A new preparation method of gold nanoparticles by intra-reduction of sodium gold(Ⅰ) sulfite 被引量：1

A new preparation method of gold nanoparticles by intra-reduction of sodium gold(Ⅰ)sulfite

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摘要 In this study, well-dispersed gold nanoparticles were prepared by using intra-molecular reduction of sodium gold sulfite, without using additional reductants and chloride free. The technical parameters including transformation temperature, pH, and concentration were optimized by the single-factor method as 90 C, pH 1, and 0.01 mmol/L [Na3Au（SO3）2], respectively. The resultant colloidal transmission electron microscopy images （TEM） and UV-vis absorption spectrophotometer spectra were acquired to check their properties, and the results show this kind of colloidal gold is controlled to 6 nm in sizes and has good stability in solution. In this study, well-dispersed gold nanoparticles were prepared by using intra-molecular reduction of sodium gold sulfite, without using additional reductants and chloride free. The technical parameters including transformation temperature, pH, and concentration were optimized by the single-factor method as 90 C, pH 1, and 0.01 mmol/L [Na3Au（SO3）2], respectively. The resultant colloidal transmission electron microscopy images （TEM） and UV-vis absorption spectrophotometer spectra were acquired to check their properties, and the results show this kind of colloidal gold is controlled to 6 nm in sizes and has good stability in solution.

作者 Wu-Yang Nie Le Li De-Liang Li Xi Liu

机构地区 Central South University of Forest and Technology University of Florida

出处《Chinese Chemical Letters》 SCIE CAS CSCD 2014年第2期380-382,共3页 中国化学快报（英文版）

基金 financially supported by the National Natural Science Foundation of China(No.20976201) the Graduate's Scientific Research Foundation of Central South University of Forestry and Technology(No.CX2012B04)

关键词 Colloidal gold Sodium gold（I） sulfite Intra-reduction Colloidal gold Sodium gold（I） sulfite Intra-reduction

分类号 TQ131.23 [化学工程—无机化工] TB383.1 [一般工业技术—材料科学与工程]

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参考文献3

1吴赣红,李德良,董坤,曹璟.一种无氰化学镀金工艺的研究[J].表面技术,2008,37(3):52-54. 被引量：17
2Gang Qiang Wan,Dong Xiang Li,Chun Fang Li,Jie Xu,Wan Guo Hou.From Zn-Al layered double hydroxide to ZnO nanostructure:Gradually etching by sodium hydroxide[J].Chinese Chemical Letters,2012,23(12):1415-1418. 被引量：4
3Jing Xu,Qing-Dao Zeng.Construction of two-dimensional(2D) H-bonded supramolecular nanostructures studied by STM[J].Chinese Chemical Letters,2013,24(3):177-182. 被引量：7

二级参考文献32

1ZENG QingDao,WANG Chen.Construction of tunable supramolecular networks studied by scanning tunneling microscopy[J].Science China Chemistry,2010,53(2):310-317. 被引量：4
2方景礼.印制板的表面终饰工艺系列讲座第五讲印制板化学镀镍/置换镀金新工艺[J].电镀与涂饰,2004,23(4):34-39. 被引量：9
3迟兰洲,胡文成,陈瑞生.无氰化学镀金镀速及稳定性的研究[J].表面技术,1994,23(1):12-15. 被引量：7
4胡文成,迟兰洲.印制电路板全板镀金新工艺[J].电子科技大学学报,1995,24(6):658-661. 被引量：1
5赵可清,胡平,汪必琴,余文浩,陈红梅,王新玲,清水洋.Synthesis of Mixed Tail Triphenylene Discotic Liquid Crystals： Molecular Symmetry and Oxygen-Atom Effect on the Stabilization of Columnar Mesophases[J].Chinese Journal of Chemistry,2007,25(3):375-381. 被引量：7
6S. Xu, Z.L. Wang, Nano Res. 4 (2011) 1013. 被引量：1
7N. Wang, Y. Yang, G. Yang, Nanoscale Res. Lett. 6 (2011) 338. 被引量：1
8S. Liu, C. Li, J. Yu, Q. Xiang, Cryst.Eng.Comm 13 (2011) 2533. 被引量：1
9M.F. Calhoun, J. Sanchez, D. Olaya, et al. Nat. Mater. 7 (2008) 84. 被引量：1
10C.R. Gorla, N.W. Emanetoglu, S. Liang, et al. J. Appl. Phys. 85 (1999) 2595. 被引量：1

共引文献25

1李冰,李宁,谢金平,王恒义,王群,高帅.一种无氰置换镀金技术的研究[J].印制电路信息,2012(S1):443-448.
2苏新虹,邓银,张胜涛,何为.柠檬酸金钾无氰沉金厚度控制研究[J].印制电路信息,2011(S1):166-169. 被引量：3
3董明琪,李德良,徐天野,刘静,董振华.一种新的PCB无氰化学沉金工艺[J].表面技术,2011,40(1):104-106. 被引量：7
4陈静,胡文成,杜凯,张运娟,张淑洋,张林.纳米多孔金薄膜显微结构分析[J].强激光与粒子束,2011,23(5):1264-1266. 被引量：1
5刘东光,胡江华.细间距图形电路无氰化学镀金工艺研究[J].电子与封装,2013,13(5):31-33. 被引量：5
6刘东光,胡江华.图形电路化学镍金镀层品质缺陷与分析[J].中国电子科学研究院学报,2013,8(5):470-473. 被引量：1
7Li-E.Dong,Guo-Jing Gou,Xue-Qin Jin,Min Zhang.Synthesis pretreatment and characterization of a magnetic layered double hydroxides fluorescent probe[J].Chinese Chemical Letters,2014,25(6):923-928. 被引量：1
8亢若谷,畅玢,曹梅,龙晋明,朱晓云.亚硫酸钾配位剂及工艺参数对电镀金层热反射率及其他性能的影响[J].材料保护,2014,47(9):1-4. 被引量：1
9冯能清,李德良,刘玺,盛国军,张闯.新型金配合物——NH_4[Au(MA)_2]·H_2O的合成、性质及镀金应用[J].材料保护,2014,47(12):1-3.
10黄世玉,李德良,JA Finch,盛国军,李乐.半胱氨酸亚金铵的合成、理化性质及电镀金应用[J].中南大学学报（自然科学版）,2015,46(4):1197-1201.

同被引文献10

1CHARLIE C D,WALLACE C H,DIXON D S,et al.Optical and electrical effects of gold nanoparticles in the active layer of polymer solar cells[J].Journal of Materials Chemistry,2012,22(3):1206-1211. 被引量：1
2TONG L,WEI Q,WEI A,et al.Gold nanorods as contrast agents for biological imaging:optical properties,surface conjugation and photothermal effects[J].Photochemistry and Photobiology,2009,85(1):21-32. 被引量：1
3BOISSELIER E,ASTRUC D.Gold nanoparticles in nanomedicine:preparations,imaging,diagnostics,therapies and toxicity[J].Chemical Society Reviews,2009,38(6):1759-1782. 被引量：1
4CHEN L,HU J,QI Z,et al.Gold nanoparticles intercalated into the walls of mesoporous silica as a versatile redox catalyst[J].Industrial and Engineering Chemistry Research,2011,50(24):13642-13649. 被引量：1
5GONCALVES G,MARQUES P A A P,GRANADEIRO C M,et al.Surface modification of graphene nanosheets with gold nanoparticles:the role of oxygen moieties at graphene surface on gold nucleation and growth[J].Chemistry of materials,2009,21(20):4796-4802. 被引量：1
6HUANG T,MENG F,QI L.Controlled synthesis of dendritic gold nanostructures assisted by supra molecular complexes of surfactant with cyclodextrin[J].Langmuir,2009,26(10):7582-7589. 被引量：1
7RAI A,PRABHUNE A,PERRY C C.Antibiotic mediated synthesis of gold nanoparticles with potent antimicrobial activity and their application in antimicrobial coatings[J].Journal of Materials Chemistry,2010,20(32):6789-6798. 被引量：1
8SANKAR K.S,SANJEEV K,VENUGOPAL S.Roomtemperature synthesis of gold nanoparticles—size-control by slow addition[J].Gold Bulletin,2010,43(4):273-286. 被引量：1
9王慧娟,薛晨阳,袁艳玲.金纳米颗粒制备及其光学特性研究[J].传感技术学报,2011,24(1):14-17. 被引量：13
10彭剑淳,刘晓达,丁晓萍,付占江,王全立.可见光光谱法评价胶体金粒径及分布[J].军事医学科学院院刊,2000,24(3):212-212. 被引量：36

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1盛国军,李德良,冯能清,黄世玉.水合肼法制备金纳米粒子的工艺条件[J].微纳电子技术,2014,51(11):737-742. 被引量：3

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1曹颖,李家萌,赵媛,杨毅梅.纳米金标记技术应用于病原生物检测的研究[J].中国病原生物学杂志,2016,11(3):272-275. 被引量：6
2黄磊,卢忠柏,董春法.聚乙烯醇包覆银纳米粒子的可控制备与表征[J].微纳电子技术,2020,57(11):899-904. 被引量：2
3黄磊,卢忠柏,付锐平,董春法,无.小粒径金纳米粒子的可控制备与表征[J].塑料工业,2020,48(10):103-107. 被引量：2

1张鸟飞,许小丽,穆卫华,陈雯,梁晓燕.食品中亚硫酸盐测量不确定度的评定[J].计量与测试技术,2013,40(9):64-65. 被引量：1
2Songyuan Yao.Research on the High-Strength Coating Preparation Methodology based on Acid Catalytic and Sol-Gel Method[J].International Journal of Technology Management,2015(10):126-128.
3ZHU Zhichi,HUANG Zhenhua and HE Zhen(Tsinghun University. Beijing 100084).A numerical study of noise reduction in ducts with flow by anti-sound[J].Chinese Journal of Acoustics,1994,13(2):108-120.
4邢晓坤,崔从忠.防银渣剂在高反差负性影像冲洗加工中的应用[J].影像技术,2001,13(2):17-19.
5马滔,马小媛,王周平.金纳米颗粒在食品抗氧化能力评价中的检测应用[J].江苏农业科学,2015,43(4):282-285.
6沉积条件对单晶和多晶金纳米线制备的控制[J].中国基础科学,2006,8(3):63-63.
7宋连卿,林钰,朱伯仲,辛荣生.硒代蛋氨酸的合成研究[J].郑州粮食学院学报,1999,20(4):62-64. 被引量：6
8D.C Intra Co.:the 1st Integrated Luxury Brands Store in China[J].China Textile,2014(9):55-55.
9Yan GUO.Research on Preparation Method of Static Head Space for Volatile Organic Compounds in Drinking Water[J].Agricultural Science & Technology,2015,16(4):836-839. 被引量：3
10陈金毅,海婷婷,李念,李宛怡,李晶,朱亮,孙家寿.钙基累托石/Cu_2O纳米复合材料的制备及其影响因素研究[J].材料导报,2011,25(2):104-106.

Chinese Chemical Letters

2014年第2期

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