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Enhancing Photovoltaic Performances of Naphthalene‐Based Unfused‐Ring Electron Acceptors upon Regioisomerization

Xin Zhang, Yanan Wei, Xingzheng Liu, Linqing Qin, Na Yu, Zheng Tang, Zhixiang Wei, Qinqin Shi, Aidong Peng, Hui Huang

2021Solar RRL26 citationsDOI

Abstract

Isomeric effects play a crucial role in regulating electronic properties, molecular packing, and device performance of organic semiconductors. Herein, a series of unfused‐ring electron acceptor (UREA) regioisomers (NOF‐1, NOF‐2, and NOF‐3), which are constructed using 2,6‐α‐, 1,5‐β‐, and 3,7‐β‐type naphthalene cores, are successfully synthesized and characterized. The regioisomeric effects on geometries, photophysics, electrical properties, molecular packing behaviors, charge transport properties, blend film morphologies, and photovoltaic performance are systematically studied. As a result, the PBDB‐T:NOF‐3‐based device delivers a power conversion efficiency (PCE) of 11.58% due to its more balanced charge mobility, efficient exciton dissociation, less charge recombination, and favorable film morphology. These findings encourage further attention to the regioisomeric effects to design high‐performance UREAs.

Topics & Concepts

NaphthaleneDissociation (chemistry)ExcitonRing (chemistry)Structural isomerElectron acceptorEnergy conversion efficiencyPhotovoltaic systemAcceptorChemistryElectron transport chainMaterials sciencePhotochemistryOptoelectronicsPhysical chemistryOrganic chemistryCondensed matter physicsBiochemistryBiologyQuantum mechanicsPhysicsEcologyOrganic Electronics and PhotovoltaicsPerovskite Materials and ApplicationsConducting polymers and applications