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Flexible single-layer ionic organic-inorganic frameworks towards precise nano-size separation.


ABSTRACT: Consecutive two-dimensional frameworks comprised of molecular or cluster building blocks in large area represent ideal candidates for membranes sieving molecules and nano-objects, but challenges still remain in methodology and practical preparation. Here we exploit a new strategy to build soft single-layer ionic organic-inorganic frameworks via electrostatic interaction without preferential binding direction in water. Upon consideration of steric effect and additional interaction, polyanionic clusters as connection nodes and cationic pseudorotaxanes acting as bridging monomers connect with each other to form a single-layer ionic self-assembled framework with 1.4?nm layer thickness. Such soft supramolecular polymer frameworks possess uniform and adjustable ortho-tetragonal nanoporous structure in pore size of 3.4-4.1?nm and exhibit greatly convenient solution processability. The stable membranes maintaining uniform porous structure demonstrate precisely size-selective separation of semiconductor quantum dots within 0.1?nm of accuracy and may hold promise for practical applications in selective transport, molecular separation and dialysis systems.

SUBMITTER: Yue L 

PROVIDER: S-EPMC4773479 | biostudies-literature | 2016 Feb

REPOSITORIES: biostudies-literature

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Flexible single-layer ionic organic-inorganic frameworks towards precise nano-size separation.

Yue Liang L   Wang Shan S   Zhou Ding D   Zhang Hao H   Li Bao B   Wu Lixin L  

Nature communications 20160229


Consecutive two-dimensional frameworks comprised of molecular or cluster building blocks in large area represent ideal candidates for membranes sieving molecules and nano-objects, but challenges still remain in methodology and practical preparation. Here we exploit a new strategy to build soft single-layer ionic organic-inorganic frameworks via electrostatic interaction without preferential binding direction in water. Upon consideration of steric effect and additional interaction, polyanionic cl  ...[more]

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