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A new post-synthetic polymerization strategy makes metal-organic frameworks more stable.


ABSTRACT: Metal-organic frameworks are of interest in a number of host-guest applications. However, their weak coordination bonding often leads to instability in aqueous environments, particularly at extreme pH, and hence, is a challenging topic in the field. In this work, a two-step, post-synthetic polymerization method is used to create a series of highly hydrophobic, stable MOF composites. The MOFs are first coated with thin layers of polydopamine from free-base dopamine under a mild oxygen atmosphere, which then undergoes a Michael addition to covalently graft hydrophobic molecules to the external MOF surface. This easy, mild post-synthetic modification is shown to significantly improve the stability of a number of structurally diverse MOFs including HKUST-1 (Cu), ZIF-67 (Co), ZIF-8 (Zn), UiO-66 (Zr), Cu-TDPAT (Cu), Mg-MOF-74 (Mg) and MIL-100 (Fe) in wet, caustic (acidic and basic) environments as determined by powder X-ray diffraction and surface area measurements.

SUBMITTER: Yang S 

PROVIDER: S-EPMC6498544 | biostudies-other | 2019 May

REPOSITORIES: biostudies-other

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A new post-synthetic polymerization strategy makes metal-organic frameworks more stable.

Yang Shuliang S   Peng Li L   Sun Daniel T DT   Asgari Mehrdad M   Oveisi Emad E   Trukhina Olga O   Bulut Safak S   Jamali Abbas A   Queen Wendy L WL  

Chemical science 20190325 17


Metal-organic frameworks are of interest in a number of host-guest applications. However, their weak coordination bonding often leads to instability in aqueous environments, particularly at extreme pH, and hence, is a challenging topic in the field. In this work, a two-step, post-synthetic polymerization method is used to create a series of highly hydrophobic, stable MOF composites. The MOFs are first coated with thin layers of polydopamine from free-base dopamine under a mild oxygen atmosphere,  ...[more]

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