Author: Bland, Henry A.; Centeleghe, Isabella A.; Mandal, Soumen; Thomas, Evan L. H.; Maillard, Jean-Yves; Williams, Oliver A.
Title: Electropositive Nanodiamond-Coated Quartz Microfiber Membranes for Virus and Dye Filtration Cord-id: 8h5w8wyb Document date: 2021_3_9
ID: 8h5w8wyb
Snippet: [Image: see text] Electropositive membranes demonstrating high flux at low pressure differentials show great promise as universal separation platforms for viruses and other charged entities when centralized systems of water and power are scarce. However, the fabrication of a suitably stable membrane with optimal electrostatic characteristics remains a challenge. Here, hydrogenated detonation nanodiamond was loaded onto a quartz microfiber support membrane and coupled to the membrane surface unde
Document: [Image: see text] Electropositive membranes demonstrating high flux at low pressure differentials show great promise as universal separation platforms for viruses and other charged entities when centralized systems of water and power are scarce. However, the fabrication of a suitably stable membrane with optimal electrostatic characteristics remains a challenge. Here, hydrogenated detonation nanodiamond was loaded onto a quartz microfiber support membrane and coupled to the membrane surface under a high vacuum annealing process. The fabricated membranes display a zeta potential of +45 mV at pH 7 and an isoelectric point around pH 11. We show that the nanodiamond coating is robust to prolonged periods of pressurized water flow by performing extensive zeta potential measurements over time, and water filtration tests demonstrated excellent membrane retention for the electronegative dye molecule acid black 2, and at least a 6.2 log(10) reduction in MS2 bacteriophage from feed waters (>99.9999%).
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