Alan R. Greenberg scite author profile

Selected aromatic amides were used to model the chemical reactivity of aromatic polyamides found in thin-film composite reverse osmosis (RO) membranes. Chlorination and possible amide bond cleavage of aromatic amides upon exposure to aqueous chlorine, which can lead to membrane failure, were investigated. Correlations are made of the available chlorine concentration, pH, and exposure time with chemical changes in the model compounds. From the observed reactivity trends, insights are obtained into the mechanism of RO membrane performance loss upon chlorine exposure. Two chemical pathways for degradation are shown, one at constant pH and another that is pH-history dependent. An alternative strategy is presented for the design of chlorine-resistant RO membranes, and an initial performance study of RO membranes incorporating this strategy is reported.

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Use of nanoimprinted surface patterns to mitigate colloidal deposition on ultrafiltration membranes

Maruf

Wang

Greenberg

et al. 2013

Journal of Membrane Science

134

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Real-time measurement of inorganic fouling of RO desalination membranes using ultrasonic time-domain reflectometry

Mairal

Greenberg

Krantz

et al. 1999

Journal of Membrane Science

160

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Alan R. Greenberg

Thermomechanics of shape memory polymers: Uniaxial experiments and constitutive modeling

Polymeric membranes for the hydrogen economy: Contemporary approaches and prospects for the future

Oxidative degradation of polyamide reverse osmosis membranes: Studies of molecular model compounds and selected membranes

Use of nanoimprinted surface patterns to mitigate colloidal deposition on ultrafiltration membranes

Real-time measurement of inorganic fouling of RO desalination membranes using ultrasonic time-domain reflectometry

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