Andrew J. Basalla scite author profile

Andrew J. Basalla

2Publications

42Citation Statements Received

166Citation Statements Given

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University of Colorado Boulder

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Breathable, Polydopamine-Coated Nanoporous Membranes That Selectively Reject Nerve and Blister Agent Simulant Vapors

Dwulet

Dischinger

McGrath

et al. 2019

Ind. Eng. Chem. Res.

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A laminated thin-film composite (TFC) membrane system consisting of an ultrafiltration support, an ordered, nanoporous, polymerized lyotropic liquid crystal (LLC) intermediate layer, and an ultrathin, dense polydopamine top layer was developed for use as a “breathable” chemical-protective garment material. These membranes exhibit a high water vapor transport rate (ca. 500 g m–2 day–1) and excellent rejection of both CEES (a blister agent simulant) and DMMP (a nerve agent simulant) vapors under ambient conditions. The (water:CEES) and (water:DMMP) molar vapor selectivity values of this new composite membrane system were found to be 170 ± 40 and >3400, respectively, which exceed those of any previously reported LLC-based membrane system.

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Polymerization of Counteranions in the Cationic Nanopores of a Cross-linked Lyotropic Liquid Crystal Network to Modify Ion Transport Properties

McGrath

Hardy

Basalla

et al. 2019

ACS Materials Lett.

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The nanopores of an as-synthesized cross-linked, cationic, type I bicontinuous cubic (QI)-phase lyotropic liquid crystal network were modified by exchange of its Br– counteranions in the pores with polymerizable 3-sulfopropyl acrylate anions, which were subsequently photopolymerized in situ. The formed anionic poly(3-sulfopropyl acrylate) chains remain inside the pores even when the material is exposed to 1 M aq. salt solutions. After anionic polymer formation inside the pores, the QI network loses its overall ion exchange capacity, presumably because of complexation of the cationic matrix with the resident anionic polymer, and exhibits higher KCl sorption. However, the pore environment remains ionic, as confirmed by water and salt sorption measurements. Single-salt diffusion dialysis studies on supported QI thin film membranes containing the anionic polymer in the QI pores show that KCl permeates >70 and >150 times faster than K2SO4 at 0.05 and 0.5 M feed concentrations, respectively. In contrast, KCl permeates at the same or slower rate than K2SO4 through as-synthesized supported QI thin film membranes. The poly(3-sulfopropyl acrylate) formed inside the QI pores is likely responsible for these observed ion sorption and transport differences.

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Andrew J. Basalla

Breathable, Polydopamine-Coated Nanoporous Membranes That Selectively Reject Nerve and Blister Agent Simulant Vapors

Polymerization of Counteranions in the Cationic Nanopores of a Cross-linked Lyotropic Liquid Crystal Network to Modify Ion Transport Properties

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