Selenophene vs. thiophene in benzothiadiazole-based low energy gap donor-acceptor polymers for photovoltaic applications

Abdulaziz A. B. Alghamdi; Darren C. Watters; Hunan Yi; Solyman Al-Faifi; Mohammed S. Almeataq; David Coles; James Kingsley; David G. Lidzey; Ahmed Iraqi

doi:10.1039/c3ta00122a

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Selenophene vs. thiophene in benzothiadiazole-based low energy gap donor-acceptor polymers for photovoltaic applications

Journal article

Peer reviewed

Selenophene vs. thiophene in benzothiadiazole-based low energy gap donor-acceptor polymers for photovoltaic applications

Abdulaziz A. B. Alghamdi, Darren C. Watters, Hunan Yi, Solyman Al-Faifi, Mohammed S. Almeataq, David Coles, James Kingsley, David G. Lidzey and Ahmed Iraqi

Journal of materials chemistry. A, Materials for energy and sustainability, Vol.1(16), pp.5165-5171

01/01/2013

DOI: https://doi.org/10.1039/c3ta00122a

Abstract

Chemistry

Chemistry, Physical

Energy & Fuels

Materials Science

Materials Science, Multidisciplinary

Physical Sciences

Science & Technology

Technology

A series of low energy gap polymers comprising 2,7-linked carbazole or fluorene units flanked by thiophene or selenophene repeat units as alternating donor units and benzothiadiazole with or without alkoxy substituents as alternating acceptor repeat units is reported. The effects of replacing thiophene with selenophene in this series of polymers on their optical, electrochemical and photovoltaic device performance when fabricated into bulk heterojunction solar cells using PC70BM as an acceptor are investigated. Power conversion efficiencies (PCEs) ranging from 3.34 to 5.41% are obtained with these systems. Thiophene-based polymers are found to have higher efficiency compared to comparable selenophene-based polymers. We tentatively explain such differences on the basis of reduced molar absorbance and reduced charge-carrier mobility in the selenophene-based polymers.

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Title: Selenophene vs. thiophene in benzothiadiazole-based low energy gap donor-acceptor polymers for photovoltaic applications
Creators - without role: Abdulaziz A. B. Alghamdi - University of Sheffield
Darren C. Watters - University of Sheffield
Hunan Yi - University of Sheffield
Solyman Al-Faifi - King Abdulaziz University
Mohammed S. Almeataq - University of Sheffield
David Coles - University of Sheffield
James Kingsley - University of Sheffield
David G. Lidzey - University of Sheffield
Ahmed Iraqi - University of Sheffield
Publication Details: Journal of materials chemistry. A, Materials for energy and sustainability, Vol.1(16), pp.5165-5171
Publisher: Royal Soc Chemistry
Number of pages: 7
Grant note: EP/I028641/1 / Engineering and Physical Sciences Research Council; UK Research & Innovation (UKRI); Engineering & Physical Sciences Research Council (EPSRC) EP/I028641/1 / EPSRC; UK Research & Innovation (UKRI); Engineering & Physical Sciences Research Council (EPSRC) D-004/431 / King Abdulaziz University
Identifiers: 9918901408331
Academic Unit: King Abdulaziz City for Science & Technology; King Abdulaziz University
Language: English
Resource Type: Journal article