登上《科学》 我国科学家在新型半导体光伏研发实现新突破

Core Insights - The research team at the Changchun Institute of Applied Chemistry has developed a new type of free radical self-assembled molecular material that addresses the performance issues of hole transport layers in perovskite solar cells, achieving efficiency certification from the U.S. National Renewable Energy Laboratory [1][2] - Perovskite solar cells are gaining attention due to their low cost, high efficiency, and ease of processing, with applications in photovoltaic power generation, vehicle-mounted photovoltaics, and photovoltaic buildings [1] - The new material significantly improves carrier transport efficiency and stability, with carrier transport rates more than doubled compared to traditional materials [2] Industry Implications - The development of this new material could potentially overcome key challenges in the commercialization of perovskite solar cells, which have been hindered by issues such as poor carrier transport capability and chemical stability [1][2] - The perovskite material has become a key choice for many companies in the production of new energy batteries, with 2025 anticipated as a pivotal year for rapid technological advancements in this field [2] - Numerous domestic companies, including Longi Green Energy, are accelerating their investments and strategies in perovskite technology [2]