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Multiscale porous interconnected nanocolander network with tunable transport properties.
Young Hun Kim
1 ,
Hyo Kang ,
Sungmin Park ,
A Reum Park ,
Yong Man Lee ,
Do Kyung Rhee ,
Sungsoo Han ,
Hyuk Chang ,
Du Yeol Ryu ,
Pil J Yoo
Dec 17 2014
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Abstract
A nanocolander network is developed by embedding mesoporous block copolymers inside the structural frame of a macroporous inverse-opal structure. Spontaneously formed macroconduits interconnecting the macropores are utilized as internal bypasses for enhancing the bulk transport properties. A demonstrative application for the membrane of the nanocolander network is of perfect size-selectivity for nanoparticle separation without compromising the high permeability of the transporting medium.