interfacialchargetransferengineeringbyionicliquidforhighperformanceplanarch3nh3pbbr3solarcells

	interfacialchargetransferengineeringbyionicliquidforhighperformanceplanarch3nh3pbbr3solarcells
	Zheng Xiaojia 2; Yu Wei 1; Priya Shashank 2
刊名	journalofenergychemistry
	2018-01-01
卷号	27 期号:3 页码:748
ISSN号	2095-4956
英文摘要	The energy barrier at the ch3nh3pbbr3/tio2 interface hinders the electron transfer from ch3nh3pbbr3 to compact tio2 (cp-tio2). ionic liquid (il), that forms dipoles pointing away from tio2, can adjust the work function of tio2 resulting in suitable energy level for charge transfer from ch3nh3pbbr3 to tio2. the time-resolved photoluminescence spectroscopy (trpl) measurements confirm faster electron transfer from the ch3nh3pbbr3 film to tio2 after modification by il. solar cells based on il modified cp-tio2 demonstrate efficiency of similar to 6%, much higher than the devices (0.2%) fabricated using untreated cp-tio2 as the electron transport layer. (c) 2017 science press and dalian institute of chemical physics, chinese academy of sciences. published by elsevier b.v. and science press. all rights reserved.
语种	英语
内容类型	期刊论文
源URL	[http://cas-ir.dicp.ac.cn/handle/321008/178714]
专题	大连化学物理研究所_中国科学院大连化学物理研究所
作者单位	1.中国科学院大连化学物理研究所 2.Center for Energy Harvesting Materials and System,Virginia Tech
推荐引用方式 GB/T 7714	Zheng Xiaojia,Yu Wei,Priya Shashank. interfacialchargetransferengineeringbyionicliquidforhighperformanceplanarch3nh3pbbr3solarcells[J]. journalofenergychemistry,2018,27(3):748.
APA	Zheng Xiaojia,Yu Wei,&Priya Shashank.(2018).interfacialchargetransferengineeringbyionicliquidforhighperformanceplanarch3nh3pbbr3solarcells.journalofenergychemistry,27(3),748.
MLA	Zheng Xiaojia,et al."interfacialchargetransferengineeringbyionicliquidforhighperformanceplanarch3nh3pbbr3solarcells".journalofenergychemistry 27.3(2018):748.