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Adopting "restricted adjacent" structure molecular sieve bifunctional catalyst
Adopting "restricted adjacent" structure molecular sieve bifunctional catalystRecently, Academician Zhang Tao from the Department of Catalysis and New Materials, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, the team of associate researcher Luo Wenhao, and researchers from Utrecht University in the Netherlands have collaborated to design and construct a metal-acid limit.
The precise construction of bifunctional catalysts and the synergistic mechanism of active sites are the research frontiers in the field of biomass catalysis
This research has developed a Y-type molecular sieve restricted domain ruthenium-based bifunctional catalyst, combined with a variety of spectroscopy and electron microscopy characterization, probe molecular experiments, confirmed the precise customization of the metal-acid active center in the molecular sieve "restricted adjacent" structure
The "restricted adjacent" structure of metal-acid active sites is the key to realize the high-efficiency hydrodeoxygenation of ethyl levulinate to prepare valerate
The research extends the concept of “closer, the better” in molecular sieve catalysis to the field of biomass catalysis for the first time.
Non-grain biomass is a high-quality and abundant renewable carbon resource that can replace traditional fossil energy to produce fuels and chemicals