ZnO:C nanocomposites extended into the visible region. The sensing characteristics of ZnO:C nanocomposite films were also investigated, and a major improvement in the photoelectrochemical (PEC) efficiency was obtained when the C content was 39 wt.%.
引用
收藏
页码:3631 / 3637
页数:6
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