期刊文献+

银纳米树的选择性沉积及其催化性质 被引量:3

Selective Deposition of Silver Dendritic Structures and Its Catalytic Property
下载PDF
导出
摘要 纳米银由于体积小、比表面积大及物理和化学性能独特而受到广泛关注[1,2].研究结果表明,纳米银的光学、电学和催化活性与粒子的粒径、形貌和结构之间存在强烈的依赖关系[3]. The fabrication of different silver nanostructures is important for their applications.Herein,silver dendritic nanostructures were electroless deposited on the top of silicon pyramids created by anisotropic etch in KOH solution.The formation mechanism of silver dendritic nanostructures was clarified based on the investigation with scanning electronic microscopy(SEM).The results show that silver dendritic structures can be used for catalytic reduction of 4-nitroaniline and this structures might be used for the micro-functional devices in the future.
出处 《高等学校化学学报》 SCIE EI CAS CSCD 北大核心 2010年第12期2319-2321,共3页 Chemical Journal of Chinese Universities
基金 国家自然科学基金(批准号:20773052)资助
关键词 银纳米树 选择性无电沉积 催化性质 Silver dendritic nanostructure Selective electroless deposition Catalytic property
  • 相关文献

参考文献10

  • 1HUANG Chun-Yu(黄春玉).QI Dian-Peng(齐殿鹏),MA Ren-Ping(马任平),BU Feng-Quan(卜凤泉),L Nan(吕男)[J].高等学校化学学报,2010,31(7):1288-1290.
  • 2Wang S.M.,Leung C.W.,Chan P.K.L..Appl.Phys.Lett.[J],2010,97:023511-1-023511-3.
  • 3Premal P.,Raju R..Biotechnol.Bioprocess Eng.[J],2009,14:842-847.
  • 4LI Yan-Cai(李艳彩).SONG Yan-Tao(宋延涛),ZHOU Ji(周吉),SUN Chang-Qing(孙长青)[J].高等学校化学学报,2007,28(8):1454-1457.
  • 5Diez I.,Hahn H.,Ikkala O.,Brner H.G.,Ras R.H.A..Soft Matter[J],2010,6:3160-3162.
  • 6Zhou Y.,Yu S.H.,Wang C.Y.,Li X.G.,Zhu Y.R.,Chen Z.Y..Adv.Matter[J],1999,11:850-852.
  • 7LIAO Xue-Hong(廖学红).ZHAO Xiao-Ning(赵小宁),ZHU Jun-Jie(朱俊杰),CHEN Hong-Yuan(陈洪渊)[J].高等学校化学学报,2000,21(10):1837-1839.
  • 8Fan L.,Guo R..Crystal Growth & Design[J],2008,8:2151-2154.
  • 9Witten Jr.T.A.,Sander L.M..Phys.Rev.Lett.[J],1981,47:1400-1403.
  • 10Meakin P..Phys.Rev.Lett.[J],1983,51:1119-1122.

同被引文献46

  • 1施建珍,方靖淮,沐仁旺,李雅丽.金核银壳纳米粒子薄膜的制备及SERS活性研究[J].物理化学学报,2006,22(2):135-140. 被引量:12
  • 2Lee C. , Bae S. Y. , Mobasser S. , Manohara H.. Nano Lett. [J], 2005, 5:2438-2442.
  • 3Lee Y. J., Ruby D. S., PetersD. W., McKenzieB. B., HsuJ. W. P.. NanoLett.[J], 2008, 8:1501-1505.
  • 4XiJ. Q. , SchubertM. F., KimJ. K., SchubertE. F., ChenM. F., LinS. Y., LiuW., SmartJ. A.. Nat. Photonics[J],2007, 1 : 176-179.
  • 5Wu Z. Z. , Walish J. , Nohe A. , Zhai L. , Cohen R. E. , Rubner M. F.. Adv. Mater. [J], 2006, 18:2699-2702.
  • 6Bernhard C. G.. Endeavour[J], 1967, 26:79-84.
  • 7Kanamori Y. , Sasaki M. , Hane K.. Opt. Lett. [J], 1999, 24:1422-1424.
  • 8Kanamori Y. , Roy E. , Chen Y.. Microelectron. Eng. [J], 2005, 78/79:287-293.
  • 9Aydin C. , Zaslavsky A. , Sonek G. J. , Goldstein J.. Appl. Phys. Lett. [J], 2002, 80:2242-2244.
  • 10YuZ. N., GaoH., WuW., GeH. X., ChouS. Y.. J. Vac. Sci. Technol. B[J], 2003, 21:2874-2877.

引证文献3

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部