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Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells

Thanh-Tuân Bui, Fabrice Goubard, Joel Troughton, Trystan Watson Orcid Logo

Journal of Materials Science: Materials in Electronics

Swansea University Author: Trystan Watson Orcid Logo

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Abstract

3,6-bis(diphenylaminyl)carbazole molecular glasses were initially designed as solid hole conductor for solid-state dye-sensitized solar cells. Herein we employed these simple and easy-to-synthesize carbazole derivatives in CH3NH3PbI3 regular perovskite solar cells. Devices using these hole transport...

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Published in: Journal of Materials Science: Materials in Electronics
ISSN: 0957-4522 1573-482X
Published: 2017
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URI: https://cronfa.swan.ac.uk/Record/cronfa35066
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first_indexed 2017-08-31T12:53:56Z
last_indexed 2018-02-09T05:25:50Z
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spelling 2017-11-14T08:38:12.4745643 v2 35066 2017-08-31 Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells a210327b52472cfe8df9b8108d661457 0000-0002-8015-1436 Trystan Watson Trystan Watson true false 2017-08-31 MTLS 3,6-bis(diphenylaminyl)carbazole molecular glasses were initially designed as solid hole conductor for solid-state dye-sensitized solar cells. Herein we employed these simple and easy-to-synthesize carbazole derivatives in CH3NH3PbI3 regular perovskite solar cells. Devices using these hole transporting materials (HTM) gave comparable efficiency to the conventional Spiro-OMeTAD based control device made under the same conditions, thus demonstrating the huge potential of carbazole-based molecular glasses as an emerging class of lower cost organic hole conductors with easier synthetic pathways for solid state hybrid solar cells. Journal Article Journal of Materials Science: Materials in Electronics 0957-4522 1573-482X 31 12 2017 2017-12-31 10.1007/s10854-017-7691-y COLLEGE NANME Materials Science and Engineering COLLEGE CODE MTLS Swansea University 2017-11-14T08:38:12.4745643 2017-08-31T09:54:19.7363525 College of Engineering Engineering Thanh-Tuân Bui 1 Fabrice Goubard 2 Joel Troughton 3 Trystan Watson 0000-0002-8015-1436 4
title Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells
spellingShingle Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells
Trystan Watson
title_short Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells
title_full Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells
title_fullStr Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells
title_full_unstemmed Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells
title_sort Simple 3,6-bis(diphenylaminyl)carbazole molecular glasses as hole transporting materials for hybrid perovskite solar cells
author_id_str_mv a210327b52472cfe8df9b8108d661457
author_id_fullname_str_mv a210327b52472cfe8df9b8108d661457_***_Trystan Watson
author Trystan Watson
author2 Thanh-Tuân Bui
Fabrice Goubard
Joel Troughton
Trystan Watson
format Journal article
container_title Journal of Materials Science: Materials in Electronics
publishDate 2017
institution Swansea University
issn 0957-4522
1573-482X
doi_str_mv 10.1007/s10854-017-7691-y
college_str College of Engineering
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hierarchy_top_id collegeofengineering
hierarchy_top_title College of Engineering
hierarchy_parent_id collegeofengineering
hierarchy_parent_title College of Engineering
department_str Engineering{{{_:::_}}}College of Engineering{{{_:::_}}}Engineering
document_store_str 0
active_str 0
description 3,6-bis(diphenylaminyl)carbazole molecular glasses were initially designed as solid hole conductor for solid-state dye-sensitized solar cells. Herein we employed these simple and easy-to-synthesize carbazole derivatives in CH3NH3PbI3 regular perovskite solar cells. Devices using these hole transporting materials (HTM) gave comparable efficiency to the conventional Spiro-OMeTAD based control device made under the same conditions, thus demonstrating the huge potential of carbazole-based molecular glasses as an emerging class of lower cost organic hole conductors with easier synthetic pathways for solid state hybrid solar cells.
published_date 2017-12-31T03:47:45Z
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score 10.877759