Ag nanoparticle-ZnO nanowire hybrid nanostructures as enhanced and robust antimicrobial textiles via a green chemical approach

Zhou Li; Haoying Tang; Weiwei Yuan; Wei Song; Yongshan Niu; Ling Yan; Min Yu; Ming Dai; Siyu Feng; Menghang Wang; Tengjiao Liu; Peng Jiang; Yubo Fan; Zhong Lin Wang

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Ag nanoparticle-ZnO nanowire hybrid nanostructures as enhanced and robust antimicrobial textiles via a green chemical approach

机译：Ag纳米颗粒-ZnO纳米线杂化纳米结构，通过绿色化学方法增强且坚固耐用

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A new approach for fabrication of a long-term and recoverable antimicrobial nanostructure/textile hybrid without increasing the antimicrobial resistance is demonstrated. Using in situ synthesized Ag nanoparticles (NPs) anchored on ZnO nanowires (NWs) grown on textiles by a 'dip-in and light-irradiation' green chemical method, we obtained ZnONW@AgNP nanocomposites with small-size and uniform Ag NPs, which have shown superior performance for antibacterial applications. These new Ag/ZnO/textile antimicrobial composites can be used for wound dressings and medical textiles for topical and prophylactic antibacterial treatments, point-of-use water treatment to improve the cleanliness of water and antimicrobial air filters to prevent bioaerosols accumulating in ventilation, heating, and air-conditioning systems.

机译：证明了在不增加抗微生物能力的情况下，可长期，可回收地制造抗菌纳米结构/纺织杂物的新方法。使用通过“浸入和光辐照”绿色化学方法锚定在纺织品上生长的ZnO纳米线（NWs）上的原位合成Ag纳米颗粒（NPs），我们获得了具有小尺寸且均匀的Ag NPs的ZnONW @ AgNP纳米复合材料。在抗菌应用中显示出卓越的性能。这些新型的Ag / ZnO /纺织品抗菌复合材料可用于伤口敷料和医用纺织品，以进行局部和预防性的抗菌处理，使用点水处理以改善水的清洁度以及使用抗菌空气过滤器以防止生物气溶胶在通风，暖气中积聚，以及空调系统。

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《Nanotechnology》 |2014年第14期|共8页
作者
Zhou Li; Haoying Tang; Weiwei Yuan; Wei Song; Yongshan Niu; Ling Yan; Min Yu; Ming Dai; Siyu Feng; Menghang Wang; Tengjiao Liu; Peng Jiang; Yubo Fan; Zhong Lin Wang;
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正文语种 eng
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silver nanoparticles; ZnO nanowires; antibacterial activity; biocompatibility; antibacterial textiles;

机译：银纳米颗粒;ZnO纳米线;抗菌活性;生物相容性;抗菌纺织品;

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专利

1. Ag nanoparticle-ZnO nanowire hybrid nanostructures as enhanced and robust antimicrobial textiles via a green chemical approach [J] . Zhou Li, Haoying Tang, Weiwei Yuan, Nanotechnology . 2014,第14期

机译：Ag纳米颗粒-ZnO纳米线杂化纳米结构，通过绿色化学方法增强且坚固耐用
2. Nanostructured silver nanowires-graphene hybrids for enhanced electrochemical detection of hydrogen peroxide [J] . Zhang Mei, Wang Zuankai Applied Physics Letters . 2013,第21期

机译：纳米结构化的银纳米线-石墨烯杂化物，用于增强电化学检测过氧化氢
3. Nanostructured silver nanowires-graphene hybrids for enhanced electrochemical detection of hydrogen peroxide [J] . Mei Zhang, Zuankai Wang Applied Physics Letters . 2013,第21期

机译：纳米结构化的银纳米线-石墨烯杂化物，用于增强电化学检测过氧化氢
4. Comparison of Physico-Chemical and Antimicrobial Properties of Surface Treated Textile Materials with Silver, Copper and Bismuth Compounds [C] . Stojan Djokic, Nada Djokic, Thomas Thundat Symposium on surface Treatments for Biomedical Applications 3 . 2013

机译：用银，铜和铋化合物表面处理纺织材料的物理化学和抗微生物性能的比较
5. Solid-state Synthesis of Silver Nanowires by Green Chemistry and Mechanistic Aspects Influencing Nanowire Growth & Plasmonic Study in Au Thin Film/MoS2 Heterostructures for Surface Enhanced Raman Spectroscopy [D] . Chevva, Harish. 2019

机译：绿色化学和机械方面的固态合成银纳米线，影响纳米胎生长和等离子体研究的Au薄膜/ MOS2表面增强拉曼光谱法
6. Enhanced photocatalytic activity of Ag–ZnO hybrid plasmonic nanostructures prepared by a facile wet chemical method [O] . Sini Kuriakose, Vandana Choudhary, Biswarup Satpati, 2014

机译：简便湿化学法制备的Ag-ZnO杂化等离子体纳米结构的光催化活性增强
7. Sensors: Superabsorbing Metasurfaces with Hybrid Ag-Au Nanostructures for Surface-Enhanced Raman Spectroscopy Sensing of Drugs and Chemicals (Small Methods 7/2018) [O] . Jun Gao, Nan Zhang, Dengxin Ji, 2018

机译：传感器：具有杂交Ag-Au纳米结构的超吸收元件，用于表面增强的拉曼光谱感测药和化学品（小方法7/2018）

Ag nanoparticle-ZnO nanowire hybrid nanostructures as enhanced and robust antimicrobial textiles via a green chemical approach

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