Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications

Meroni, Simone; Worsley, Carys; Raptis, Dimitrios; Watson, Trystan

doi:10.3390/en14020386

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Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications

Simone Meroni

, Carys Worsley, Dimitrios Raptis, Trystan Watson

Energies, Volume: 14, Issue: 2, Start page: 386

Swansea University Authors: Simone Meroni , Dimitrios Raptis, Trystan Watson

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DOI (Published version): 10.3390/en14020386

Abstract

Perovskite solar cells (PSCs) have already achieved comparable performance to industrially established silicon technologies. However, high performance and stability must be also be achieved at large area and low cost to be truly commercially viable. The fully printable triple-mesoscopic carbon perov...

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Published in:	Energies
ISSN:	1996-1073
Published:	MDPI AG 2021
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa57707
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spelling	2021-09-17T17:12:20.8046684 v2 57707 2021-08-30 Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications 78a4cf80ab2fe6cca80716b5d357d8dd 0000-0002-6901-772X Simone Meroni Simone Meroni true false 75c81a7d972e97c42200ab0ebfa21908 Dimitrios Raptis Dimitrios Raptis true false a210327b52472cfe8df9b8108d661457 0000-0002-8015-1436 Trystan Watson Trystan Watson true false 2021-08-30 MTLS Perovskite solar cells (PSCs) have already achieved comparable performance to industrially established silicon technologies. However, high performance and stability must be also be achieved at large area and low cost to be truly commercially viable. The fully printable triple-mesoscopic carbon perovskite solar cell (mCPSC) has demonstrated unprecedented stability and can be produced at low capital cost with inexpensive materials. These devices are inherently scalable, and large-area modules have already been fabricated using low-cost screen printing. As a uniquely stable, scalable and low-cost architecture, mCPSC research has advanced significantly in recent years. This review provides a detailed overview of advancements in the materials and processing of each individual stack layer as well as in-depth coverage of work on perovskite formulations, with the view of highlighting potential areas for future research. Long term stability studies will also be discussed, to emphasise the impressive achievements of mCPSCs for both indoor and outdoor applications. Journal Article Energies 14 2 386 MDPI AG 1996-1073 perovskite; carbon; screen-printing; stability 12 1 2021 2021-01-12 10.3390/en14020386 COLLEGE NANME Materials Science and Engineering COLLEGE CODE MTLS Swansea University EPSRC EP/P032591/1, EP/N020863/1, 2021-09-17T17:12:20.8046684 2021-08-30T12:44:17.4122357 Faculty of Science and Engineering School of Engineering and Applied Sciences - Materials Science and Engineering Simone Meroni 0000-0002-6901-772X 1 Carys Worsley 2 Dimitrios Raptis 3 Trystan Watson 0000-0002-8015-1436 4 57707__20715__d0b2b15f7ecf49e39c33a4c5a75d249b.pdf 57707.energies-14-00386-v2.pdf 2021-08-30T12:51:16.1810707 Output 7092438 application/pdf Version of Record true This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license true eng https://creativecommons.org/licenses/by/4.0/
title	Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications
spellingShingle	Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications Simone Meroni Dimitrios Raptis Trystan Watson
title_short	Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications
title_full	Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications
title_fullStr	Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications
title_full_unstemmed	Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications
title_sort	Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications
author_id_str_mv	78a4cf80ab2fe6cca80716b5d357d8dd 75c81a7d972e97c42200ab0ebfa21908 a210327b52472cfe8df9b8108d661457
author_id_fullname_str_mv	78a4cf80ab2fe6cca80716b5d357d8dd_*_Simone Meroni 75c81a7d972e97c42200ab0ebfa21908__Dimitrios Raptis a210327b52472cfe8df9b8108d661457_**_Trystan Watson
author	Simone Meroni Dimitrios Raptis Trystan Watson
author2	Simone Meroni Carys Worsley Dimitrios Raptis Trystan Watson
format	Journal article
container_title	Energies
container_volume	14
container_issue	2
container_start_page	386
publishDate	2021
institution	Swansea University
issn	1996-1073
doi_str_mv	10.3390/en14020386
publisher	MDPI AG
college_str	Faculty of Science and Engineering
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description	Perovskite solar cells (PSCs) have already achieved comparable performance to industrially established silicon technologies. However, high performance and stability must be also be achieved at large area and low cost to be truly commercially viable. The fully printable triple-mesoscopic carbon perovskite solar cell (mCPSC) has demonstrated unprecedented stability and can be produced at low capital cost with inexpensive materials. These devices are inherently scalable, and large-area modules have already been fabricated using low-cost screen printing. As a uniquely stable, scalable and low-cost architecture, mCPSC research has advanced significantly in recent years. This review provides a detailed overview of advancements in the materials and processing of each individual stack layer as well as in-depth coverage of work on perovskite formulations, with the view of highlighting potential areas for future research. Long term stability studies will also be discussed, to emphasise the impressive achievements of mCPSCs for both indoor and outdoor applications.
published_date	2021-01-12T04:13:38Z
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Triple-Mesoscopic Carbon Perovskite Solar Cells: Materials, Processing and Applications

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