Crystal-Growth-Dominated Fabrication of Metal–Organic Frameworks with Orderly Distributed Hierarchical Porosity

Hang Li; Fanchen Meng; Suoying Zhang; Liguang Wang; Matthew Li; Lu Ma; Weina Zhang; Wenlei Zhang; Zhuhong Yang; Tianpin Wu; Sungsik Lee; Fengwei Huo; Jun Lu

doi:10.1002/anie.201912972

Crystal-Growth-Dominated Fabrication of Metal–Organic Frameworks with Orderly Distributed Hierarchical Porosity

Hang Li, Fanchen Meng, Suoying Zhang, Liguang Wang, Matthew Li, Lu Ma, Weina Zhang, Wenlei Zhang, Zhuhong Yang, Tianpin Wu, Sungsik Lee, Fengwei Huo, Jun Lu

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

Research output: Contribution to journal › Article › peer-review

71 Scopus citations

Abstract

Constructing architectures with hierarchical porosity has been widely considered as the most efficient way to bypass the problems related to slow mass transfer and inaccessibility of internal space in MOFs. Now, a crystal-growth-dominated strategy is proposed to fabricate hierarchically porous MOFs (HP-MOFs). When the crystal growth is dominated by the monomer attachment, the aggregation of nonionic surfactant or polymer can be easily captured and released during the crystal growth process, resulting in the formation and ordering hierarchical pores along the radial direction. Owing to the accelerated mass diffusion and more exposed active sites of this design, HP-MOFs exhibited an enhanced catalytic efficiency in styrene oxidation.

Original language	English
Pages (from-to)	2457-2464
Number of pages	8
Journal	Angewandte Chemie - International Edition
Volume	59
Issue number	6
DOIs	https://doi.org/10.1002/anie.201912972
State	Published - 3 Feb 2020

Keywords

crystal growth
hierarchical porosity
metal–organic frameworks
nanostructures
styrene

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10.1002/anie.201912972

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title = "Crystal-Growth-Dominated Fabrication of Metal–Organic Frameworks with Orderly Distributed Hierarchical Porosity",

abstract = "Constructing architectures with hierarchical porosity has been widely considered as the most efficient way to bypass the problems related to slow mass transfer and inaccessibility of internal space in MOFs. Now, a crystal-growth-dominated strategy is proposed to fabricate hierarchically porous MOFs (HP-MOFs). When the crystal growth is dominated by the monomer attachment, the aggregation of nonionic surfactant or polymer can be easily captured and released during the crystal growth process, resulting in the formation and ordering hierarchical pores along the radial direction. Owing to the accelerated mass diffusion and more exposed active sites of this design, HP-MOFs exhibited an enhanced catalytic efficiency in styrene oxidation.",

keywords = "crystal growth, hierarchical porosity, metal–organic frameworks, nanostructures, styrene",

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AU - Li, Hang

AU - Meng, Fanchen

AU - Zhang, Suoying

AU - Wang, Liguang

AU - Li, Matthew

AU - Ma, Lu

AU - Zhang, Weina

AU - Zhang, Wenlei

AU - Yang, Zhuhong

AU - Wu, Tianpin

AU - Lee, Sungsik

AU - Huo, Fengwei

AU - Lu, Jun

PY - 2020/2/3

Y1 - 2020/2/3

N2 - Constructing architectures with hierarchical porosity has been widely considered as the most efficient way to bypass the problems related to slow mass transfer and inaccessibility of internal space in MOFs. Now, a crystal-growth-dominated strategy is proposed to fabricate hierarchically porous MOFs (HP-MOFs). When the crystal growth is dominated by the monomer attachment, the aggregation of nonionic surfactant or polymer can be easily captured and released during the crystal growth process, resulting in the formation and ordering hierarchical pores along the radial direction. Owing to the accelerated mass diffusion and more exposed active sites of this design, HP-MOFs exhibited an enhanced catalytic efficiency in styrene oxidation.

AB - Constructing architectures with hierarchical porosity has been widely considered as the most efficient way to bypass the problems related to slow mass transfer and inaccessibility of internal space in MOFs. Now, a crystal-growth-dominated strategy is proposed to fabricate hierarchically porous MOFs (HP-MOFs). When the crystal growth is dominated by the monomer attachment, the aggregation of nonionic surfactant or polymer can be easily captured and released during the crystal growth process, resulting in the formation and ordering hierarchical pores along the radial direction. Owing to the accelerated mass diffusion and more exposed active sites of this design, HP-MOFs exhibited an enhanced catalytic efficiency in styrene oxidation.

KW - crystal growth

KW - hierarchical porosity

KW - metal–organic frameworks

KW - nanostructures

KW - styrene

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IS - 6

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Crystal-Growth-Dominated Fabrication of Metal–Organic Frameworks with Orderly Distributed Hierarchical Porosity

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Keywords

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