%0 Journal Article
%A Chun, Jiseul
%A Kang, Sungah
%A Park, Nojin
%A Park, Eun Ji
%A Jin, Xing
%A Kim, Kwang-Dae
%A Seo, Hyun Ook
%A Lee, Sang Moon
%A Kim, Hae Jin
%A Kwon, Woo Hyun
%A Park, Young-Kwon
%A Kim, Ji Man
%A Kim, Young Dok
%A Son, Seung Uk
%D 2014
%T Metal–Organic
Framework@Microporous Organic
Network: Hydrophobic Adsorbents with a Crystalline Inner Porosity
%U https://acs.figshare.com/articles/journal_contribution/Metal_Organic_Framework_Microporous_Organic_Network_Hydrophobic_Adsorbents_with_a_Crystalline_Inner_Porosity/2296576
%R 10.1021/ja500362w.s001
%2 https://ndownloader.figshare.com/files/3934042
%K MON materials
%K chemical etching
%K MOF results
%K Hydrophobic Adsorbents
%K UiO
%K microporous materials
%K Crystalline Inner PorosityThis work reports
%K MONs forms
%X This
work reports the synthesis and application of metal–organic
framework (MOF)@microporous organic network (MON) hybrid materials.
Coating a MOF, UiO-66-NH2, with MONs forms hybrid microporous
materials with hydrophobic surfaces. The original UiO-66-NH2 shows good wettability in water. In comparison, the MOF@MON hybrid
materials float on water and show excellent performance for adsorption
of a model organic compound, toluene, in water. Chemical etching of
the MOF results in the formation of hollow MON materials.
%I ACS Publications