Page 106 - 《精细化工》2021年第1期

P. 106

·96· 精细化工 FINE CHEMICALS 第 38 卷

层被压缩，从而导致纳米银溶液的稳定性降低。综 Surface science insight[J]. Nano Today, 2015, 10(3): 339-354.
[3] CARROUEL F, VIENNOT S, OTTOLENGHI L, et al. Nanoparticles
合 UV-Vis 光谱和动态光散射结果，偏酸性时纳米银 as anti-microbial, anti-inflammatory, and remineralizing agents in
oral care cosmetics: A review of the current situation[J]. Nanomaterials,
溶液在储存过程中具有更好的稳定性。 2020, 10(1): 140.
[4] ENESCU D, CERQUEIRA M A, FUCINOS P, et al. Recent
advances and challenges on applications of nanotechnology in food
packaging. A literature review[J]. Food and Chemical Toxicology,
2019, 134: 110814.
[5] YUAN L, RICHARDSON C, HO M, et al. Stress responses of
aquatic plants to silver nanoparticles[J]. Environmental Science &
Technology, 2018, 52(5): 58-65.
[6] YANG W T, LI H, GONG Y, et al. Preparation of silver nanoparticles
of enhanced antibacterial effect with benzalkonium bromide[J]. Journal
of Optoelectronics and Advanced Materials, 2011, 13: 661-665.
[7] XIA Y (夏燕), CHEN W Y (陈武勇), ZOU Y K (邹永康). The anti-
microbial property of bovine hide sleeping mat leather[J]. Leather
Science and Engineering (皮革科学与工程), 2012, 22(2): 55-58.
[8] TANG Q Y (唐秋月), YANG Y (杨阳), ZHANG J W (张金伟), et
al. Application of nano silver composite antibacterial agent in shoe
lining leather[J]. China Leather (中国皮革), 2014, 43(11): 11-13, 18.
[9] WANG Y (王瑶), CHEN Y (陈昱), ZHANG J W (张金伟), et al.
Application of nano silver composite antibacterial agent in synthetic
leather[J]. Leather Science and Engineering (皮革科学与工程),
2017, 27(2): 11-15.
[10] YANG W T, WANG X, GONG Y, et al. Preparation of antibacterial
sheepskin with silver nanoparticles, potential use as a mattress for
pressure ulcer prevention[J]. Journal of the American Leather
Chemists Association, 2012, 107: 85-92.
[11] ZHANG J W (张金伟), WU J C (吴佳城), WANG Y (王瑜), et al.
Technology of the antibacterial sheep fur[J]. Leather Science and
Engineering (皮革科学与工程), 2013, 23(5): 24-29.
[12] JOSE M, DHAS S A M B, DAISY A D, et al. Synthesis and
characterization of nano spheres decorated silver bromide nanorods
using a two-step chemical reduction route[J]. Optik International
Journal for Light & Electron Optics, 2016, 127(19): 8019-8023.
[13] CHAKRABORTY M, HSIAO F W, NASKA R B, et al. Surfactant-

assisted synthesis and characterization of stable silver bromide
a—Zeta 电位；b—粒径 nanoparticles in aqueous media[J]. Langmuir, 2012, 28(25): 7282-7290.
[14] LIU W, WU Y, WANG C, et al. Impact of silver nanoparticles on
图 7 不同 pH 纳米银溶液储存不同时间后的 Zeta 电位和 human cells: Effect of particle size[J]. Nanotoxicology, 2010, 4(3):
319-330.
粒径变化 [15] MAO D (毛迪), DU Y (杜宇), ZHAO T T (赵婷婷), et al. Study on
Fig. 7 Zeta-potential and particle size change of nano-sliver antibacterial activity of nano-silver antibacterial materials prepared
solution with different pH for various storage time by astragalus[J]. Acta Academiae Medicinae Weifang (潍坊医学院
学报), 2019, 41(4): 247-250.
[16] PINTO V V, FERREIRA M J, SILVA R, et al. Long time effect on
3 结论 the stability of silver nanoparticles in aqueous medium: Effect of the
synthesis and storage conditions[J]. Colloids and Surfaces
A-Physicochemical and Engineering Aspects, 2010, 364(1/2/3): 19-25.
通过研究温度、紫外光辐照和溶液 pH 等环境 [17] WANG Y (王瑜), WANG Y (王瑶), CHEN W Y (陈武勇).
Antibacterial properties of different size of nano-silver to mold[J].
因素对纳米银溶液稳定性的影响，可以得出以下结 Leather Science and Engineering (皮革科学与工程), 2015, 25(2):
9-11, 17.
论：（1）较高的环境温度会破坏纳米银体系的稳定
[18] WANG Y (王瑶), WANG Y (王瑜), CHENG Y (程昱), et al.
性，随着储存时间的延长，高温对纳米银稳定性的 Antibacterial properties of different sizes of nano-sliver to
bacteria[J]. China Leather (中国皮革), 2016, 45(5): 1-4.
影响更显著，因此，较低的环境温度更有利于纳米 [19] LIU W, ZHOU Q F, LIU J Y, et al. Environmental and biological
influences on the stability of silver nanoparticles[J]. Chinese Science
银溶液的储存；（2）紫外光辐照对纳米银体系的稳 Bulletin, 2011, 56(19): 2009-2015.
定性具有负面效应，辐照时间越长负面效应越明显， [20] WEI X X (魏欣欣), LI M C (李明春), MA S D (马守栋). Study on
stability of nano silver solution[J]. Chinese Journal of Hospital
因此纳米银溶液在储存时应采取避光措施；（3）提 Pharmacy (中国医院药学杂志), 2016, 36(16): 1355-1358.
[21] LI X M (李秀明), LI J Y (李金阳), LIU X L (刘新兰). Stability of
高纳米银溶液 pH 对其稳定性不利，降低纳米银溶 nano silver particles and the influence on surface-enhanced Raman
spectroscopic detection[J]. Chinese Journal of Pharmaceutical
液 pH 则有利于其在储存过程中保持稳定，因此适 Analysis (药物分析杂志), 2013, 33(6): 1048-1053.
度酸化有助于保持纳米银溶液在储存过程中的稳定 [22] XIA Z H (夏朝辉), LYU L Y (吕丽云), WANG H (王虹). Stability
study of nano-silver particles dispersed in various solvents by
性。总之，在纳米银溶液生产时适度酸化、包装采 turbiscan lab optical analyzer[J]. Spectroscopy and Spectral Analysis
(光谱学与光谱分析), 2015, 35(7): 1992-1996.
用不透光容器、运输和储存过程中尽量降低环境温 [23] FAN L (樊丽), LIU P T (刘鹏涛), LIU X L (刘新亮). Preparation and
characterization of silver-loaded nanocrystalline cellulose[J]. Transactions
度，可增加纳米银溶液的稳定性，延长产品有效期。 of China Pulp and Paper (中国造纸学报), 2019, 34(2): 8-13.
[24] ANUJ S A, GAJERA H P, HIRPARA D G, et al. The impact of
参考文献： bacterial size on their survival in the presence of cationic particles of
nano-silver[J]. Journal of Trace Elements in Medicine and Biology,
[1] LIN J H (林家洪), SONG T L (宋天龙), LIU Y L (刘永龙), et al. 2020, 61: 126517.
Preparation of modified silica/silver nanoparticles and its antibacterial [25] ZENG C (曾诚), LIU X (刘星), XIE Q Y (谢琴妍), et al. Preparation
properties[J]. Industrial Microbiology (工业微生物), 2018, 45(8): 19-23. of nanosilver sol by UV irradiation reduction[J]. Journal of Functional
[2] OUAY B L, STELLACCI F. Antibacterial activity of silver nanoparticles: Materials and Devices (功能材料与器件学报), 2019, 25(3): 207-213.

101 102 103 104 105 106 107 108 109 110 111