生物质是自然界唯一的可再生有机碳资源，经催化转化可制备重要的含氧有机小分子化合物，以部分替代和补充传统的化石资源路线，减少二氧化碳排放。在各种生物质转化路线中，化学催化转化具有效率高、与现有化工基础设施容易对接的独特优势。但传统催化转化技术主要针对的是碳氢化合物，难以直接用于分子中C-O键为主的生物质高效转化。必须发展创新的催化转化策略，实现对生物质基本结构单元中主要化学键的定向剪切和转化，获取部分碳氢氧结构基团，制备高附加值含氧小分子化合物。

Biomass is the only renewable organic carbon resource in nature. Through catalytic transformation, it can be converted into valuable oxygen-containing small organic molecules, partially replacing and supplementing traditional fossil-based pathways and helping to reduce carbon dioxide emissions. Among the various biomass conversion routes, chemical catalytic transformation offers unique advantages, including high efficiency and easy integration with existing chemical industry infrastructure. However, conventional catalytic technologies are primarily designed for hydrocarbons and are difficult to apply directly to the efficient conversion of biomass, whose molecular structures are dominated by C–O bonds. Therefore, it is imperative to develop innovative catalytic strategies to selectively cleave and transform the key chemical bonds in the fundamental structural units of biomass, thereby enabling the production of high-value oxygenated small molecules.

本课题组针对生物质催化转化过程中存在的关键科学问题，主要开展生物质及其平台化合物催化转化制备精细化学品和液体燃料；生物质基呋喃衍生物催化氧化、催化加氢新工艺的研究； 生物质高值化利用新方法的发展和催化新材料的设计与合成。

Our research group focuses on addressing the key scientific challenges in biomass catalytic transformation. Our main research areas include: catalytic conversion of biomass and its platform compounds to produce fine chemicals and liquid fuels; development of new catalytic oxidation and hydrogenation processes for biomass-derived furan compounds; and exploration of novel methods for high-value biomass utilization, along with the design and synthesis of new catalytic materials.

核心价值

诚实为人  认真做事   奉献社会   服务人民  

Honesty，Conscientiousness，Dedication,  Service

育人理念

培养富有激情和创造力的新时代优秀青年创新人才

Be Passionate & Creative ！

SLOGAN

催化创新，绿色未来

Catalysis Innovation, Green Future!