Project Name: Establishment and Structure-activity Relationship of Ni@nano-BN@meso-MOx New Structure Methane Dry Reforming Catalyst

Project Owner: Shanghai University

Project Profile: Take advantage of the unique 2D structure characteristics (most atoms are exposed in environment) of Boron nitride nanosheets lamination and its physical & chemical properties (high chemical inertness, high thermal stability, and carbon formation resistance, etc.). Linked with mesoporous oxide’s limiting domain effect to active components, design and produce Ni@nano-BN@meso-MOx catalyst. Do research on its formation mechanism. Adjust and control its active components, image and structure. Define its components, image and structure, structure-activity relationship between surface physical & chemical properties and methane dry reforming performance. Do research on its reaction dynamic and diffusion behavioral regularities in reforming process and adsorption activation mechanism of reactants on catalyst interface. Understand the essence of active center and the influence of geometrical effect and electronic effect. Clarify sintering resistance, and carbon formation resistance mechanism of catalyst. Discover the synergistic catalytic promotion mechanism of Boron nitride nanosheets lamination and mesoporous oxide. Establish its internal relationship and theoretical model. Lay scientific foundation for design and application of high thermal stability, high carbon formation resistance, and high active new structure methane dry reforming Nickle-based catalyst. And upon these, broaden the theory research on heterogeneous catalyst.

Contact Person: Zhang Yuyan

Phone Number: 021-24197967

E-mail: zhangyy@sstec.org.cn