Nonhalogenated Solvent‐Processed Thick‐Film Ternary Nonfullerene Organic Solar Cells with Power Conversion Efficiency >13% Enabled by a New Wide‐Bandgap Polymer. Issue 3 (18th January 2021)
- Record Type:
- Journal Article
- Title:
- Nonhalogenated Solvent‐Processed Thick‐Film Ternary Nonfullerene Organic Solar Cells with Power Conversion Efficiency >13% Enabled by a New Wide‐Bandgap Polymer. Issue 3 (18th January 2021)
- Main Title:
- Nonhalogenated Solvent‐Processed Thick‐Film Ternary Nonfullerene Organic Solar Cells with Power Conversion Efficiency >13% Enabled by a New Wide‐Bandgap Polymer
- Authors:
- Gokulnath, Thavamani
Reddy, Saripally Sudhaker
Park, Ho-Yeol
Kim, Junyoung
Kim, Jehan
Song, Myungkwan
Yoon, Jinhwan
Jin, Sung-Ho - Abstract:
- Abstract : Although several donor polymers have been synthesized for use in nonfullerene organic solar cells (NFOSCs), the number of efficient π‐conjugated donor polymers compatible with nonhalogenated solvent‐processed thick active layer NFOSCs is limited. Two wide‐bandgap π‐conjugated donor polymers functionalized with a siloxane side chain, P1 (chlorine‐free) and P2 (chlorinated), are designed and synthesized. The siloxane‐functionalized side chains and/or Cl π‐conjugated donor polymers increase the absorption coefficients, reduce the energy losses, increase the charge‐carrier mobility, and suppress the bimolecular recombination, which are beneficial to achieve high‐performance thick‐film ternary NFOSCs. Toluene‐processed devices based on P2:IT‐4F:BTP‐4Cl, and P2:IT‐4F:BTP‐4F exhibit high power conversion efficiencies (PCEs) of 13.25% and 11.02% with fill factors (FFs) of 70.03% and 71.60%, respectively. A P2:IT‐4F binary NFOSC exhibits a PCE of 10.38% with an FF of 69.78%, lower than that of the ternary NFOSC. The ternary device PCE of 13.25% is achieved using a 300 nm‐thick active layer, indicating that the siloxane‐functionalized side‐chain π‐conjugated polymer easily controls the bulk heterojunction blend film thickness of the NFOSC. The findings may potentially aid the development of nonhalogenated solvent‐processed thick‐film ternary NFOSCs that can satisfy future production requirements. Abstract : A chlorinated π‐conjugated donor polymer with aAbstract : Although several donor polymers have been synthesized for use in nonfullerene organic solar cells (NFOSCs), the number of efficient π‐conjugated donor polymers compatible with nonhalogenated solvent‐processed thick active layer NFOSCs is limited. Two wide‐bandgap π‐conjugated donor polymers functionalized with a siloxane side chain, P1 (chlorine‐free) and P2 (chlorinated), are designed and synthesized. The siloxane‐functionalized side chains and/or Cl π‐conjugated donor polymers increase the absorption coefficients, reduce the energy losses, increase the charge‐carrier mobility, and suppress the bimolecular recombination, which are beneficial to achieve high‐performance thick‐film ternary NFOSCs. Toluene‐processed devices based on P2:IT‐4F:BTP‐4Cl, and P2:IT‐4F:BTP‐4F exhibit high power conversion efficiencies (PCEs) of 13.25% and 11.02% with fill factors (FFs) of 70.03% and 71.60%, respectively. A P2:IT‐4F binary NFOSC exhibits a PCE of 10.38% with an FF of 69.78%, lower than that of the ternary NFOSC. The ternary device PCE of 13.25% is achieved using a 300 nm‐thick active layer, indicating that the siloxane‐functionalized side‐chain π‐conjugated polymer easily controls the bulk heterojunction blend film thickness of the NFOSC. The findings may potentially aid the development of nonhalogenated solvent‐processed thick‐film ternary NFOSCs that can satisfy future production requirements. Abstract : A chlorinated π‐conjugated donor polymer with a siloxane‐functionalized side chain is developed and utilized in binary‐ and ternary‐based nonfullerene organic solar cells processed using a nonhalogenated solvent (toluene), which achieve high power conversion efficiencies of 10.38% and 13.25%, respectively. The thickness of the ternary blend is 300 nm. Furthermore, the binary‐ and ternary‐based devices exhibit high thermal and atmospheric stabilities. … (more)
- Is Part Of:
- Solar RRL. Volume 5:Issue 3(2021)
- Journal:
- Solar RRL
- Issue:
- Volume 5:Issue 3(2021)
- Issue Display:
- Volume 5, Issue 3 (2021)
- Year:
- 2021
- Volume:
- 5
- Issue:
- 3
- Issue Sort Value:
- 2021-0005-0003-0000
- Page Start:
- n/a
- Page End:
- n/a
- Publication Date:
- 2021-01-18
- Subjects:
- absorption coefficients -- stability -- thick active layers -- toluene -- π-conjugated donor polymers
Solar energy -- Periodicals
Photovoltaic power generation -- Periodicals
Solar energy -- Research -- Periodicals
Photovoltaic power generation -- Research -- Periodicals
Periodicals
333.7923 - Journal URLs:
- http://resolver.library.ualberta.ca/resolver?ctx_enc=info%3Aofi%2Fenc%3AUTF-8&ctx_ver=Z39.88-2004&rfr_id=info%3Asid%2Fualberta.ca%3Aopac&rft.genre=journal&rft.object_id=3710000000966649&rft.issn=2367-198X&rft.eissn=2367-198X&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&url_ctx_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Actx&url_ver=Z39.88-2004 ↗
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http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2367-198X/issues ↗
http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2367-198X/issues ↗
http://onlinelibrary.wiley.com/ ↗ - DOI:
- 10.1002/solr.202000787 ↗
- Languages:
- English
- ISSNs:
- 2367-198X
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- Legaldeposit
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