家用电器纳米抗菌材料

doi:10.19784/j.cnki.issn1672-0172.2021.02.006

摘要/Abstract

摘要： 家用电器已经成为越来越多家庭中不可或缺的生活品,同时由于电器使用过程中细菌滋生导致的健康问题越来越受到人们的关注,因此,家用电器的抗菌效果成为了大众评判健康生活的指标之一。而纳米材料由于其成本低廉并拥有较好的抗菌效果,可以作为解决这一问题的途径之一。对家电行业已经初步应用的三种成本低、无需附加苛刻条件、抗菌效果好的纳米材料进行分析并研究,指出开发更加优异的纳米抗菌材料是当前抗菌行业的热点。

关键词: 纳米材料, 抗菌, 家用电器, 抗菌材料

Abstract: Household appliances have become an indispensable living product in more and more families. At the same time, people are paying more and more attention to the health problems caused by the growth of bacteria during the use of appliances. Therefore, the antibacterial effect of household appliances has become one of the indicators of public judgment. Because of its low cost and good antibacterial effect, nanomaterials can be used as one of the ways to solve this problem. Analyzes and studies three kinds of nanomaterials which have been preliminarily applied in home appliance industry with low cost, no additional harsh conditions and good antibacterial effect, and points out that the development of more excellent nanomaterials is the hot spot in the current antibacterial industry.

Key words: Nanomaterials, Antibacterial, Household appliances, Antibacterial materials

中图分类号:

陈吞, 沈剑, 杨乐庭, 黄勇, 张辉. 家用电器纳米抗菌材料[J]. 家电科技, 2021, 0(2): 55-57.

CHEN Tun, SHEN Jian, YANG Leting, HUANG Yong, ZHANG Hui. Nano antibacterial materials for household appliances[J]. Journal of Appliance Science & Technology, 2021, 0(2): 55-57.

参考文献

[1] 鲁建国. 提高家电抗菌、除菌能力推进健康中国建设[J]. 家电科技, 2018 (07): 2.
[2] 曲依萌, 杨陈伊, 董成林, 等. 不同存放条件的保鲜膜预防冰箱冷藏食物细菌污染的效果比较[J]. 食品安全质量检测学报, 2018, 9(24): 201-204.
[3] Nath S, Shyanti R K, Pathak B.Plant-Mediated Synthesis of Silver and Gold Nanoparticles for Antibacterial and Anticancer Applications[M]. Green Nanoparticles, 2020.
[4] Chen Q Y, Xiao S L, Shi S Q, et al.A One-Pot Synthesis and Characterization of Antibacterial Silver Nanoparticle-Cellulose Film[J]. Polymers, 2020, 12(02).
[5] Sun S, Yin F, Liu Y, et al.Deformation-induced dissolution of copper precipitation in 1.5wt% Cu-bearing antibacterial Fe-17wt%Cr alloy during plastic deformation process[J]. Materials & Design, 2018, 157(11): 469-477.
[6] Ramirez D, Jaramillo F.Improved mechanical and antibacterial properties of thermoplastic polyurethanes by efficient double functionalization of silver nanoparticles[J]. Journal of Applied Polymer Science, 2018: 46180.
[7] 孙振玲, 刘俊龙. Research Progress on Preparation and Application of Antibacterial Plastic%抗菌塑料的制备及应用研究进展[J]. 塑料科技, 2007, 35(10): 102-107.
[8] 郭洋洋, 唐晓宁, 张彬, 等. 抗菌塑料的研究进展[J]. 塑料工业, 2018(08): 8-13.
[9] 曹军, 吴建东, 沈锋明. 洗衣机用抗菌聚丙烯专用料的研制[J]. 石油化工技术与经济, 2009(01): 52-55.
[10] Wang Y, Yang Y, Shi Y, et al.Antibiotic‐Free Antibacterial Strategies Enabled by Nanomaterials: Progress and Perspectives[J]. Advanced Materials, 2020, 32.
[11] Yamamoto, Minehide, Nakamura, et al. Theoretical Explanation of the Lotus Effect: Superhydrophobic Property Changes by Removal of Nanostructures from the Surface of a Lotus Leaf[J]. Langmuir the Acs Journal of Surfaces & Colloids, 2015.
[12] Haiyan Yu, Junqi Liu, Xiaowei Fan, et al.Bionic micro-nano-bump-structures with a good self-cleaning property: The growth of ZnO nanoarrays modified by polystyrene spheres[J]. Materials Chemistry and Physics, 2015, 170: 52-61.
[13] Watson G S, Green D W, Schwarzkopf L, et al.A gecko skin micro/nano structure - A low adhesion, superhydrophobic, anti-wetting, self-cleaning, biocompatible, antibacterial surface[J]. Acta Biomaterialia, 2015, 21: 109-122.
[14] 童慧芬. 锐铁矿型二氧化钛的晶面调控及其复合材料光催化性能研究[D]. 湖北: 湖北大学, 2018.
[15] Foster H A, Ditta I B, Varghese S, et al.Photocatalytic disinfection using titanium dioxide: spectrum and mechanism of antimicrobial activity[J]. Applied Microbiology and Biotechnology, 2011, 90(6): 1847-1868.
[16] Liou J W, Chang H H.Bactericidal Effects and Mechanisms of Visible Light-Responsive Titanium Dioxide Photocatalysts on Pathogenic Bacteria[J]. Archivum Immunologiae et Therapiae Experimentalis, 2012, 60(04): 267-275.
[17] 王昱征. Zn、Zn/Ce、Zn/Y及B掺杂TiO₂纳米材料的抗菌性能及抗菌陶瓷的制备[D]. 东北: 东北大学, 2015.
[18] Sabetrasekh R, Tiainen H, Lyngstadaas S P, et al.A Novel Ultra-porous Titanium Dioxide Ceramic with Excellent Biocompatibility[J]. Journal of Biomaterials Applications, 2011, 25(6): 559-580.
[19] Sun H, Wu H, Jin Y, et al.Photocatalytic titanium dioxide immobilized on an ultraviolet emitting ceramic substrate for water purification[J]. Materials Letters, 2019, 240(APR.1): 100-102.