我国科学家在绿色催化技术上取得新突破

Core Insights - A new catalytic control technology has been developed by Chinese scientists that significantly reduces carbon dioxide emissions during the Fischer-Tropsch synthesis process, enhancing the yield of liquid fuels and olefins, thus providing a new strategy for low-carbon chemical manufacturing [1][2] Group 1: Fischer-Tropsch Synthesis Overview - Fischer-Tropsch synthesis is a crucial catalytic reaction technology in the chemical industry, primarily used to convert syngas (a mixture of carbon monoxide and hydrogen) into liquid fuels or high-value chemicals like olefins [1] - Traditionally, iron-based catalysts have dominated Fischer-Tropsch synthesis, accounting for over two-thirds of global production capacity, due to their low cost and high oil yield [1] Group 2: Environmental Impact and Innovation - The conventional iron-based catalysts produce a significant amount of carbon dioxide, with emissions often reaching 30%, leading to carbon resource wastage [1] - The research team discovered that introducing trace amounts of halogenated compounds, such as bromomethane and iodomethane, can precisely control the reaction pathways on the surface of iron-based catalysts, effectively shutting down the pathways that generate carbon dioxide, achieving near "zero emissions" [1][2] Group 3: Benefits and Future Implications - The new method increases the proportion of high-value olefins produced to over 85%, surpassing the industry average [1] - This innovative approach does not alter the existing catalyst structure or require equipment replacement, making it highly adaptable for engineering applications [2] - The development addresses the significant challenge of carbon dioxide emissions in Fischer-Tropsch synthesis, providing a simple and effective technical solution for green and low-carbon production of olefins or liquid fuels, potentially paving new pathways for decarbonization in China's coal chemical processes [2]