Issue 46, 2020

Layered double hydroxide-based antioxidant dispersions with high colloidal and functional stability

Abstract

Highly stable antioxidant dispersions were designed on the basis of ring-opened ellagic acid (EA) intercalated into MgAl-layered double hydroxide (LDH) nanoparticles. The morphology of the composite was delicately modified with ethanolic washing to obtain EtOH–EA–LDH with a high specific surface area. The colloidal stability was optimized by surface functionalization with positively charged polyelectrolytes. Polyethyleneimine (PEI), protamine sulfate (PS) and poly(acrylamide-co-diallyl dimethyl ammonium chloride) (PAAm-co-DADMAC) was adsorbed onto the surface of the oppositely charged EtOH–EA–LDH leading to charge neutralization and overcharging at appropriate doses. Formation of adsorbed polyelectrolyte layers provided remarkable colloidal stability for the EtOH–EA–LDH. Modification with PEI and PAAm-co-DADMAC outstandingly improved the resistance of the particles against salt-induced aggregation with a critical coagulation concentration value above 1 M, while only limited stability was achieved by covering the nanoparticles with PS. The high antioxidant activity of EtOH–EA–LDH was greatly preserved upon polyelectrolyte coating, which was proved in the scavenging of radicals in the test reaction applied. Hence, an active antioxidant nanocomposite of high drug dose and remarkable colloidal stability was obtained to combat oxidative stress in systems of high electrolyte concentrations.

Graphical abstract: Layered double hydroxide-based antioxidant dispersions with high colloidal and functional stability

Supplementary files

Article information

Article type
Paper
Submitted
24 Aug 2020
Accepted
27 Sep 2020
First published
28 Sep 2020
This article is Open Access
Creative Commons BY license

Soft Matter, 2020,16, 10518-10527

Layered double hydroxide-based antioxidant dispersions with high colloidal and functional stability

A. Szerlauth, S. Muráth and I. Szilagyi, Soft Matter, 2020, 16, 10518 DOI: 10.1039/D0SM01531H

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