Controllable Synthesis of Ag Nanocubes via a Polyol Method 被引量：1

Controllable Synthesis of Ag Nanocubes via a Polyol Method

下载PDF

导出

摘要 The controllable synthesis of uniform silver nanocubes with high purity is pivotal for the fundamental study of self-assembly and further research on the hollow nanostructures,gold nanocages for instance.Here,Ag nanocubes of different sizes were synthesized by an improved polyol method.With addition of HCl solution,Ag nanocubes with size about 100 nm were obtained under an air atmosphere.And Ag nanocubes with size around50 nm can be produced in a short time under Argon atmosphere with the presence of NaHS instead of HCl.Meanwhile,uniform Ag nanocubes with size larger than 100 nm were also synthesized successfully via adjusting experiment parameters.Results of transmission electron microscopy(TEM)combined with selected area electron diffraction(SAED)show that the Ag nanocubes are single crystalline with six(200)surface plane.In the UV-Vis-NIR optical absorption spectrum,the diple moment resonance absorption peak is changed in the range of 420—500nm with the increase of Ag nanocubes size. The controllable synthesis of uniform silver nanocubes with high purity is pivotal for the fundamental study of selLassembly and further research on the hollow nanostructures, gold nanoeages for instance. Here, Ag nanocubes of different sizes were synthesized by an improved polyol method. With addition of HCI solution, Ag nanocubes with size about 100 nm were obtained under an air atmosphere. And Ag nanocubes with size around 50 nm can be produced in a short time under Argon atmosphere with the presence of Naris instead of HCh Mean- while, uniform Ag nanocubes with size larger than 100 nm were also synthesized successfully via adjusting experiment parameters. Results of transmission electron microscopy （TEM） combined with selected area electron dif fraction （SAED） show that the Ag nanocubes are single crystalline with six （200） surface plane. In the UV-Vis- NIR optical absorption spectrum, the diple moment resonance absorption peak is changed in the range of 420 500 nm with the increase of Ag nanocubes size.

作者 Xu Wei Kan Caixia Ni Yuan Ke Junhua

机构地区 College of Science

出处《Transactions of Nanjing University of Aeronautics and Astronautics》 EI CSCD 2017年第4期388-392,共5页 南京航空航天大学学报（英文版）

基金 supported by the National Natural Science the Foundations of China(Nos.11774171,11374159) the Fundamental Research Funds for the Central Universities(Nos.NJ20160105,NZ2015101) sponsored by Qing Lan Project of Jiangsu Province

关键词 Ag nanocubes polyol method UV-Vis-NIR spectrum Ag nanocubes polyol method UV Vis-NIR spectrum

分类号 O469 [理学—凝聚态物理]

引文网络
相关文献

参考文献2

1洪敏,朱进,尹汉东.纳米材料应用于DNA检测领域的研究进展[J].分析化学,2011,39(1):146-154. 被引量：6
2Yugang SUN,Changhua AN.Shaped gold and silver nanoparticles[J].Frontiers of Materials Science,2011,5(1):1-24. 被引量：2

二级参考文献76

1Stromberg M, Torre T Z G, Goransson J, Gunnarsson K, Nilsson M, Svedlinh P, Stromme M. Anal. Chem. , 2009, 81(9): 3398-3406.
2Peng H, Zhang L J, Kjallman T H M, Soeller C, Travas Sejdic J. J. Am. Chem. Soc. , 2007, 129(11).. 3048- 3049.
3Thompson D G, Enright A, Faulds K, Smith E W, Graham D. Anal. Chem. , 2008, 80(8) .. 2805-2810.
4Hong M, ZhouX, Tian Y, ZhuJ. Angew. Chem. Int. Ed., 2009, 48(50): 9503-9506.
5ZhaoW, Brook M A, LiY F. Bio. Chem. , 2008, 9(15): 2363-2371.
6GhoshSK, PalT. Chem. Rev. , 2007, 107(11), 4797-4867.
7Lee J, UlmannP A, Han M, MirkinC A. NanoLett., 2008, 8(2): 529-533.
8Saiki R K, Scharf S, Faloona F, Mullis K B, Horn G T, Erlich H A, Arnheim N. Science, 1985, 230.. 1350-1354.
9Elghanian R, Storhoff J J, Mucic R C,Letsinger R L, Mirkin C A. Science, 1997, 277:1078-1081.
10Drexhage K H. Sci. Am. , 1970, 222:108-118.

共引文献6

1吴波,柴家建.DNA检测平台数据预处理关键方法研究[J].医学信息（医学与计算机应用）,2014,0(25):6-6.
2余航,丁夕然,白帆,李美成.形貌可控银纳米粒子制备及其在太阳能电池中的应用[J].中国科技论文,2012,7(2):135-141. 被引量：7
3陈琰,刘桂锋,刘霞,张桂珍,王振新.应用微阵列芯片检测与2型糖尿病相关的单核苷酸多态性[J].高等学校化学学报,2013,34(5):1078-1083. 被引量：5
4刘传青,向玲娟,黄娟,陈孝平.硅基质膜吸附柱对质粒DNA再吸附能力的研究[J].化学与生物工程,2014,31(3):53-56. 被引量：2
5张苏琳,蔡江波,吴莉,吴郦媛.纳米材料在体外诊断分析领域的应用[J].中国医疗器械杂志,2014,38(2):118-121. 被引量：3
6刘亚倩,刘克勤,高娇娜,操小栋,叶永康.电化学DNA传感器制备及用于花椰菜花叶病毒35S启动子快速检测[J].安徽农业科学,2018,46(17):183-186.

同被引文献2

1He Linjiang,Su Honghua,Xu Jiuhua,Zhang Liang,Bai Bing.Experiment on Machinability of Ti2AlNb Intermetallic Alloy[J].Transactions of Nanjing University of Aeronautics and Astronautics,2017,34(5):487-495. 被引量：4
2Haiying Xu,Caixia Kan,Changzong Miao,Changshun Wang,Jingjing Wei,Yuan Ni,Beibei Lu,Daning Shi.Synthesis of high-purity silver nanorods with tunable plasmonic properties and sensor behavior[J].Photonics Research,2017,5(1):27-32. 被引量：4

引证文献1

1XU Haiying,NI Yuan,MIAO Changzong,KAN Caixia,SHI Daning.Cold Welding of Au Nanostructures at Room Temperature[J].Transactions of Nanjing University of Aeronautics and Astronautics,2021,38(3):492-500.

1ZHAO Hui DIAO Quanping YU Haifeng LI Tiechun LIAO Peiqiu HOU Dongyan.FeCl3-6H2O-Catalyzed Synthesis of β-Ketothioesters from Chain α-Oxo Ketene Dithioactals[J].Chemical Research in Chinese Universities,2017,33(5):746-752. 被引量：1
2LIU Can,OUYANG Kunbing,YANG Nianfa.Synthesis of a Newly Modified Poly-H8-BINOL Ligand and Its Applications in the Asymmetric Addition of Triethylalumininm to Aromatic Aldehydes[J].Chemical Research in Chinese Universities,2017,33(5):742-745.
3QU Yingmin,YANG Hao,WANG Songlin,CHEN Tong,WANG Gongying.High Selectivity to Diphenyl Carbonate Synthesized via Transesterification Between Dimethyl Carbonate and Phenol with C60-doped TiO2[J].Chemical Research in Chinese Universities,2017,33(5):804-810. 被引量：1
4Da-Wei Ding,Jie Yah,Nian Wang,Dong Liang.Adaptive Synchronization of Fractional Order Complex-Variable Dynamical Networks via Pinning Control[J].Communications in Theoretical Physics,2017,67(9):366-374. 被引量：1
5XU Lin,ZOU Zhiming,ZHANG Huanhuan,SHI Tongfei.Swelling Process of Thin Polymer Film Studied via in situ Spectroscopic Ellipsometry[J].Chemical Research in Chinese Universities,2017,33(5):833-838.

Transactions of Nanjing University of Aeronautics and Astronautics

2017年第4期

浏览历史

内容加载中请稍等...