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化工新型材料  2018, Vol. 46 Issue (8): 20-24    
  综述与专论 本期目录 | 过刊浏览 | 高级检索 |
银纳米材料的应用进展
康维刚, 徐大鹏*, 江恒泽陈建
西安工业大学材料与化工学院,西安710021
Research progress on application of silver nanomaterial
Kang Weigang, Xu Dapeng, Jiang Hengze, Chen Jian
School of Materials and Chemical Engineering,Xi´an Technological University,Xi´an 710021
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摘要 随着纳米技术的发展,银纳米材料独特的电学、光学、热学、催化及弹性等性能,使其在表面增强拉曼光谱、透明导电薄膜、催化剂、传感器及抗菌杀菌领域展现出广阔的应用前景。立足于近年来国内外银纳米材料的研究现状和热点问题,重点论述了银纳米材料的应用进展,指出了银纳米材料应用中面临的问题并对其未来的发展趋势进行了展望。
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Kang Weigang
Xu Dapeng
Jiang Hengze
Chen Jian
关键词:  银纳米材料  表面增强拉曼光谱  透明导电薄膜  催化剂  传感器  抗菌杀菌    
Abstract: With the development of nanotechnology,silver nanomaterials have been widely applied in surface enhanced Raman spectroscopy,transparent conductive films,catalysis,sensor and antibacterial fields because of their unique electrical,optical,thermal,catalytic and elastic properties.Based on recent research status and hot issues of silver nanomaterials at home and abroad,research progress on application of silver nanomaterials were reviewed.At the same time,the problems and developing trends in the future of silver nanomaterials in application were prospected.
Key words:  silver nanomaterial    surface enhanced Raman spectroscopy    transparent conductive film    catalyst    sensor    antibacterial material
收稿日期:  2018-01-18                     发布日期:  2018-09-18      期的出版日期:  2018-08-20
基金资助: 国家自然科学基金(11504284);陕西省教育厅专项科研计划项目(16JK1377)
通讯作者:  徐大鹏(1981-),男,博士后,主要研究方向为纳米功能材料和表面腐蚀与防护。   
作者简介:  康维刚(1994-),男,硕士研究生,主要研究方向为银纳米材料的应用。
引用本文:    
康维刚, 徐大鹏, 江恒泽陈建. 银纳米材料的应用进展[J]. 化工新型材料, 2018, 46(8): 20-24.
Kang Weigang, Xu Dapeng, Jiang Hengze, Chen Jian. Research progress on application of silver nanomaterial. New Chemical Materials, 2018, 46(8): 20-24.
链接本文:  
http://www.hgxx.org/CN/  或          http://www.hgxx.org/CN/Y2018/V46/I8/20
[1] Jana N R,Gearheart L,Murphy C J.Wet chemical synthesis of silver nanorods and nanowiresof controllable aspect ratio[J].Chemical Communications,2001,2001(7):617-618.
[2] Wei G D,Nan C W,Yu D P.Large-scale self-assembled Ag nanotubes[J].Tsinghua Science & Technology,2005,10(6):736-740.
[3] An J,Tang Bin,Ning Xiaohua,et al.Photoinduced shape evolution:from triangular to hexagonal silver nanoplates[J].Journal of Physical Chemistry C,2009,111(49):18055-18059.
[4] Cao Z,Fu H,Kang L,et al.Rapid room-temperature synthesis of silver nanoplates with tunable in-plane surface plasmon resonance from visible to near-IR[J].Journal of Materials Chemistry,2008,18(23):2673-2678.
[5] Chen S,Zhiyong Fan A,Carroll D L.Silver nanodisks:synthesis,characterization,and self-assembly[J].Mrs Proceedings,2002,740(42):10777-10781.
[6] Khaydarov R A,Khaydarov R R,Gapurova O,et al.Electrochemical method for the synthesis of silver nanoparticles[J].Journal of Nanoparticle Research,2009,11(5):1193-1200.
[7] Wang X K,Shao L,Guo W L,et al.Synthesis of dendritic silver nanostructures by means of ultrasonic irradiation[J].Ultrasonics Sonochemistry,2009,16(6):747-51.
[8] Nie S M,Emory S R.Probing single molecules and single nanoparticles by surface-enhanced Raman scattering[J].Science,1997,275(5303):1102-1106.
[9] Otto A.What is observed in single molecule SERS,and why?[J].Journal of Raman Spectroscopy,2002,33(8):593-598.
[10] Li R,Yang J,Han J,et al.Quantitative determination of melamine in milk using Ag nanoparticle monolayer film as SERS substrate[J].Physica E:Low-dimensional Systems and Nanostructures,2017,88:164-168.
[11] 赵蕊池,王培龙,石雷,等.自组装有序纳米银线表面增强拉曼光谱检测牛奶中三聚氰胺[J].分析化学,2017,45(1):75-82.
[12] Zhang L,Wang B,Zhu G,et al.Synthesis of silver nanowires as a SERS substrate for the detection of pesticide thiram[J].Spectrochimica Acta Part A Molecular & Biomolecular Spectroscopy,2014,133(5):411-416.
[13] Xu D P,Dong Z M,Sun J L.Fabrication of high performance surface enhanced Raman scattering substrates by a solid-state ionics method[J].Nanotechnology,2012,23(12):125705.
[14] Li Y,Cui P,Wang L,et al.Highly bendable,conductive,and transparent film by an enhanced adhesion of silver nanowires[J].Applied Materials & Interfaces,2013,5(18):9155-9160.
[15] Madaria A R,Kumar A,Ishikawa F N,et al.Uniform,highly conductive,and patterned transparent films of a percolating silver nanowire network on rigid and flexible substrates using a dry transfer technique[J].Nano Research,2010,3(8):564-573.
[16] Ryu S,Lee P,Chou J B,et al.Extremely elastic wearable carbon nanotube fiber strain sensor for monitoring of human motion[J].Acs Nano,2015,9(6):5929.
[17] Lee S,Yeo J S,Ji Y,et al.Flexible organic solar cells composed of P3HT∶PCBM using chemically doped graphene electrodes[J].Nanotechnology,2012,23(34):344013.
[18] Gonzalez-Garcia L,Maurer J H M,Reiser B,et al.Ultrathin gold nanowires for transparent electronics:breaking barriers[J].Procedia Engineering,2016,141:152-156.
[19] Wang R,Ruan H.Synthesis of copper nanowires and its application to flexible transparent electrode[J].Journal of Alloys & Compounds,2016,656:936-943.
[20] Lee S H,Lim S,Kim H.Smooth-surface silver nanowire electrode with high conductivity and transparency on functional layer coated flexible film[J].Thin Solid Films,2015,589(1):403-407.
[21] 钱小立,张欢,王文韬,等.银纳米线柔性透明导电薄膜的可控制备和光、电性能[J].功能材料,2017,48(2):2107-2111.
[22] De S,Higgins T M,Lyons P E,et al.Silver nanowire networks as flexible,transparent,conducting films:extremely high DC to optical conductivity ratios[J].Acs Nano,2009,3(7):1767-1774.
[23] Bergin S M,Chen Y H,Rathmell A R,et al.The effect of nanowire length and diameter on the properties of transparent,conducting nanowire films[J].Nanoscale,2012,4(6):1996-2004.
[24] Lin J Y,Hsueh Y L,Huang J J,et al.Effect of silver nitrate concentration of silver nanowires synthesized using a polyol method and their application as transparent conductive films[J].Thin Solid Films,2015,584(4):243-247.
[25] Hu L,Han S K,Lee J Y,et al.Scalable coating and properties of transparent,flexible,silver nanowire electrodes[J].Acs Nano,2010,4(5):2955.
[26] Chen Y,Lan W,Wang J,et al.Highly flexible,transparent,conductive and antibacterial films made of spin-coated silver nanowires and a protective ZnO layer[J].Physica E:Low-dimensional Systems and Nanostructures,2016,76:88-94.
[27] Kwak W J,Jung H G,Lee S H,et al.Silver nanowires as catalytic cathodes for stabilizing lithium-oxygen batteries[J].Journal of Power Sources,2016,311(3):49-56.
[28] Xu M,Yang F,Yuan Y,et al.Stacking faults enriched silver nanowires:facile synthesis,catalysis and SERS investigations[J].Journal of Colloid & Interface Science,2013,407(10):60-66.
[29] 梁殊,陈爱华.FTO基银纳米线电极的制备及电催化氧化甲醛的性能研究[J].航空学报,2014,35(10):2841-2849.
[30] Shao M H,Sasaki K,Adzic R R.Pd-Fe nanoparticles as electrocatalysts for oxygen reduction[J].Journal of the American Chemical Society,2006,128(11):3526-3527.
[31] 倪昆,吕功煊.银纳米线的制备及电催化还原氧性能研究[J].分子催化,2011,25(2):138-146.
[32] 胡永利,彭程.银纳米材料的形貌可控制备及电催化氧还原性能[J].稀有金属材料与工程,2015,44(5):1197-1202.
[33] Kim D G,Kim J,Jung S B,et al.Electrically and mechanically enhanced Ag nanowires-colorless polyimide composite electrode for flexible capacitive sensor[J].Applied Surface Science,2016,380:223-228.
[34] 朱嘉麟,孙家林,张建红,等.基于宏观长度银纳米线异质结构的光电流传感器:中国,CN101026224[P].2007-08-29.
[35] Wang L,Gao X,Jin L,et al.Amperometric glucose biosensor based on silver nanowires and glucose oxidase[J].Sensors & Actuators B Chemical,2013,176(1):9-14.
[36] Yang X C,Lu Y,Wang M T,et al.A photonic crystal fiber glucose sensor filled with silver nanowires[J].Optics Communications,2016,359:279-284.
[37] Quan Y,Wei X,Xiao L,et al.Highly sensitive and stable flexible pressure sensors with micro-structured electrodes[J].Journal of Alloys & Compounds,2017,699:824-831.
[38] Amjadi M,Pichitpajongkit A,Lee S,et al.Highly stretchable and sensitive strain sensor based on silver nanowire-elastomer nanocomposite[J].Acs Nano,2014,8(5):5154-5163.
[39] Hu W,Niu X,Zhao R,et al.Elastomeric transparent capacitive sensors based on an interpenetrating composite of silver nanowires and polyurethane[J].Applied Physics Letters,2013,102(8):1438-1487.
[40] Kurowska E,Brzózka A,Jarosz M,et al.Silver nanowire array sensor for sensitive and rapid detection of H2O2[J].Electrochimica Acta,2013,104(8):439-447.
[41] Wang J,Jiu J,Nogi M,et al.A highly sensitive and flexible pressure sensor with electrodes and elastomeric interlayer containing silver nanowires[J].Nanoscale,2015,7(7):2926-2932.
[42] Wei Y,Chen S,Lin Y,et al.Silver nanowires coated on cotton for flexible pressure sensors[J].Journal of Materials Chemistry C,2016,4(5):935-943.
[43] Rira Jung,Yeseul Kim,HunSik Kim,et al.Antimicrobial properties of hydrated cellulose membranes with silver nanoparticles[J].Journal of Biomaterials Science Polymer Edition,2009,20(3):311-324.
[44] Wani I A,Khatoon S,Ganguly A,et al.Structural characterization and antimicrobial properties of silver nanoparticles prepared by inverse microemulsion method[J].Colloids & Surfaces B Biointerfaces,2013,101(1):243-250.
[45] Shrivastava S,Bera T,Roy A,et al.Characterization of enhanced antibacterial effects of novel silver nanoparticles[J].Nanotechnology,2007,18(22):225103.
[46] Hu R L,Li S R,Kong F J,et al.Inhibition effect of silver nanoparticles on herpes simplex virus 2[J].Genetics & Molecular Research,2014,13(3):7022-7028.
[47] Jiang T,Feng L,Wang Y.Effect of alginate/nano-Ag coating on microbial and physicochemical characteristics of shiitake mushroom (Lentinus edodes) during cold storage[J].Food Chemistry,2013,141(2):954-960.
[48] Zhang H,Smith J A,Oyanedel-Craver V.The effect of natural water conditions on the anti-bacterial performance and stability of silver nanoparticles capped with different polymers[J].Water Research,2012,46(3):691-699.
[49] Ramar M,Manikandan B,Marimuthu P N,et al.Synthesis of silver nanoparticles using Solanum trilobatum fruits extract and its antibacterial,cytotoxic activity against human breast cancer cell line MCF 7[J].Spectrochimica Acta Part A Molecular & Biomolecular Spectroscopy,2015,140(16):223-228.
[50] Venkatesham M,Ayodhya D,Madhusudhan A,et al.A novel green one-step synthesis of silver nanoparticles using chitosan:catalytic activity and antimicrobial studies[J].Applied Nanoscience,2014,4(1):113-119.
[51] Feng Q L,Wu J,Chen G Q,et al.A mechanistic study of the antibacterial effect of silver ions on Escherichia coli and staphylococcus aureus[J].Journal of Biomedical Materials Research,2000,52(4):662-668.
[52] Kim S,Ryu D Y.Silver nanoparticle-induced oxidative stress,genotoxicity and apoptosis in cultured cells and animal tissues[J].Journal of Applied Toxicology,2013,33(2):78-89.
[53] Jin J C,Xu Z Q,Dong P,et al.One-step synthesis of silver nanoparticles using carbon dots as reducing and stabilizing agents and their antibacterial mechanisms[J].Carbon,2015,94:129-141.
[54] Schoen D T,Schoen A P,Hu L,et al.High speed water sterilization using one-dimensional nanostructures[J].Nano Letters,2010,10(9):3628-3632.
[55] 熊旭华,胡勇有,洪学森,等.纳米银对水中大肠杆菌的杀菌性能研究[J].工业用水与废水,2014,45(3):39-43.
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