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Additive-free molecular acceptor organic solar cells processed from a biorenewable solvent approaching 15% efficiency.
Du, Zhifang; Luong, Hoang Mai; Sabury, Sina; Therdkatanyuphong, Pattarawadee; Chae, Sangmin; Welton, Claire; Jones, Austin L; Zhang, Junxiang; Peng, Zhengxing; Zhu, Ziyue; Nanayakkara, Sadisha; Coropceanu, Veaceslav; Choi, Dylan G; Xiao, Steven; Yi, Ahra; Kim, Hyo Jung; Bredas, Jean-Luc; Ade, Harald; Reddy, G N Manjunatha; Marder, Seth R; Reynolds, John R; Nguyen, Thuc-Quyen.
Affiliation
  • Du Z; Center for Polymers and Organic Solids, Department of Chemistry and Biochemistry, University of California at Santa Barbara, Santa Barbara, CA, 93106, USA. quyen@chem.ucsb.edu.
  • Luong HM; Center for Polymers and Organic Solids, Department of Chemistry and Biochemistry, University of California at Santa Barbara, Santa Barbara, CA, 93106, USA. quyen@chem.ucsb.edu.
  • Sabury S; School of Chemistry and Biochemistry, School of Materials Science and Engineering, Center for Organic Photonics and Electronics, Georgia Tech Polymer Network, Georgia Institute of Technology, Atlanta, Georgia 30332, USA. reynolds@chemistry.gatech.edu.
  • Therdkatanyuphong P; University of Colorado Boulder, Renewable and Sustainable Energy Institute, Boulder, CO 80303, USA. sema1789@colorado.edu.
  • Chae S; Center for Polymers and Organic Solids, Department of Chemistry and Biochemistry, University of California at Santa Barbara, Santa Barbara, CA, 93106, USA. quyen@chem.ucsb.edu.
  • Welton C; University of Lille, CNRS, Centrale Lille Institut, Univ. Artois, UMR 8181, Unité de Catalyse et Chimie du Solide, F-59000, Lille, France. gnm.reddy@univ-lille.fr.
  • Jones AL; School of Chemistry and Biochemistry, School of Materials Science and Engineering, Center for Organic Photonics and Electronics, Georgia Tech Polymer Network, Georgia Institute of Technology, Atlanta, Georgia 30332, USA. reynolds@chemistry.gatech.edu.
  • Zhang J; University of Colorado Boulder, Renewable and Sustainable Energy Institute, Boulder, CO 80303, USA. sema1789@colorado.edu.
  • Peng Z; Department of Physics and Organic and Carbon Electronics Laboratories (ORaCEL), North Carolina State University, Raleigh, NC 27695, USA.
  • Zhu Z; Center for Polymers and Organic Solids, Department of Chemistry and Biochemistry, University of California at Santa Barbara, Santa Barbara, CA, 93106, USA. quyen@chem.ucsb.edu.
  • Nanayakkara S; Department of Chemistry and Biochemistry, The University of Arizona, Tucson, AZ, 85721-0088, USA.
  • Coropceanu V; Department of Chemistry and Biochemistry, The University of Arizona, Tucson, AZ, 85721-0088, USA.
  • Choi DG; Center for Polymers and Organic Solids, Department of Chemistry and Biochemistry, University of California at Santa Barbara, Santa Barbara, CA, 93106, USA. quyen@chem.ucsb.edu.
  • Xiao S; 1-Material Inc, 2290 Chemin St-Francois, Dorval, Quebec, H9P 1K2, Canada.
  • Yi A; Center for Polymers and Organic Solids, Department of Chemistry and Biochemistry, University of California at Santa Barbara, Santa Barbara, CA, 93106, USA. quyen@chem.ucsb.edu.
  • Kim HJ; Department of Organic Material Science and Engineering, School of Chemical Engineering, Pusan National University, Busan 46241, Republic of Korea.
  • Bredas JL; Department of Organic Material Science and Engineering, School of Chemical Engineering, Pusan National University, Busan 46241, Republic of Korea.
  • Ade H; Department of Chemistry and Biochemistry, The University of Arizona, Tucson, AZ, 85721-0088, USA.
  • Reddy GNM; Department of Physics and Organic and Carbon Electronics Laboratories (ORaCEL), North Carolina State University, Raleigh, NC 27695, USA.
  • Marder SR; University of Lille, CNRS, Centrale Lille Institut, Univ. Artois, UMR 8181, Unité de Catalyse et Chimie du Solide, F-59000, Lille, France. gnm.reddy@univ-lille.fr.
  • Reynolds JR; University of Colorado Boulder, Renewable and Sustainable Energy Institute, Boulder, CO 80303, USA. sema1789@colorado.edu.
  • Nguyen TQ; School of Chemistry and Biochemistry, School of Materials Science and Engineering, Center for Organic Photonics and Electronics, Georgia Tech Polymer Network, Georgia Institute of Technology, Atlanta, Georgia 30332, USA. reynolds@chemistry.gatech.edu.
Mater Horiz ; 10(12): 5564-5576, 2023 Nov 27.
Article in En | MEDLINE | ID: mdl-37872787
ABSTRACT
We report on the use of molecular acceptors (MAs) and donor polymers processed with a biomass-derived solvent (2-methyltetrahydrofuran, 2-MeTHF) to facilitate bulk heterojunction (BHJ) organic photovoltaics (OPVs) with power conversion efficiency (PCE) approaching 15%. Our approach makes use of two newly designed donor polymers with an opened ring unit in their structures along with three molecular acceptors (MAs) where the backbone and sidechain were engineered to enhance the processability of BHJ OPVs using 2-MeTHF, as evaluated by an analysis of donor-acceptor (D-A) miscibility and interaction parameters. To understand the differences in the PCE values that ranged from 9-15% as a function of composition, the surface, bulk, and interfacial BHJ morphologies were characterized at different length scales using atomic force microscopy, grazing-incidence wide-angle X-ray scattering, resonant soft X-ray scattering, X-ray photoelectron spectroscopy, and 2D solid-state nuclear magnetic resonance spectroscopy. Our results indicate that the favorable D-A intermixing that occurs in the best performing BHJ film with an average domain size of ∼25 nm, high domain purity, uniform distribution and enhanced local packing interactions - facilitates charge generation and extraction while limiting the trap-assisted recombination process in the device, leading to high effective mobility and good performance.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Mater Horiz Year: 2023 Document type: Article Affiliation country:
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Mater Horiz Year: 2023 Document type: Article Affiliation country: