Fabrication of Two Types of Ordered InP Nanowire Arrays on a Single Anodic Aluminum Oxide Template and Its Application in Solar Cells
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2015年第6期
论文作者:Jun Zhang Ling Jin Siqian Li Jian Xie Fangyu Yang Jinxia Duan Tiehan-H.Shen Hao Wang
文章页码:634 - 638
摘 要:Two types of ordered InP nanowire arrays have been prepared on the same anodic aluminum oxide template by a template-assisted metallo-organic chemical vapor deposition technique.When using template with an appropriate pore size,free-standing wires on the template surface and highly ordered wires in the nanochannels of the same template can be simultaneously achieved.The highly ordered InP nanowire arrays in the nanochannels serve as an n-type semiconductor to assemble the p-n heterojunction solar cell with p-type Cu2O.Such a Cu2O/lnP p-n heterojunction solar cell possesses a power conversion efficiency of 1.55%.
Jun Zhang1,Ling Jin1,Siqian Li1,Jian Xie1,Fangyu Yang1,Jinxia Duan1,Tiehan-H.Shen2,Hao Wang1
1. Hubei Collaborative Innovation Center for Advanced Organic Chemical Materials,Faculty of Physics and Electronic Technology,Hubei University2. Joule Physics Laboratory,Institute for Materials Research,University of Salford
摘 要:Two types of ordered InP nanowire arrays have been prepared on the same anodic aluminum oxide template by a template-assisted metallo-organic chemical vapor deposition technique.When using template with an appropriate pore size,free-standing wires on the template surface and highly ordered wires in the nanochannels of the same template can be simultaneously achieved.The highly ordered InP nanowire arrays in the nanochannels serve as an n-type semiconductor to assemble the p-n heterojunction solar cell with p-type Cu2O.Such a Cu2O/lnP p-n heterojunction solar cell possesses a power conversion efficiency of 1.55%.
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