期刊
MATERIALS ADVANCES
卷 2, 期 11, 页码 3538-3551出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1ma00116g
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资金
- Ministry of Education Malaysia [UPNM/2018/CHEMDEF/ST/4]
- Universiti Pertahanan Nasional Malaysia (National Defence University of Malaysia)
With increasing tolerance to antibiotics among microorganisms, research on the discovery of naturally-occurring biocides with low-risk cytotoxicity properties has become more pressing. The latest research focuses on nanocellulosic antimicrobial materials, which have low-cost and unique features, potentially useful in various applications.
The prolonged survival of microbes on surfaces in high-traffic/high-contact environments drives the need for a more consistent and passive form of surface sterilization to minimize the risk of infection. Due to increasing tolerance to antibiotics among microorganisms, research focusing on the discovery of naturally-occurring biocides with low-risk cytotoxicity properties has become more pressing. The latest research has centred on nanocellulosic antimicrobial materials due to their low-cost and unique features, which are potentially useful as wound dressings, drug carriers, packaging materials, filtration/adsorbents, textiles, and paint. This review discusses the latest literature on the fabrication of nanocellulose-based antimicrobial materials against viruses, bacteria, fungi, algae, and protozoa by employing variable functional groups, including aldehyde groups, quaternary ammonium, metal, metal oxide nanoparticles as well as chitosan. The problems associated with industrial manufacturing and the prospects for the advancement of nanocellulose-based antimicrobial materials are also addressed.
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