Colloidal metal oxide nanocrystals as charge transporting layers for solution-processed light-emitting diodes and solar cells
2017-03-31
Source PublicationCHEMICAL SOCIETY REVIEWS
ISSN0306-0012
Volume46Issue:6Pages:1730-1759
Status已发表
DOI10.1039/c6cs00122j
AbstractColloidal metal oxide nanocrystals offer a unique combination of excellent low-temperature solution processability, rich and tuneable optoelectronic properties and intrinsic stability, which makes them an ideal class of materials as charge transporting layers in solution-processed light-emitting diodes and solar cells. Developing new material chemistry and custom-tailoring processing and properties of charge transporting layers based on oxide nanocrystals hold the key to boosting the efficiency and lifetime of all-solution-processed light-emitting diodes and solar cells, and thereby realizing an unprecedented generation of high-performance, low-cost, large-area and flexible optoelectronic devices. This review aims to bridge two research fields, chemistry of colloidal oxide nanocrystals and interfacial engineering of optoelectronic devices, focusing on the relationship between chemistry of colloidal oxide nanocrystals, processing and properties of charge transporting layers and device performance. Synthetic chemistry of colloidal oxide nanocrystals, ligand chemistry that may be applied to colloidal oxide nanocrystals and chemistry associated with post-deposition treatments are discussed to highlight the ability of optimizing processing and optoelectronic properties of charge transporting layers. Selected examples of solution-processed solar cells and light-emitting diodes with oxide-nanocrystal charge transporting layers are examined. The emphasis is placed on the correlation between the properties of oxide-nanocrystal charge transporting layers and device performance. Finally, three major challenges that need to be addressed in the future are outlined. We anticipate that this review will spur new material design and simulate new chemistry for colloidal oxide nanocrystals, leading to charge transporting layers and solution-processed optoelectronic devices beyond the state-of-the-art.
Indexed BySCI
Language英语
Funding ProjectSwedish Government Strategic Research Area in Materials Science on Functional Materials at Linko "ping University[2009-00971]
WOS Research AreaChemistry
WOS SubjectChemistry, Multidisciplinary
WOS IDWOS:000397297600007
PublisherROYAL SOC CHEMISTRY
WOS KeywordQUANTUM-DOT PHOTOVOLTAICS ; TIN DIOXIDE NANOPARTICLES ; LOW-TEMPERATURE SYNTHESIS ; LOW-BANDGAP POLYMER ; HIGH-PERFORMANCE ; HIGH-EFFICIENCY ; ZINC-OXIDE ; NONAQUEOUS SYNTHESIS ; HIGHLY EFFICIENT ; TIO2 NANOCRYSTALS
Original Document TypeReview
Citation statistics
Document Type期刊论文
Identifierhttps://kms.shanghaitech.edu.cn/handle/2MSLDSTB/1451
Collection物质科学与技术学院_PI研究组_宁志军组
Corresponding AuthorYe, Zhizhen; Jin, Yizheng
Affiliation
1.Zhejiang Univ, Sch Mat Sci & Engn, State Key Lab Silicon Mat, Hangzhou 310027, Zhejiang, Peoples R China
2.Linkoping Univ, Dept Phys Chem & Biol IFM, SE-58183 Linkoping, Sweden
3.Soochow Univ, Inst Funct Nano & Soft Mat FUNSOM, Jiangsu Key Lab Carbon Based Funct Mat & Devices, Suzhou 215123, Peoples R China
4.Shanghai Tech Univ, Shanghai, Peoples R China
5.Zhejiang Univ, Dept Chem, State Key Lab Silicon Mat, Ctr Chem High Performance & Novel Mat, Hangzhou 310027, Zhejiang, Peoples R China
Recommended Citation
GB/T 7714
Liang, Xiaoyong,Bai, Sai,Wang, Xin,et al. Colloidal metal oxide nanocrystals as charge transporting layers for solution-processed light-emitting diodes and solar cells[J]. CHEMICAL SOCIETY REVIEWS,2017,46(6):1730-1759.
APA Liang, Xiaoyong.,Bai, Sai.,Wang, Xin.,Dai, Xingliang.,Gao, Feng.,...&Jin, Yizheng.(2017).Colloidal metal oxide nanocrystals as charge transporting layers for solution-processed light-emitting diodes and solar cells.CHEMICAL SOCIETY REVIEWS,46(6),1730-1759.
MLA Liang, Xiaoyong,et al."Colloidal metal oxide nanocrystals as charge transporting layers for solution-processed light-emitting diodes and solar cells".CHEMICAL SOCIETY REVIEWS 46.6(2017):1730-1759.
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