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	Extremely lightweight and ultra-flexible infrared light-converting quantum dot solar cells with high power-per-weight output using a solution-processed bending durable silver nanowire-based electrode
	Zhang, Xiaoliang; Oberg, Viktor A.; Du, Juan; Liua, Jianhua; Johansson, Erik M. J.
刊名	ENERGY & ENVIRONMENTAL SCIENCE
	2018
卷号	11页码:354-364
关键词	Absorption spectroscopy Aircraft materials Biomechanics Deformation Electrodes Electromagnetic wave absorption Fighter aircraft Infrared devices IV-VI semiconductors Lead compounds Light absorption Nanocrystals Nanostructured materials Nanowires Semiconductor quantum dots Silver Solar energy Solar power generation Stretching Thin film solar cells High power conversion Optical and electrical properties Pbs colloidal quantum dots Photovoltaic performance Polyethylene naphthalate Quantum dot solar cells Solar energy applications Visible near infrared regions Solar cells absorption spectrum colloid deformation electrical property electricity generation electrode fuel cell mechanical property nanoparticle near infrared optical property photovoltaic system silver solar power ultraviolet radiation visible spectrum
ISSN号	1754-5692
DOI	10.1039/c7ee02772a
URL标识	查看原文
收录类别	SCIE ; EI
WOS记录号	WOS:000425283400013
内容类型	期刊论文
URI标识	http://www.corc.org.cn/handle/1471x/5935207
专题	北京航空航天大学
推荐引用方式 GB/T 7714	Zhang, Xiaoliang,Oberg, Viktor A.,Du, Juan,et al. Extremely lightweight and ultra-flexible infrared light-converting quantum dot solar cells with high power-per-weight output using a solution-processed bending durable silver nanowire-based electrode[J]. ENERGY & ENVIRONMENTAL SCIENCE,2018,11:354-364.
APA	Zhang, Xiaoliang,Oberg, Viktor A.,Du, Juan,Liua, Jianhua,&Johansson, Erik M. J..(2018).Extremely lightweight and ultra-flexible infrared light-converting quantum dot solar cells with high power-per-weight output using a solution-processed bending durable silver nanowire-based electrode.ENERGY & ENVIRONMENTAL SCIENCE,11,354-364.
MLA	Zhang, Xiaoliang,et al."Extremely lightweight and ultra-flexible infrared light-converting quantum dot solar cells with high power-per-weight output using a solution-processed bending durable silver nanowire-based electrode".ENERGY & ENVIRONMENTAL SCIENCE 11(2018):354-364.

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