Dual-functional crosslinked polymer-inorganic materials for robust electrochemical performance and antibacterial activity

By Zoubi, Wail Al; Kim, Min Jun; Kim, Yang Gon; Ko, Young Gun
Published in Chemical Engineering Journal 2019

Abstract

Highly chemical stable and antibacterial materials are desirable for bone reconstruction and packaging applications. Crosslinked polymer-inorganic materials have attracted significant attention in this respect owing to their low cost, simplicity and excellent mechanical properties. Up to this work, it remains challenging to fabricate hybrid organic-inorganic films with controlled electrochemical, photocorrosion, and antibacterial performance that are stable in the aggressive solutions and solvents. In this protocol paper, we report a new approach to designing crosslinked polymer-inorganic films with enhanced corrosion protection and antibacterial performance by manipulating the amount of citric acid (CA) and polyvinyl alcohol (PVA) in the hydrogen film PxCy (x = 10, 8, 6.5, 5, 2 g; y = 0, 2, 3.5, 5, 8 g). Ultrathin PxCy films are fabricated in situ by interfacial crosslinking process on the porous inorganic surface (IC) synthesized via straightforward plasma electrolysis (PE). Enhanced electrochemical, photocorrosion and potential antibacterial performance for IC-PxCy film is achieved by using contorted crosslinking agent, CA, for the interfacial crosslinking process. The electrochemical performance is enhanced remarkably in the order of IC-P6.5C3.5, IC-P5C5, IC-P10C0, IC, and IC-P2C8, which account for the synergistic integration of the IC and PxCy as well as degree of crosslinking between PVA and CA. In addition, the results indicate that IC-P6.5C3.5, IC-P5C5 and IC-P2C8 have outstanding antibacterial activity.

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