Journal
ACS APPLIED POLYMER MATERIALS
Volume 4, Issue 1, Pages 663-671Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsapm.1c01585
Keywords
DNA; chitosan; chitoplex; polyelectrolyte complex; hydrogel; aerogel
Funding
- Japan Ministry of Education, Culture, Sports, Science and Technology [21K12306]
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Recent research has demonstrated that native ds-DNA and chitosan can coassemble to form a translucent homogeneous hydrogel, with extraordinary mechanical properties. These hydrogels and aerogels, due to their biocompatibility, biodegradability, and use of renewable resources, have the potential to replace typical synthetic polymers. Additionally, bionanocomposites with various functionalities can be fabricated, showing potential for applications in areas such as luminescence, sensing, and photocatalysis.
It has recently been shown that native ds-DNA and chitosan can coassemble without common phase separation and precipitation, forming a translucent homogeneous hydrogel. This simple approach consists of progressive charging of the polysaccharide through gradual acidification of a solution in the presence of DNA, which slowly strengthens the electrostatic interactions between them, ruling out fast and uncontrolled cooperative association, which is a well-known problem associated with coacervation. Homogeneous hydrogels thus fabricated demonstrated mechanical properties characteristic of quite strong physical hydrogels. Extraordinary mechanical strength and elasticity have been observed in aerogels prepared from an original hydrogel and also in hydrogels, which were restored by the rehydration of aerogels. Aerogels match highly cross-linked synthetic polyurethane foams despite DNA with chitosan being bound only via electrostatic interactions without using a toxic cross-linking agent. Owing to their biocompatibility, biodegradability, and available renewable resources, hydrogels and aerogels might replace typical synthetic polymers. The fabrication of bionanocomposites with luminescent, sensing, and photocatalytic functionalities by entrapping quantum dots, titania nanoparticles, and dyes demonstrates some possible applications.
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