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Crystalline Capsules: Metal–Organic Frameworks Locked by Size‐Matching Ligand Bolts
Author(s) -
Wang Hao,
Xu Jian,
Zhang DaShuai,
Chen Qiang,
Wen RongMei,
Chang Ze,
Bu XianHe
Publication year - 2015
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201500468
Subject(s) - metal organic framework , encapsulation (networking) , porosity , materials science , nanotechnology , leaching (pedology) , metal , chemistry , chemical engineering , organic chemistry , computer science , metallurgy , composite material , computer network , environmental science , adsorption , engineering , soil science , soil water
Metal–organic frameworks (MOFs) are shown to be good examples of a new class of crystalline porous materials for guest encapsulation. Since the encapsulation/release of guest molecules in MOF hosts is a reversible process in nature, how to prevent the leaching of guests from the open pores with minimal and nondestructive modifications of the structure is a critical issue. To address this issue, we herein propose a novel strategy of encapsulating guests by introducing size‐matching organic ligands as bolts to lock the pores of the MOFs through deliberately anchoring onto the open metal sites in the pores. Our proposed strategy provides a mechanical way to prevent the leaching of guests and thereby has less dependence on the specific chemical environment of the hosts, thus making it applicable for a wide variety of existing MOFs once the size‐matching ligands are employed.