Preparation, Characterization, and Cytotoxicity Evaluation of Zinc Oxide–Bacterial Cellulose–Chitosan Hydrogels for Antibacterial Dressing

Jiang, Kai; Zhou, Xuesong

doi:10.1002/macp.202000257

Cited by 25 publications

(9 citation statements)

References 41 publications

(42 reference statements)

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“…Therefore, two antimicrobial factors were chosen to fabricate the paper coating to obtain the additive effect. Other published papers employ the same strategy, i.e., the use of two antimicrobial agents [ 23 , 36 ]. The assay of antimicrobial activity of the composites revealed that the combination of chitosan and ZnO was more effective than chitosan alone and led to a 100% reduction in bacterial titer, while paper coated with pristine chitosan exhibited a 96.36% reduction.…”

Section: Discussionmentioning

confidence: 99%

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Fabrication of Paper Sheets Coatings Based on Chitosan/Bacterial Nanocellulose/ZnO with Enhanced Antibacterial and Mechanical Properties

Jabłońska

Onyszko

Konopacki

et al. 2021

IJMS

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Here, we designed paper sheets coated with chitosan, bacterial cellulose (nanofibers), and ZnO with boosted antibacterial and mechanical activity. We investigated the compositions, with ZnO exhibiting two different sizes/shapes: (1) rods and (2) irregular sphere-like particles. The proposed processing of bacterial cellulose resulted in the formation of nanofibers. Antimicrobial behavior was tested using E. coli ATCC® 25922™ following the ASTM E2149-13a standard. The mechanical properties of the paper sheets were measured by comparing tearing resistance, tensile strength, and bursting strength according to the ISO 5270 standard. The results showed an increased antibacterial response (assigned to the combination of chitosan and ZnO, independent of its shape and size) and boosted mechanical properties. Therefore, the proposed composition is an interesting multifunctional mixture for coatings in food packaging applications.

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Section: Discussionmentioning

confidence: 99%

“…To our knowledge, only one research article covered the use of chitosan, bacterial cellulose, and ZnO [ 23 ]. However, the application and processing of the components differed from the method applied in this paper.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Paper Sheets Coatings Based on Chitosan/Bacterial Nanocellulose/ZnO with Enhanced Antibacterial and Mechanical Properties

Jabłońska

Onyszko

Konopacki

et al. 2021

IJMS

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“…Therefore, there are many other approaches which use combinations of different formulations together with chitosan to improve its antimicrobial effects. Specifically, for wound dressings, many different formulations and approaches have been applied to improve their antibacterial activity, such as: silver formulations [ 138 , 139 ], zinc oxide [ 140 ], nitric oxide [ 104 ], ferulic acid [ 141 ], etc. Through carboxymethylation and selective oxidation of bacterial cellulose and cross-linking with chitosan, Xie et al produced a cellulose–chitosan wound dressing that inhibited bacterial proliferation and exhibited an 80% wound-healing rate after three weeks.…”

Section: Cellulose–chitosan Functional Biocompositesmentioning

confidence: 99%

Cellulose–Chitosan Functional Biocomposites

Strnad

Zemljič

2023

Polymers

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Here, we present a detailed review of recent research and achievements in the field of combining two extremely important polysaccharides; namely, cellulose and chitosan. The most important properties of the two polysaccharides are outlined, giving rise to the interest in their combination. We present various structures and forms of composite materials that have been developed recently. Thus, aerogels, hydrogels, films, foams, membranes, fibres, and nanofibres are discussed, alongside the main techniques for their fabrication, such as coextrusion, co-casting, electrospinning, coating, and adsorption. It is shown that the combination of bacterial cellulose with chitosan has recently gained increasing attention. This is particularly attractive, because both are representative of a biopolymer that is biodegradable and friendly to humans and the environment. The rising standard of living and growing environmental awareness are the driving forces for the development of these materials. In this review, we have shown that the field of combining these two extraordinary polysaccharides is an inexhaustible source of ideas and opportunities for the development of advanced functional materials.

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“…Most of the studies in the literature were performed using silver nanoparticles, however, also some different nanoparticles can be found, namely copper (Ponco and Helmiyati, 2020), gold (Mahmoud et al, 2019), zinc oxide (Kai and Xuesong, 2020) silver-titanium dioxide nanoparticles as an antibacterial agent. The kinetics of drug release was performed by using various mathematical models, where the Higuchi model was found to be the best fit.…”

Section: Additional Nanoparticlesmentioning

confidence: 99%