Synergistic complexation of phenol functionalized polymer induced in situ microfiber formation for 3D printing of marine-based hydrogels

Jafari, Hafez; Delporte, Christine; Bernaerts, Katrien V.; Alimoradi, Houman; Nie, Lei; Podstawczyk, Daria; Tam, Kam Chiu; Shavandi, Amin

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Royal Society of Chemistry, Green Chemistry, 6(24), p. 2409-2422, 2022

DOI: 10.1039/d1gc04347a

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Synergistic complexation of phenol functionalized polymer induced in situ microfiber formation for 3D printing of marine-based hydrogels

Journal article published in 2022 by Hafez Jafari

, Christine Delporte, Katrien V. Bernaerts

, Houman Alimoradi, Lei Nie

, Daria Podstawczyk

, Kam Chiu Tam

, Amin Shavandi

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Abstract

This study proposes a strategy to design tough and 3D printable marine-based hydrogels based on the synergistic complexation of a phenolated polyelectrolyte complex and enzyme-mediated crosslinking.

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Synergistic complexation of phenol functionalized polymer induced in situ microfiber formation for 3D printing of marine-based hydrogels

Abstract