突破人工光合作用瓶颈 中国团队研发出二氧化碳规模化转化新方案

Core Viewpoint - The research team from the Chinese Academy of Sciences has developed a universal strategy for the synergistic conversion of carbon dioxide and water, inspired by photosynthesis, which aims to provide a feasible technological pathway for achieving clean energy and carbon neutrality goals [1][4]. Group 1: Research and Development - The team has successfully constructed a silver-modified tungsten trioxide material with electronic storage capabilities, which, when combined with cobalt phthalocyanine, has demonstrated nearly a hundredfold increase in carbon dioxide conversion efficiency compared to pure cobalt phthalocyanine [5]. - The innovative design allows for the storage of light-generated electrons and their precise release, enabling accurate control over the reaction rates and extent of carbon dioxide and water conversion [3]. Group 2: Practical Applications - The new strategy operates stably under natural light conditions, providing a viable technological pathway for the large-scale conversion of carbon dioxide into clean energy sources such as carbon monoxide and methane [5]. - The approach showcases good universality and applicability, allowing for the construction of various structurally adapted catalytic systems based on actual needs [5].