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http://dx.doi.org/10.1016/j.jiec.2018.07.056

High-performance photovoltaics by double-charge transporters using graphenic nanosheets and triisopropylsilylethynyl/naphthothiadiazole moieties  

Agbolaghi, Samira (Chemical Engineering Department, Faculty of Engineering, Azarbaijan Shahid Madani University)
Aghapour, Sahar (Institute of Polymeric Materials and Faculty of Polymer Engineering, Sahand University of Technology)
Charoughchi, Somaiyeh (Institute of Polymeric Materials and Faculty of Polymer Engineering, Sahand University of Technology)
Abbasi, Farhang (Institute of Polymeric Materials and Faculty of Polymer Engineering, Sahand University of Technology)
Sarvari, Raana (Department of Chemistry, Payame Noor University)
Publication Information
Journal of Industrial and Engineering Chemistry / v.68, no., 2018 , pp. 293-300 More about this Journal
Abstract
Reduced graphene oxide (rGO) nanosheets were patterned with poly[benzodithiophene-bis(decyltetradecyl-thien) naphthothiadiazole] (PBDT-DTNT) and poly[bis(triiso-propylsilylethynyl) benzodithiophene-bis(decyltetradecyl-thien) naphthobisthiadiazole] (PBDT-TIPS-DTNT-DT) and used in photovoltaics. Conductive patternings changed via surface modification of rGO; because polymers encountered a high hindrance while assembling onto grafted rGO. The best records were detected in indium tin oxide (ITO):poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS):PBDTDTNT/rGO:PBDT-DTNT:LiF:Al devices, i.e., short current density $(J_{sc})=11.18mA/cm^2$, open circuit voltage $(V_{oc})=0.67V$, fill factor (FF) = 62% and power conversion efficiency (PCE) = 4.64%. PCE increased 2.31 folds after incorporation of PBDT-DTNT into thin films. Larger polymer assemblies on bared-rGO nanosheets resulted in greater phase separations.
Keywords
PBDT-DTNT; PBDT-TIPS-DTNT-DT; Patterning; Phase segregation; PCE;
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