Smart release of antimicrobial ZnO nanoplates from a pH-responsive keratin hydrogel
ME Villanueva, ML Cuestas, CJ Pérez, VC Dall… - Journal of colloid and …, 2019 - Elsevier
ME Villanueva, ML Cuestas, CJ Pérez, VC Dall, GJ Copello
Journal of colloid and interface science, 2019•ElsevierA smart antibacterial biomaterial based on a keratin hydrogel with pH-dependent behavior
and Zinc Oxide nanoplates as biocide agent has been developed. The pH of a chronic
wound is basic due to bacterial metabolism. Originally shrank at acid pH, keratin hydrogels
swell upon contact with a bacterial contaminated media leading to the release of the
nanoparticles. The material has been thoroughly characterized by infrared spectroscopy,
Raman, scanning electron microscope, swelling behavior, Differential scanning calorimetry …
and Zinc Oxide nanoplates as biocide agent has been developed. The pH of a chronic
wound is basic due to bacterial metabolism. Originally shrank at acid pH, keratin hydrogels
swell upon contact with a bacterial contaminated media leading to the release of the
nanoparticles. The material has been thoroughly characterized by infrared spectroscopy,
Raman, scanning electron microscope, swelling behavior, Differential scanning calorimetry …
Abstract
A smart antibacterial biomaterial based on a keratin hydrogel with pH-dependent behavior and Zinc Oxide nanoplates as biocide agent has been developed. The pH of a chronic wound is basic due to bacterial metabolism. Originally shrank at acid pH, keratin hydrogels swell upon contact with a bacterial contaminated media leading to the release of the nanoparticles. The material has been thoroughly characterized by infrared spectroscopy, Raman, scanning electron microscope, swelling behavior, Differential scanning calorimetry, Small-angle X-ray scattering, rheology, antimicrobial activity and cytotoxicity. The results show that 5% of Zinc Oxide nanoparticles concentration is the optimum for wound dressing applications.
Elsevier
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