纳米催化新材料及其Semi-非均相催化作用研究

中文摘要

随着纳米科技的发展，纳米催化新材料的研究已成为当今纳米科学、化学、催化及其工程学等多学科交叉研究的热点。纳米催化新材料，包括纳米尺度催化材料和纳米结构催化材料。它们的控制组装合成与催化性能是本项目的两个研究方面。以分子氧为氧化剂，以醇和烯烃的部分和(或)选择性氧化及其环氧化、烯和炔选择性加氢以及饱和烃选择性脱氢、Suzuki C-C 键偶联等为目标模型催化反应；以离子液体和超临界CO2 作为催化反应介质；适合于述反应的纳米新催化材料的控制制备为本项目的催化剂合成目标。拟使用LSS 相转移合成技术制备上述催化新材料；多孔Al2O3, TiO2, WO3 氧化物及聚碳酸酯膜、氧化物纳米管等纳米结构和介孔有序碳材料用作纳米尺度催化材料的载体；Pt,Pd,Ru 等贵重金属用作纳米催化材料的活性组分。研究介于"均相催化"和"非均相催化"之间的"纳米Semi-非均相催化作用"具有重要科学意义和潜在的应用前景。

英文摘要

Follow the development of nanotechnology, nano-catalytic new-materials have become the hot point of crossed domain of many subjects, such as, nanoscience, chemistry, catalysis, engineering science, and so on. Nano-catalytic new-materials comprise nanoscale catalytic materials and nanostructure catalytic materials. The content of the research project include the controlled synthesis, assembly and catalytic properties of the designed nanomaterials. The aim catalytic reaction are the portion or selective oxdiation using oxygen as oxidant, selective hydrogenation of olefins and alkynes, selective dehydrogenation of saturated hydrocarbon,and the Suzuki reaction of carboncarbon.bond formation. The choice medium of catalysis reaction is ionic liquid and supracritical CO2. The goal of synthesis is the catalysis, which can catalyze the mentioned reaction. LSS technology will be used to synthesize the catalyzer. The selected supporter of the the nano-catalyzer are the nanostructures of porous Al2O3, TiO2, WO3, oxide nanotubes, and mesoporous carbon materials. The noble metal of Pt, Pd, Ru are chose as active components of the nanocatalysis materials. The science.significance and potential application will be found by deeply reaserching the nano-semiheterogeneous catalysis between homogeneous catalysis and heterogeneous catalysis.