化工进展 ›› 2024, Vol. 43 ›› Issue (9): 5026-5034.DOI: 10.16085/j.issn.1000-6613.2023-1466
• 材料科学与技术 • 上一篇
褚厚娟(), 丁平, 胡清华, 曹适意, 熊涛, 杨松林()
收稿日期:
2023-08-22
修回日期:
2024-02-07
出版日期:
2024-09-15
发布日期:
2024-09-30
通讯作者:
杨松林
作者简介:
褚厚娟(1989—),女,硕士研究生,研究方向为航天器环境控制与生命保障。E-mail:chuhoujuan@163.com。
CHU Houjuan(), DING Ping, HU Qinghua, CAO Shiyi, XIONG Tao, YANG Songlin()
Received:
2023-08-22
Revised:
2024-02-07
Online:
2024-09-15
Published:
2024-09-30
Contact:
YANG Songlin
摘要:
银具有广谱抗菌、低毒无耐药性的特点,是一种可应用于长期载人航天任务水处理系统的优选抗菌剂。本文首先介绍了银的抗菌机理,分别从抗菌剂和载体材料两个角度对载银抗菌材料进行了分类,重点关注载银抗菌材料的缓释性能,并从银离子负载优化、载体材料预处理和负载制备工艺优化三个角度总结了现阶段增强载银抗菌材料缓释性能的途径。结合地面水处理工程中载银抗菌材料的应用实际,现有载银抗菌材料的缓释效果有限,且银离子释放浓度低。基于长期载人航天任务中水处理系统杀菌抑菌的应用工况,要求载银抗菌材料能够实现长效稳定缓慢释放,基材性能稳定且无次生污染物溶出,并可耐受航天发射上行力学要求。如能实现,不仅是对现有空间站洁净水电解加银技术的补充,更对我国长期载人航天任务的多场景抑菌杀菌具有重要应用意义。
中图分类号:
褚厚娟, 丁平, 胡清华, 曹适意, 熊涛, 杨松林. 载银抗菌材料在载人航天水处理任务中的应用前景[J]. 化工进展, 2024, 43(9): 5026-5034.
CHU Houjuan, DING Ping, HU Qinghua, CAO Shiyi, XIONG Tao, YANG Songlin. Overview of the silver-loaded antibacterial material and its potential application in water treatment of manned space flight mission[J]. Chemical Industry and Engineering Progress, 2024, 43(9): 5026-5034.
1 | 齐云霞, 夏伦志, 吴东. 无机纳米抗菌材料在水处理应用中的研究进展[J]. 水处理技术, 2015, 41(8): 21-25. |
QI Yunxia, XIA Lunzhi, WU Dong. Research progress on the application of inorganic nanostructured antibacterial materials in water purification[J]. Technology of Water Treatment, 2015, 41(8): 21-25. | |
2 | 汪山, 程继健, 陈奇. 载银型无机缓释抗菌材料的研究与应用[J]. 中国陶瓷, 2000, 36(2): 7-9. |
WANG Shan, CHENG Jijian, CHEN Qi. The research and applications of the Ag-type delivery inorganic antibacterial agents[J]. China Ceramics, 2000, 36(2): 7-9. | |
3 | 王静, 水中和, 冀志江, 等. 银系无机抗菌材料研究进展[J]. 材料导报, 2013, 27(17): 59-64. |
WANG Jing, SHUI Zhonghe, JI Zhijiang, et al. Research progress of the silver-typed inorganic antibacterial materials[J]. Materials Review, 2013, 27(17): 59-64. | |
4 | 杨青波, 熊明, 王劲草, 等. 载银磷酸盐玻璃的缓释及抗菌性能研究进展[J]. 化学世界, 2021, 62(6): 321-329. |
YANG Qingbo, XIONG Ming, WANG Jincao, et al. Progress in silver-doped phosphate glasses with slow-soluble and antibacterial properties[J]. Chemical World, 2021, 62(6): 321-329. | |
5 | 韦顺文, 李竹英. 载银二氧化钛在防晒霜中的应用研究[J]. 精细与专用化学品, 2011, 19(1): 17-20. |
WEI Shunwen, LI Zhuying. Research on the application of silver-doped titania in the sunscreen cream[J]. Fine and Specialty Chemicals, 2011, 19(1): 17-20. | |
6 | 温昕, 安胜军, 侯志飞, 等. 载银缓释型抗菌敷料[J]. 化学进展, 2009, 21(7/8): 1644-1654. |
WEN Xin, AN Shengjun, HOU Zhifei, et al. Ag-loaded sustained release antimicrobial dressings[J]. Progress in Chemistry, 2009, 21(7/8): 1644-1654. | |
7 | 王开梅, 陈林. 纳米载银无机抗菌材料在口腔修复中的应用研究进展[J]. 牙体牙髓牙周病学杂志, 2018, 28(3): 169-174. |
WANG Kaimei, CHEN Lin. Research progress of nano silver based inorganic antibacterial materials in prosthodontics[J]. Chinese Journal of Conservative Dentistry, 2018, 28(3): 169-174. | |
8 | 罗梦. 纳米二氧化硅载银抗菌涂料制备及其抗菌性和生物安全性研究[D]. 长春: 吉林大学, 2013. |
LUO Meng. The preparation of silver-loaded nano silica coating and the characterization of its antimicrobial activity and biosafety[D]. Changchun: Jilin University, 2013. | |
9 | 王岭. 载银活性炭的研究[J]. 净水技术, 1994, 48(2): 9-14. |
WANG Ling. Research on silver loaded activated carbon[J]. Water Purification Technology, 1994, 48(2): 9-14. | |
10 | 聂长明. 载银煤质颗粒活性炭的水处理研究[J]. 中南工学院学报, 1997, 11(1): 21-25. |
NIE Changming. Studies on water treatment with coal-granular activated carbon loading silver[J]. Journal of Central South Institute of Technology, 1997, 11 (1): 21-25. | |
11 | 杨松林, 丁平, 赵成坚, 等. 中国空间站水回收系统关键技术分析[J]. 航天医学与医学工程, 2013, 26(3): 221-226. |
YANG Songlin, DING Ping, ZHAO Chengjian, et al. Analysis of key techniques for water reclamation system in Chinese space station[J]. Space Medicine & Medical Engineering, 2013, 26(3): 221-226. | |
12 | BRUNA Tamara, Francisca MALDONADO-BRAVO, JARA Paul, et al. Silver nanoparticles and their antibacterial applications[J]. International Journal of Molecular Sciences, 2021, 22(13): 7202. |
13 | Md Amdadul HUQ, ASHRAFUDOULLA Md, Mizanur RAHMAN M, et al. Green synthesis and potential antibacterial applications of bioactive silver nanoparticles: A review[J]. Polymers, 2022, 14(4): 742. |
14 | NAGANTHRAN Ashwini, VERASOUNDARAPANDIAN Gayathiri, KHALID Farah Eryssa, et al. Synthesis, characterization and biomedical application of silver nanoparticles[J]. Materials, 2022, 15(2): 427. |
15 | SHEHABELDINE Amr M, SALEM Salem S, Omar M ALI, et al. Multifunctional silver nanoparticles based on chitosan: Antibacterial, antibiofilm, antifungal, antioxidant, and wound-healing activities[J]. Journal of Fungi, 2022, 8(6): 612. |
16 | KHANE Yasmina, BENOUIS Khedidja, ALBUKHATY Salim, et al. Green synthesis of silver nanoparticles using aqueous Citrus limon zest extract: Characterization and evaluation of their antioxidant and antimicrobial properties[J]. Nanomaterials, 2022, 12(12): 2013. |
17 | ALZUBAIDI Azalldeen Kazal, AL-KAABI Wasan J, Amer AL ALI, et al. Green synthesis and characterization of silver nanoparticles using flaxseed extract and evaluation of their antibacterial and antioxidant activities[J]. Applied Sciences, 2023, 13(4): 2182. |
18 | SINGH Priyanka, MIJAKOVIC Ivan. Antibacterial effect of silver nanoparticles is stronger if the production host and the targeted pathogen are closely related[J]. Biomedicines, 2022, 10(3): 628. |
19 | 王永锋. 载银分子筛的离子交换及抗菌性能研究[D]. 南京: 南京理工大学, 2007. |
WANG Yongfeng. Ion exchange and antibacterial properties of Ag+-zeolites[D]. Nanjing: Nanjing University of Science and Technology, 2007. | |
20 | 杨资. 天然木材的功能化及其在水处理领域的应用研究[D]. 兰州: 兰州大学, 2019. |
YANG Zi. The functionalization of natural wood and its application in water treatment[D]. Lanzhou: Lanzhou University, 2019. | |
21 | 王昕. 载四氧化四银活性炭对饮用水中污染物去除研究[D]. 扬州: 扬州大学, 2010. |
WANG Xin. Carbon-based tetrasilver tetroxide removal of contaminants in drinking water research[D]. Yangzhou: Yangzhou University, 2010. | |
22 | Elaine CLOUTMAN-GREEN, BARBOSA Vera L, JIMENEZ Diego, et al. Controlling Legionella pneumophila in water systems at reduced hot water temperatures with copper and silver ionization[J]. American Journal of Infection Control, 2019, 47(7): 761-766. |
23 | 林海, 马麒钧, 董颖博, 等. 复合离子不同载入顺序抗菌沸石的制备及其抗菌性能研究[J]. 功能材料, 2014, 45(5): 5148-5152. |
LIN Hai, MA Qijun, DONG Yingbo, et al. Preparation of antibacterial zeolite of different silver-zinc adding sequence and study of antibacterial properties[J]. Journal of Functional Materials, 2014, 45(5): 5148-5152. | |
24 | 黄晓飞. 壳聚糖基载银材料的制备及其抗菌性能的研究[D]. 杭州: 浙江大学, 2018. |
HUANG Xiaofei. Chitosan-based silver composite materials for antibacterial applications[[D]. Hangzhou: Zhejiang University, 2018. | |
25 | 王丰艳. 载银聚乙烯醇/羧甲基壳聚糖/海藻酸钠水凝胶伤口敷料的制备及性能表征[D]. 徐州: 中国矿业大学, 2020. |
WANG Fengyan. Preparation and properties of silver-loaded PVA/CMCS/SA composite hydrogel wound dressing[D]. Xuzhou: China University of Mining and Technology, 2020. | |
26 | 邓灿辉. 石墨烯基纳米复合材料的抗菌行为及其机理研究[D]. 长沙: 湖南大学, 2017. |
DENG Canhui. The antibacterial performance and mechanisms of grapheme-based nanocomposites[D]. Changsha: Hunan University, 2017. | |
27 | 王洪水. 纳米银及载银纳米抗菌材料的研究[D]. 武汉: 华中科技大学, 2006. |
WANG Hongshui. Study on nano-silver and silver loaded nano-antimicrobial[D]. Changsha: Huazhong University of Science & Technology, 2006. | |
28 | 卢佳琦. 氧化石墨烯改性超滤膜及其净水效能研究[D]. 哈尔滨: 哈尔滨工程大学, 2016. |
LU Jiaqi. Modification of ultrafiltration membrane with GO and its property for water purification[D]. Harbin: Harbin Engineering University, 2016. | |
29 | 何娟, 苏雪筠. 载银无机抗菌剂及其应用[J]. 广州大学学报(自然科学版), 2004, 3(3): 215-218. |
HE Juan, SU Xueyun. Silver-carrying antibacterial agents and their application[J]. Journal of Guangzhou University (Natural Science Edition), 2004, 3(3): 215-218. | |
30 | 严亚媛. 蒙脱石-石墨烯基抗菌复合材料制备及表征[D]. 广州: 暨南大学, 2019. |
YAN Yayuan. Preparation and characterization of montmorillonite-graphene-based antibacterial composites[D]. Guangzhou: Jinan University, 2019 | |
31 | 张纪民, 宋伟娟, 闫立东, 等. 贫瘦煤制备抗菌活性炭的研究[J]. 洁净煤技术, 2008, 14(5): 27-29. |
ZHANG Jimin, SONG Weijuan, YAN Lidong, et al. Meagre-lean coal preparation antibacterial activated charcoal research[J]. Clean Coal Technology, 2008, 14(5): 27-29. | |
32 | 史杏园. 载银羟基磷灰石粉体和抗菌釉的制备及抗菌性能研究[D]. 武汉: 武汉理工大学, 2017. |
SHI Xingyuan. The preparation and antibacterial property study of silver loaded hydroxyapatite powder and antibacterial glaze[D]. Wuhan: Wuhan University of Technology, 2017. | |
33 | 贺琪. 载银羟基磷灰石体外成骨和抗炎性的实验研究[D]. 上海: 上海交通大学医学院, 2017. |
HE Qi. Osteogenic and anti-inflammatory activity of silver-doped hydroxyapatite [D]. Shanghai: Shanghai Jiao Tong University, 2017 | |
34 | 佘文珺, 张富强, 胡滨, 等. 载银抗菌基托树脂银离子的缓释性研究[J]. 口腔医学, 2007, 27(7): 340-342. |
SHE Wenjun, ZHANG Fuqiang, HU Bin, et al. Study of silver ion released from anti-microbial denture base resin containing silver inorganic agent[J]. Stomatology, 2007, 27(7): 340-342. | |
35 | SALEM Salem S, HASHEM Amr H, SALLAM Al-Aliaa M, et al. Synthesis of silver nanocomposite based on carboxymethyl cellulose: Antibacterial, antifungal and anticancer activities[J]. Polymers, 2022, 14(16): 3352. |
36 | 赵信硕, 邱海燕, 邵依, 等. 银纳米粒子修饰的二维金属-有机框架纳米片用于光热增强银离子释放抗菌[J]. 物理化学学报, 2023, 39(7): 100-109. |
ZHAO Xinshuo, QIU Haiyan, SHAO Yi, et al. Silver nanoparticle-modified 2D MOF nanosheets for photothermally enhanced silver ion release antibacterial treatment[J]. Acta Physico-Chimica Sinica, 2023, 39(7): 100-109. | |
37 | 高向华, 魏丽乔. 聚丙烯抗菌塑料的研制[J]. 山西化工, 2007, 27(6): 9-11. |
GAO Xianghua, WEI Liqiao. Study on preparation of antibacterial polypropylene[J]. Shanxi Chemical Industry, 2007, 27(6): 9-11. | |
38 | 谭绍早. 载银抗菌ABS塑料的研制[J]. 工程塑料应用, 2005, 33(5): 13-17. |
TAN Shaozao. Preparation of ABS antibacterial plastics containing silver[J]. Engineering Plastics Application, 2005, 33(5): 13-17. | |
39 | 蔡伟杰, 李彦生, 骆阳. 载银树脂的制备及水处理中的应用研究[J]. 北方环境, 2004, 29(3): 35-38. |
CAI Weijie, LI Yansheng, LUO Yang. The preparation of silver resin and its application in disposing water[J]. Environmental Science and Management, 2004, 29(3): 35-38. | |
40 | 卢红芳. 载银树脂的制备及抗菌性能研究[D]. 西安: 西安建筑科技大学, 2007. |
LU Hongfang. Research on the preparation and antibacterial activity of silver resin[D]. Xi’an: Xi’an University of Architecture and Technology, 2007. | |
41 | 刘潇, 冯拉俊, 冯慧, 等. 水处理用含银活性炭的制备和表征[J]. 功能材料, 2015, 46(S2): 150-154. |
LIU Xiao, FENG Lajun, FENG Hui, et al. Preparation and characterization of silver activated carbon materials for water treatment[J]. Journal of Functional Materials, 2015, 46(B12): 150-154. | |
42 | 徐光年, 乔学亮, 张文海, 等. 反应温度对蒙脱石载银量及其缓释性能的影响[J]. 应用化学, 2015, 32(4): 453-457. |
XU Guangnian, QIAO Xueliang, ZHANG Wenhai, et al. Influence of reaction temperature on the amount of silver loaded on montmorillonite and its sustained release performance[J]. Chinese Journal of Applied Chemistry, 2015, 32(4): 453-457. | |
43 | 徐光年. 纳米银胶及载银蒙脱石的制备与抗菌性能[D]. 武汉: 华中科技大学, 2009. |
XU Guangnian. Preparation and antibacterial properties of colloidal nano-silver and silver loaded montmorillonite[D]. Wuhan: Huazhong University of Science and Technology, 2009. | |
44 | 侯静雯, 韩璐, 向豪, 等. 碱处理载银NaA分子筛的制备及抗菌性能研究[J]. 化学研究与应用, 2011, 23(3): 261-267. |
HOU Jingwen, HAN Lu, XIANG Hao, et al. Preparation and antibacterial activity of alkali treated Ag-NaA zeolites[J]. Chemical Research and Application, 2011, 23(3): 261-267. | |
45 | 于华芹, 贲韬, 李强, 等. Zn杂化NaA分子筛的合成及其抗菌性能[J]. 硅酸盐学报, 2019, 47(7): 908-915. |
YU Huaqin, Tao BEN, LI Qiang, et al. Synthesis of framework zinc-substituted NaA zeolite and its antibacterial property[J]. Journal of the Chinese Ceramic Society, 2019, 47(7): 908-915. | |
46 | 刘艳. 中空介孔载银二氧化硅微球的制备及其抗菌性能研究[D]. 杭州: 浙江大学, 2013. |
LIU Yan. Preparation of hollow mesoporous silver-loaded silica microspheres and their antibacterial property[D]. Hangzhou: Zhejiang University, 2013. | |
47 | 李玉芳, 王建荣, 张悦, 等. 纳米载银沸石抗菌剂/聚丙烯复合材料研究[J]. 塑料工业, 2012, 40(9): 71-73, 107. |
LI Yufang, WANG Jianrong, ZHANG Yue, et al. Study of Ag-carrying nano-zeolite antibacterial agent/PP composite[J]. China Plastics Industry, 2012, 40(9): 71-73, 107. | |
48 | 李倩. 水处理用负载银、铜型硅藻土基复合抗菌陶瓷的研究[D]. 赣州: 江西理工大学, 2017. |
LI Qian. Research on silver/copper loaded antibacterial ceramic composites used in water treatment[D]. Ganzhou: Jiangxi University of Science and Technology, 2017. | |
49 | 李森, 王清涛, 于华芹, 等. 固相离子交换法制备高效载银分子筛抗菌剂及其抗菌性能[J]. 材料导报, 2018, 32(4): 539-544. |
LI Sen, WANG Qingtao, YU Huaqin, et al. Preparation of highly active Ag-loaded zeolite antimicrobial by solid phase ionic exchange method and its antibacterial properties[J]. Materials Reports, 2018, 32(4): 539-544. | |
50 | 林海, 郭丽丽, 江乐勇. 抗菌吸附材料的制备及其在再生水处理的应用[J]. 北京科技大学学报, 2010, 32(5): 644-649. |
LIN Hai, GUO Lili, JIANG Leyong. Preparation of antibacterial adsorption materials and application in reclaimed water treatment[J]. Journal of University of Science and Technology Beijing, 2010, 32(5): 644-649. | |
51 | 刘云, 王萍, 邹惠仙. 含锂活化沸石-载银活性炭-Cu-Zn合金串联装置水处理效果研究[J]. 环境污染与防治, 2005, 27(2): 131-134. |
LIU Yun, WANG Ping, ZOU Huixian. Study on zoelite containing Li+-granular activated carbon with silver-Cu-Zn alloy water treatment device[J]. Environmental Pollution & Control, 2005, 27(2): 131-134. | |
52 | 焦莉莉, 陈康, 张峰, 等. 控制释放型载银抗菌玻璃性能研究[J]. 净水技术, 2010, 29(3): 44-47. |
JIAO Lili, CHEN Kang, ZHANG Feng, et al. Antibacterial performance of silver-carrying glass with releasing controlled[J]. Water Purification Technology, 2010, 29(3): 44-47. | |
53 | 冯长春, 焦莉莉, 陈康, 等. 环保型控制释放多功能水处理剂的制备及性能[J]. 净水技术, 2011, 30(5): 15-18. |
FENG Changchun, JIAO Lili, CHEN Kang, et al. Preparation and properties of environmental friendly controlled release multifunction water treatment agent[J]. Water Purification Technology, 2011, 30(5): 15-18. | |
54 | 李果. 长效抗菌材料在饮用水净化中的应用技术研究[D]. 成都: 西南交通大学, 2018. |
LI Guo. Long-acting antibacterial material application in drinking water purification technology research[D]. Chengdu: Southwest Jiaotong University, 2018. | |
55 | VANCE John, DELZEIT Lance. Mitigation of silver ion loss from solution by polymer coating of metal surfaces[C]// 49th International Conference on Environmental Systems. America: NASA Technical Reports Server (NTRS), 2019: ICES-2019-125 |
56 | ROGELIO E . Fernandez Garcia, Moller STACEY L., Adam NIKLAS M.. Material compatibility study of coated metals to maintain biocidal silver in a spacecraft potable water system[C]// 52nd International Conference on Environmental Systems. America: NASA Technical Reports Server (NTRS), 2023: ICES-2023- 2. |
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