SnO_2 nanotube arrays grown via an in-situ template-etching strategy for effective and stable perovskite solar cells
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- 英文论文题名:SnO_2 nanotube arrays grown via an in-situ template-etching strategy for effective and stable perovskite solar cells
- 论文作者:Shuai Yuan ; Haoming Wei ; Bingqiang Cao ; Jinghua Yu
- 英文论文作者:Shuai Yuan ; Haoming Wei ; Bingqiang Cao ; Jinghua Yu ; Materials Research Centre for Energy and Photoelectrochemical Conversion ; School of Material Science and Engineering University of Jinan
- 年:2017
- 作者机构:Materials Research Centre for Energy and Photoelectrochemical Conversion, School of Material Science and Engineering University of Jinan;
- 英文论文关键词:perovskite solar cell ; SnO2 nanotube ; template-etching ; electron-transporting layer
- 会议召开时间:2017-05-27
- 会议录名称:第四届新型太阳能电池学术研讨会论文集
- 英文会议录名称:Abstract Book of the 4th Conference on New Generation Solar Cells
- 语种:英文
- 分类号:TM914.4
- 学会代码:ZKYQ
- 会议名称:第四届新型太阳能电池学术研讨会
- 会议地点:中国北京
- 主办单位:中国可再生能源学会光化学专业委员会
- 学会名称:中国科学院物理研究所清洁能源实验室
- 页数:1
- 文件大小:494k
- 原文格式:D
- 会议级别:全国
摘要
An electron transporting layer(ETL) plays an important role in extracting electrons from a perovskite layer and blocking electron-hole recombination at the perovskite/conductive substrate interface.We demonstrate an effective in-situ template self-etching(iTSE) strategy to grow the novel hollow domed SnO_2 nanotubes array with ZnO nanorods as sacrifice templates.The growth mechanism of such SnO_2 nanotubes has been proposed based on a series of controllable experiments.Using such SnO_2 nanotube as ETL for perovskite solar cell demonstrates a high photocurrent density of 15.9 mA/cm~2 at a based-voltage of 760 mV, leading to a stable power conversion efficiency of 12.1% over 1000 s under the simulated AM 1.5G one sun illumination.This work highlights the importance of the ETL material selection and provides insights into achieving an ideal ETL/substrate homojunction to facilitate electron transporting.
An electron transporting layer(ETL) plays an important role in extracting electrons from a perovskite layer and blocking electron-hole recombination at the perovskite/conductive substrate interface.We demonstrate an effective in-situ template self-etching(iTSE) strategy to grow the novel hollow domed SnO_2 nanotubes array with ZnO nanorods as sacrifice templates.The growth mechanism of such SnO_2 nanotubes has been proposed based on a series of controllable experiments.Using such SnO_2 nanotube as ETL for perovskite solar cell demonstrates a high photocurrent density of 15.9 mA/cm~2 at a based-voltage of 760 mV, leading to a stable power conversion efficiency of 12.1% over 1000 s under the simulated AM 1.5G one sun illumination.This work highlights the importance of the ETL material selection and provides insights into achieving an ideal ETL/substrate homojunction to facilitate electron transporting.
An electron transporting layer(ETL) plays an important role in extracting electrons from a perovskite layer and blocking electron-hole recombination at the perovskite/conductive substrate interface.We demonstrate an effective in-situ template self-etching(iTSE) strategy to grow the novel hollow domed SnO_2 nanotubes array with ZnO nanorods as sacrifice templates.The growth mechanism of such SnO_2 nanotubes has been proposed based on a series of controllable experiments.Using such SnO_2 nanotube as ETL for perovskite solar cell demonstrates a high photocurrent density of 15.9 mA/cm~2 at a based-voltage of 760 mV, leading to a stable power conversion efficiency of 12.1% over 1000 s under the simulated AM 1.5G one sun illumination.This work highlights the importance of the ETL material selection and provides insights into achieving an ideal ETL/substrate homojunction to facilitate electron transporting.
引文
[1]Chaomin Gao,Shuai Yuan,Bingqiang Cao,Jinghua Yu,Chemical Engineering Journal,2017,accepted.