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Directing nucleation and growth kinetics in solution-processed hybrid perovskite thin-films

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ã€ä½œè€…ã€‘ Alexander R.Pascoeï¼› é¡¾é’¦é¢–ï¼› Mathias U.Rothmannï¼› æŽè”šï¼› å¼ è±«é¹ï¼› Andrew D.Scullyï¼› æž—é›„å³°ï¼› Leone Spicciaï¼› Udo Bachï¼› ç¨‹ä¸€å…µï¼›

ã€Authorã€‘ Alexander R.Pascoe;Qinying Gu;Mathias U.Rothmann;Wei Li;Yupeng Zhang;Andrew D.Scully;Xiongfeng Lin;Leone Spiccia;Udo Bach;Yi-Bing Cheng;Department of Materials Science and Engineering,Monash University;Commonwealth Scientific and Industrial Research Organization(CSIRO);School of Chemistry,Monash University;State Key Laboratory of Advanced Technology for Materials Synthesis and Processing,Wuhan University of Technology;

ã€æœºæž„ã€‘ Department of Materials Science and Engineering,Monash Universityï¼› Commonwealth Scientific and Industrial Research Organization(CSIRO)ï¼› School of Chemistry,Monash Universityï¼› State Key Laboratory of Advanced Technology for Materials Synthesis and Processing,Wuhan University of Technologyï¼›

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ã€Abstractã€‘ A heightened understanding of nucleation and growth mechanisms is paramount if effective solution processing of organic-inorganic perovskite thin-films for optoelectronic applications is to be achieved. Many fabrication techniques have been utilized previously to develop high-performance perovskite layers but there remains an absence of a unifying model that describes accurately the formation of these materials from solution. The present study provides a thorough analysis of nucleation and growth kinetics underpinning the development of hybrid organic-inorganic perovskite thin-films. Through precise control of the perovskite growth conditions the spacing of heterogeneous nucleation sites was varied successfully from several hundred nanometers to several hundred microns. The crystalline regions surrounding these nuclei were found to comprise clusters of highly-oriented crystal domains exceeding 100 Î¼m in diameter. However, no beneficial correlation was found between the size of these well-oriented grain-clusters and the optoelectronic performance. The formation of the perovskite microstructure features characteristics of both classical and non-classical growth mechanisms. The insights into perovskite thin-film growth developed by the present study provide clear implications for the development of future hybrid perovskite microstructures.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ organic-inorganic perovskiteï¼› nucleation and growthï¼› solar cellsï¼›
ã€Key wordsã€‘ organic-inorganic perovskiteï¼› nucleation and growthï¼› solar cellsï¼›

ã€åŸºé‡‘ã€‘ the financial support from the Australian Renewable Energy Agency (ARENA);the Australian Centre for Advanced Photovoltaics (ACAP);the ARC Centre of Excellence in Exciton Science

ã€æ–‡çŒ®å‡ºå¤„ã€‘ Science China Materials ,ä¸å›½ç§‘å¦:ææ–™ç§‘å¦(è‹±æ–‡ç‰ˆ) , ç¼–è¾‘éƒ¨é‚®ç®± ,2017å¹´07æœŸ

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