期刊
ENVIRONMENTAL REVIEWS
卷 25, 期 2, 页码 225-244出版社
CANADIAN SCIENCE PUBLISHING
DOI: 10.1139/er-2016-0046
关键词
biofilm; biostatic nanoparticle-based coatings; antimicrobial; disinfection
资金
- National Natural Science Foundation of China [41373141, 21107099]
- One Hundred Talents Program of Chinese Academy of Sciences [63]
- Foundation from Guangdong Science and Technology Department [2013B030800001]
- China Bureau of Foreign Experts Affairs [49]
- CAS Adjunct Professorship [2013T1G0038, GJHS2014090100463583]
- Shenzhen Science, Technology and Innovation Commission [JCYJ20140509174140691, JCYJ20140417113430641, JCYJ20140417113430732, JSKF20150831171545604, JSGG20150602143328010]
- 1000 Talent Plan for High-Level Foreign Experts
Microbial adhesion to surfaces and the consequent biofilm formation under various environmental conditions is a common ecological phenomenon. Although biofilms play crucial beneficial roles in many processes, they can also cause serious problems for food, biomedical, environmental, and industrial sectors, leading to higher costs of production and equipment maintenance, and negative public health and environmental impacts. Biofilms are difficult to eradicate due to their resistance to conventional antimicrobial applications. Consequently, attention has been devoted to new emerging nanomaterials for their remarkable antimicrobial function. Understanding the inactivation mechanisms is the key to increase the efficiency of nano-particles (NPs) and enhance the feasibility of their application against various microorganisms under different environments. In this paper, we review the activities of NPs as antimicrobial agents. We also discuss the mechanisms and factors contributing to antimicrobial properties of NPs. In addition, we describe some of the approaches employing NPs as effective antimicrobial agent, and associated challenges and problems in developing NPs as effective antibiofilm agents.
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