期刊
ACS NANO
卷 10, 期 8, 页码 7401-7408出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsnano.6b00888
关键词
hollow nanovesicle; multilevel structure; zeolite; metal-encapsulated; phenol degradation
类别
资金
- National Natural Science Foundation of China [21236008, 21306018]
- QianRen Type B Award
Inspired by the vesicular structure of alveolus which has a porous nanovesicle structure facilitating the transport of oxygen and carbon dioxide, we designed a hollow nanovesicle assembly with metal-encapsulated hollow zeolite that would enhance diffusion of reactants/products and inhibit sintering and leaching of active metals. This zeolitic nanovesicle has been successfully synthesized by a strategy which involves a one-pot hydrothermal synthesis of hollow assembly of metal-containing solid zeolite crystals without a structural template and a selective desilication-recrystallization accompanied by leaching-hydrolysis to convert the metal-containing solid crystals into metal-encapsulated hollow crystals. We demonstrate the strategy in synthesizing a hollow nanovesicle assembly of Fe2O3-encapsulated hollow crystals of ZSM-5 zeolite. This material possesses a microporous (0.4-0.6 nrn) wall of hollow crystals and a mesoporous (5-17 mu) shell of nanovesicle with macropores (about 350 mu) in the core. This hierarchical structure enables excellent Fe2O3 dispersion (3-4 nm) and resistance to sintering even at 800 degrees C; facilitates the transport of reactant/products; and exhibits superior activity and resistance to leaching in phenol degradation. Hollow nanovesicle assembly of Fe-Pt bimetal-encapsulated hollow ZSM-5 crystals was also prepared.
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