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Incorporation of CO2 philic moieties into a TiO2 nanomembrane for preferential CO2 separation

RSC Advances Pub Date: 2016-09-12 DOI: 10.1039/C6RA18419G

Abstract

Here we report a preferential CO₂ separation membrane consisting of a nanometer-thick TiO₂ layer incorporated with phtalic acid (PA) molecules on polydimethylsiloxane (PDMS) (PA@TiO₂/PDMS). Incorporated PAs in TiO₂ act as CO₂-philic pores for preferential CO-₂ permeation over nitrogen. CO₂ binding to the PA incorporated in TiO₂ is confirmed by the density functional theory calculation (DFT). As a result, membranes with of PA@TiO₂ layer demonstrated much higher selectivity to CO₂ for mixed CO₂/N₂ gas separation compared to a conventional PDMS membrane. The exceptional selectivity of the composite layer alone (>150) was estimated by a resistance model.

Graphical abstract: Incorporation of CO2 philic moieties into a TiO2 nanomembrane for preferential CO2 separation

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