ZIF-8衍生ZnO耦合HZSM-5一步催化合成气制烃醚燃料

One-step conversion of syngas to hydrocarbons and ethers over ZIF-8 derived Zno coupling HZSM-5

通过水热溶剂法合成有机骨架结构材料ZIF-8,以其为前驱体调变焙烧温度制备ZnO纳米粒子。采用XRD、TEM、XPS、Raman等表征研究ZnO的组成结构及晶粒粒径形态变化;将ZnO与HZSM-5耦合形成双功能催化剂,考察其在合成气转化中的催化活性。结果表明,焙烧温度对ZnO的颗粒粒径结构影响较大,温度影响晶粒的形成速率,提高温度会促进ZnO的聚集;ZIF-8衍生ZnO通过调变温度影响ZnO晶粒粒径,起到改变产物分布的作用。当焙烧温度≤450℃时,以碳包覆ZnO纳米粒子结构存在,ZnO晶粒粒径小于20 nm,含碳ZnO耦合HZSM-5催化剂的产物以二甲醚为主;当温度≥500℃,以纯相ZnO存在,ZnO晶粒粒径皆大于20 nm,ZnO耦合HZSM-5催化剂的产物以烃类为主。ZnO与HZSM-5的耦合方式对双功能催化剂的产物选择性有显著影响。

Zeolitic imidazolate frameworks(ZIF-8)were synthesized by solvothermal method.Used as precursor,ZIF-8 was decomposed into nanoparticles ZnO at different pyrolysis temperature in air atmosphere.The composition,structure and crystal size of ZnO were characterized by XRD,TEM,XPS,and Raman methods.The ZnO nanoparticles were coupled with HZSM-5 to form bifunctional catalysts.The catalytic performances of bifunctional catalysts in the syngas conversion were investigated in a fixed-bed tubular reactor.The results demonstrate that the pyrolysis temperature has an important influence on the particle size of ZnO.The temperature affects the rate of grain formation.High temperature promotes the aggregation of ZnO.The ZnO grain size by changing the temperature plays a role in changing the product distribution.When the pyrolysis temperature is near or below 450℃,carbon-coated ZnO nanoparticles are obtained,and the ZnO grain size is less than 20 nm.The carbon-coated ZnO coupled with HZSM-5 catalyzes syngas mainly into dimethyl ether(DME).When the temperature is higher than 450℃,pure phase ZnO nano particles are obtained,and the ZnO grain size is larger than 20 nm.The pure ZnO coupled with HZSM-5 catalyzes syngas mainly into hydrocarbons.Obviously,the coupling modes of ZnO and HZSM-5 have a significant effect on the product selectivity of bifunctional catalysts.