Cu∶CdS/TiO2的制备及其光电化学性能研究

车致远; 王鑫伟; 陈昊; 张伟; 苏适; 马晋文

人工晶体学报, 2020, 49 (3): 428, 网络出版: 2020-06-15

Cu∶CdS/TiO2的制备及其光电化学性能研究

Preparation and Photoelectrochemical Property of Cu∶CdS/TiO2

论文大纲

车致远王鑫伟陈昊张伟苏适马晋文 ^*

作者单位

渤海大学新能源学院, 锦州 121000

硫化镉水热法二氧化钛纳米片薄膜光电化学性质 CdS hydrothermal method TiO2 nanosheet array film photoelectrochemical property

摘要

采用水热法制备(001)晶面裸露的TiO2纳米片阵列薄膜, 并采用水热法进行CdS纳米颗粒复合, 探讨不同水热反应时长对复合薄膜结构及性能的影响。为了提高复合薄膜的光电化学性能, 在水热反应过程中引入Cu前驱体, 并探讨不同掺杂浓度对复合薄膜性能的影响。研究结果表明Cu元素掺杂有效拓宽了CdS复合TiO2纳米片阵列薄膜(CdS/TiO2)的光吸收范围, 并且提高了CdS/TiO2的光电化学性能。当水热反应3 h, Cu掺杂浓度为1∶1 000时, CdS/TiO2的光电性能达到最佳。

Abstract

Firstly, the (001) plane oriented TiO2 nanosheet array film was prepared by hydrothermal method, and CdS nanoparticles were synthesized by hydrothermal method. The effects of hydrothermal reaction time on the structure and properties of the obtained films were investigated. Secondly, Cu element precursor was introduced into the hydrothermal reaction process in order to improve the photoelectrochemical performance of the composite film. And the effects of doping concentrations on the properties of the composite film were discussed. The results indicate that Cu element doping effectively broadens the light absorption range of the CdS sensitized TiO2 composite film (CdS/TiO2) and improves the photoelectrochemical properties of CdS/TiO2. When the hydrothermal reaction is carried out for 3 h and the Cu doping concentration was 1∶1 000, the photoelectrochemical properties of CdS/TiO2 are optimized.

参考文献

[1] Lee Y L, Chang C H. Efficient polysulfide electrolyte for CdS quantum dot-sensitized solar cells[J].Journal of Power Sources,2008,185(1): 584-588.

[2] Yasuaki J, Naya S, Tada H. Quantum-dot-sensitized solar cell using a photoanode prepared by in situ photodeposition of CdS on nanocrystalline TiO2 films[J].J. Phys. Chem. C,2010,114(39): 16837-16842.

[3] Wang H, Bai Y S, Zhang H, et al. CdS Quantum dots-sensitized TiO2 nanorod array on transparent conductive glass photoelectrodes[J]. J. Phys. Chem. C,2010,114(39): 16451-16455.

[4] Fujii M, Nagasuna M, Fujishima M, et al. Photodeposition of CdS quantum dots on TiO2: preparation, characterization, and reaction mechanism[J]. J. Phys. Chem. C,2009,113(38): 16711-16716.

[5] Singh R S, Rangari V K, Sanagapalli S. Nano-sturetured CdTe, CdS and TiO2 for thin film solar cell application[J].Solar Energy Materials and Solar Cells,2004,82(l-2): 315-330.

[6] Shikha T, Snajya T. Development of CdS based stable thin film photo electrochemical solar cells[J].Solar Energy Materials and Solar Cells,2006,90(11): 1621-1628.

[7] Lee Y L, Chi C F, Liu S Y. CdS/CdSe Co-sensitized TiO2 photoelectrode for efficient hydrogen generation in a photoelectrochemical cell[J].Chem. Mater,2010,22: 922-927.

[8] 焦静,沈鸿烈,王威,等. 化学浴法制备CdS薄膜及其光电性能研究[J].人工晶体学报, 2013,42(7):1299-1304.

[9] 赵守仁, 黄志鹏, 孙雷,等. 碲化镉薄膜太阳能电池电学特性参数分析[J].物理学报, 2013(18):507-512.

[10] Chandramohan S, Kanjilal A, Sarangi, et al. Implantation-assisted Co-doped CdS thin films: structural, optical, and vibrational properties[J].Journal of Applied Physics,106(6):063506-063506-6.

[11] Lee H J, Leventis H C, Moon S J, et al. pbs and cds quantum dot-sensitized solid-state solar cells: old concepts, new results[J].Advanced Functional Materials,2009,19(17): 2735-2742.

[12] Ling L, Yang X C, Gao J J, et al. Highly efficient CdS quantum dot-sensitized solar cells based on a modified polysulfide electrolyte[J].J. Am. Chem. Soc,2011,133(22):8458-8460.

[13] Chamarro M A, Voliotis V, Grousson R, et al. Optical properties of Mn-doped CdS nanocrystals[J].Journal of Crystal Growth,1996,159(1-4),853-856.

[14] Chen Y L,Tao Q,Fu W Y. Synthesis of PbS/Ni2+ doped CdS quantum dots cosensitized solar cells: enhanced power conversion efficiency and durability[J].Electrochimica Acta,2015,173(2015)812-818.

[15] 姚慧珍. TiO2纳米片阵列薄膜的制备、改性及其光电化学性能研究[D].长春:吉林大学,2016.

[16] 杨军. 硫化镉及其铜掺杂薄膜的制备与性质研究[D].合肥:中国科学技术大学,2012.

[17] Sebastian P J. p-type CdS Thin films formed by in Situ Cu doping in the chemical bath[J].Applied Physics Letters,1993,62(23):2956-2958.

[18] Mandal P, Talwar S S, Major S S, et al. Orange-red luminescence from Cu doped CdS nanophosphor prepared using mixed langmuir-blodgett multilayers[J].The Jounal of Chemical Physics,2008,128:114703-114703-7.

[19] Nishidate K, Sato T, Matsukura Y, et al. Density-functional electronic structure calculations for native defects and Cu impurities in CdS[J].Physical Review B,2006,74:035210-035120-8.

车致远, 王鑫伟, 陈昊, 张伟, 苏适, 马晋文. Cu∶CdS/TiO2的制备及其光电化学性能研究[J]. 人工晶体学报, 2020, 49(3): 428. CHE Zhiyuan, WANG Xinwei, CHEN Hao, ZHANG Wei, SU Shi, MA Jinwen. Preparation and Photoelectrochemical Property of Cu∶CdS/TiO2[J]. Journal of Synthetic Crystals, 2020, 49(3): 428.

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