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Bandgap Tailored Nonfullerene Acceptors for Low-Energy-Loss Near-Infrared Organic Photovoltaics

Jaewon Lee, Seyeong Song, Jianfei Huang, Zhifang Du, Hansol Lee, Ziyue Zhu, Seo‐Jin Ko, Thuc‐Quyen Nguyen, Jin Young Kim, Kilwon Cho, Guillermo C. Bazan

2020ACS Materials Letters40 citationsDOI

Abstract

A series of A−π–D−π–A-type nonfullerene acceptors (NFAs) was designed and synthesized with the goal of optimizing light absorption and energy losses in near-infrared (NIR) organic solar cells (OSCs) principally through the use of side-chain engineering. Specific molecules include p-IO1, o-IO1, p-IO2, and o-IO2 with optical bandgaps of 1.34, 1.28, 1.24, and 1.20 eV, respectively. Manipulating the optoelectronic properties and intermolecular organization by substituting bulky phenylhexyl (p-) for linear octyl chains (o-) and replacing bisalkoxy (-O2) with alkyl-alkoxy combination (-O1) allows one to target energy bandgaps and achieve a favorable bulk heterojunction morphology when in the presence of the donor polymer PTB7-Th. Solar cells based on o-IO1 and PTB7-Th exhibit an optimal power conversion efficiency of 13.1%. The excellent photovoltaic performance obtained with the o-IO1 acceptor can be attributed to a short-circuit current of 26.3 mA cm–2 and energy losses on the order of 0.54 eV. These results further highlight how side-chain engineering is a straightforward strategy to tune the molecular design of n-type molecular semiconductors, particularly in the context of NIR high-efficiency organic photovoltaics.

Topics & Concepts

Organic solar cellMaterials scienceBand gapPolymer solar cellPhotovoltaicsOptoelectronicsEnergy conversion efficiencyAcceptorOrganic semiconductorAbsorption (acoustics)Context (archaeology)Photovoltaic systemPolymerElectrical engineeringPhysicsCondensed matter physicsEngineeringBiologyComposite materialPaleontologyOrganic Electronics and PhotovoltaicsPerovskite Materials and ApplicationsConducting polymers and applications
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