Abstract
Organic photovoltaics (OPVs), representing a novel paradigm in photoelectric conversion technologies, have garnered substantial interest within the renewable energy sector. These technologies, leveraging organic molecules or polymers for photon absorption and subsequent electricity generation, stand in contrast to traditional silicon-based solar cells. OPVs offer distinct advantages, including flexibility, lightweight construction, and cost-effective production, rendering them adaptable across diverse application contexts. Nonetheless, when juxtaposed with their silicon-based counterparts, the efficiency and longevity of OPVs remain areas necessitating further exploration and enhancement. Recent advancements have been achieved through meticulous material design, process refinement, and interface engineering, collectively contributing to the augmented efficiency and durability of OPVs. Looking ahead, it is anticipated that ongoing technological evolution and innovation will position organic solar cells and photovoltaics as pivotal components in the sustainable energy landscape, offering novel avenues to address the energy crisis and ameliorate the impacts of climate change.
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