Impact of Terminal Group Modifications in Simple Non Fullerene Acceptors with Bodipy Thiophene Backboned Polymer Donor for Indoor Organic Solar Cell Applications

Abstract

Organic solar cells, a focal point of intense research in Material Science for newlineadvancing renewable energy, extend their application to indoor environments. Researchers newlinehave been motivated to develop photovoltaic systems that can efficiently convert artificial newlinelight into power by the growing use of indoor electrical devices for the Internet of Things newline(IoT). This burgeoning area of research aims to harness ambient light sources within newlineconfined spaces to achieve sustainable energy generation. The organic photovoltaic systems newlineoffer the potential for an economical and lightweight platform for converting solar energy, newlineemploying straightforward processing of the active layer. This approach opens the door to newlinemore streamlined and efficient production methods. Over the recent past, various approaches newlinehave been explored to boost the PCE of OSCs. These methods encompass developing of newlineinventive donor materials, pairing of unfamiliar donors with acceptor materials to effectively newlinedissociate excitons further improves the charge transport and, using various interfacial layers newlineto minimize recombination and facilitate efficient charge extraction. Leveraging organic newlinematerials like polymers and non-fullerene derivatives holds significant promise as electron newlinedonors and acceptors newline