Literature DB >> 23517331

Chemical management for colorful, efficient, and stable inorganic-organic hybrid nanostructured solar cells.

Jun Hong Noh1, Sang Hyuk Im, Jin Hyuck Heo, Tarak N Mandal, Sang Il Seok.   

Abstract

Chemically tuned inorganic-organic hybrid materials, based on CH3NH3(═MA)Pb(I(1-x)Br(x))3 perovskites, have been studied using UV-vis absorption and X-ray diffraction patterns and applied to nanostructured solar cells. The band gap engineering brought about by the chemical management of MAPb(I(1-x)Br(x))3 perovskites can be controllably tuned to cover almost the entire visible spectrum, enabling the realization of colorful solar cells. We demonstrate highly efficient solar cells exhibiting 12.3% in a power conversion efficiency of under standard AM 1.5, for the most efficient device, as a result of tunable composition for the light harvester in conjunction with a mesoporous TiO2 film and a hole conducting polymer. We believe that the works highlighted in this paper represent one step toward the realization of low-cost, high-efficiency, and long-term stability with colorful solar cells.

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Year:  2013        PMID: 23517331     DOI: 10.1021/nl400349b

Source DB:  PubMed          Journal:  Nano Lett        ISSN: 1530-6984            Impact factor:   11.189


  204 in total

1.  Efficient planar heterojunction perovskite solar cells by vapour deposition.

Authors:  Mingzhen Liu; Michael B Johnston; Henry J Snaith
Journal:  Nature       Date:  2013-09-11       Impact factor: 49.962

2.  Make perovskite solar cells stable.

Authors:  Yang Yang; Jingbi You
Journal:  Nature       Date:  2017-04-11       Impact factor: 49.962

3.  Compositional engineering of perovskite materials for high-performance solar cells.

Authors:  Nam Joong Jeon; Jun Hong Noh; Woon Seok Yang; Young Chan Kim; Seungchan Ryu; Jangwon Seo; Sang Il Seok
Journal:  Nature       Date:  2015-01-07       Impact factor: 49.962

4.  Low-temperature atomic layer deposition of SiO2/Al2O3 multilayer structures constructed on self-standing films of cellulose nanofibrils.

Authors:  Matti Putkonen; Perttu Sippola; Laura Svärd; Timo Sajavaara; Jari Vartiainen; Iain Buchanan; Ulla Forsström; Pekka Simell; Tekla Tammelin
Journal:  Philos Trans A Math Phys Eng Sci       Date:  2018-02-13       Impact factor: 4.226

Review 5.  Potential Substitutes for Replacement of Lead in Perovskite Solar Cells: A Review.

Authors:  Ravinder Kour; Sandeep Arya; Sonali Verma; Jyoti Gupta; Pankaj Bandhoria; Vishal Bharti; Ram Datt; Vinay Gupta
Journal:  Glob Chall       Date:  2019-07-22

6.  Graded bandgap perovskite solar cells.

Authors:  Onur Ergen; S Matt Gilbert; Thang Pham; Sally J Turner; Mark Tian Zhi Tan; Marcus A Worsley; Alex Zettl
Journal:  Nat Mater       Date:  2016-11-07       Impact factor: 43.841

7.  Metal Halide Perovskite Nanocrystals: Synthesis, Post-Synthesis Modifications, and Their Optical Properties.

Authors:  Javad Shamsi; Alexander S Urban; Muhammad Imran; Luca De Trizio; Liberato Manna
Journal:  Chem Rev       Date:  2019-02-13       Impact factor: 60.622

8.  Low Pressure Vapor-assisted Solution Process for Tunable Band Gap Pinhole-free Methylammonium Lead Halide Perovskite Films.

Authors:  Carolin M Sutter-Fella; Yanbo Li; Nicola Cefarin; Aya Buckley; Quynh Phuong Ngo; Ali Javey; Ian D Sharp; Francesca M Toma
Journal:  J Vis Exp       Date:  2017-09-08       Impact factor: 1.355

9.  Solvent engineering for high-performance inorganic-organic hybrid perovskite solar cells.

Authors:  Nam Joong Jeon; Jun Hong Noh; Young Chan Kim; Woon Seok Yang; Seungchan Ryu; Sang Il Seok
Journal:  Nat Mater       Date:  2014-07-06       Impact factor: 43.841

10.  Bright light-emitting diodes based on organometal halide perovskite.

Authors:  Zhi-Kuang Tan; Reza Saberi Moghaddam; May Ling Lai; Pablo Docampo; Ruben Higler; Felix Deschler; Michael Price; Aditya Sadhanala; Luis M Pazos; Dan Credgington; Fabian Hanusch; Thomas Bein; Henry J Snaith; Richard H Friend
Journal:  Nat Nanotechnol       Date:  2014-08-03       Impact factor: 39.213
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