Constructing Intrapenetrated Hierarchical Zeolites with Highly Complete Framework via Protozeolite Seeding

Creation of intrapenetrated mesopores with open highway from external surface into the interior of zeolite crystals are highly desirable that can significantly improve the molecular transport and active sites accessibility of microporous zeolites to afford enhanced catalytic properties. Here, differ...

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Published inAngewandte Chemie Vol. 135; no. 49
Main Authors Liu, Yinghao, Wang, Xingxing, Li, Junyan, Zhang, Qiang, Niu, Zijian, Wang, Sen, Gao, Yanjing, Gao, Mingkun, Bai, Risheng, Zhou, Yida, Fan, Weibin, Terasaki, Osamu, Xu, Jun, Yu, Jihong
Format Journal Article
LanguageEnglish
Published Weinheim Wiley Subscription Services, Inc 04.12.2023
Subjects
Chemistry
Coalescence
Crystallites
Crystallization
Crystals
Hierarchical Structure
Intrapenetrated Mesopores
Methanol-to-Propylene Reaction
Nucleation
Propylene
Protein seeding
Protozeolite Seed
Seeds
Synthesis
Zeolites
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Summary:Creation of intrapenetrated mesopores with open highway from external surface into the interior of zeolite crystals are highly desirable that can significantly improve the molecular transport and active sites accessibility of microporous zeolites to afford enhanced catalytic properties. Here, different from traditional zeolite‐seeded methods that generally produced isolated mesopores in zeolites, nanosized amorphous protozeolites with embryo structure of zeolites were used as seeds for the construction of single‐crystalline hierarchical ZSM‐5 zeolites with intrapenetrated mesopores (mesopore volume of 0.51 cm3 g−1) and highly complete framework. In this strategy, in contrast to the conventional synthesis, only a small amount of organic structure directing agents and a low crystallization temperature were adopted to promise the protozeolites as the dominant growth directing sites to induce crystallization. The protozeolite nanoseeds provided abundant nucleation sites for surrounding precursors to be crystallized, followed by oriented coalescence of crystallites resulting in the formation of intrapenetrated mesopores. The as‐prepared hierarchical ZSM‐5 zeolites exhibited ultra‐long lifetime of 443.9 hours and a high propylene selectivity of 47.92 % at a WHSV of 2 h−1 in the methanol‐to‐propylene reaction. This work provides a facile protozeolite‐seeded strategy for the synthesis of intrapenetrated hierarchical zeolites that are highly effective for catalytic applications. A single‐crystalline intrapenetrated hierarchical zeolite with highly complete framework was synthesized via protozeolite seeding. The protozeolite provided abundant nucleation sites for surrounding precursors to be crystallized, followed by oriented coalescence of crystallites resulting in the formation of intrapenetrated mesopores. The as‐prepared zeolite presented excellent performance in the methanol‐to‐propylene reaction.
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.202312131