安师大在原子尺度精准实现“碳转化”

Core Insights - The research team led by Professor Mao Junjie from Anhui Normal University has made significant advancements in the field of photocatalytic carbon dioxide reduction, successfully converting CO2 into high-value propane through the design of multi-site cooperative catalysts at the atomic scale [1][2] - The findings have been published in the prestigious journal "Angewandte Chemie," highlighting the innovative approach to catalyst design and its implications for sustainable energy solutions [1] Group 1: Research Achievements - The team developed an atomic-level catalyst based on metal-organic framework materials, utilizing specific nanosheets as carriers to create a cooperative active center composed of nickel single atoms and adjacent manganese dual atoms [1] - Experimental results indicate that this catalyst exhibits excellent catalytic performance in pure water environments, showcasing its potential for practical applications [1] Group 2: Implications for Industry - This research provides a new strategy for designing efficient and selective CO2 reduction catalysts, contributing to the fundamental research progress in photocatalytic carbon conversion [2] - The results open new pathways for the resource utilization of greenhouse gases and the synthesis of green chemical raw materials, aligning with the goals of achieving carbon neutrality [2]