Monodisperse, Micrometer-Scale, Highly Crystalline, Nanotextured Ag Dendrites: Rapid, Large-Scale, Wet-Chemical Synthesis and Their Application as SERS Substrates
Wang L ; Li HL ; Tian JQ ; Sun XP
刊名acs applied materials & interfaces
2010
卷号2期号:11页码:2987-2991
关键词ENHANCED RAMAN-SCATTERING SILVER NANOPARTICLES ROOM-TEMPERATURE SURFACE NANOSTRUCTURES SPECTROSCOPY AU NANORODS GROWTH
ISSN号1944-8244
通讯作者sun xp
中文摘要in this letter we report on our interesting finding that the direct mixing of aqueous agno3 and nh2oh solutions at room temperature leads to rapid, high-yield production of monodisperse, micrometer scale, highly crystalline, nanotextured ag dendrites. the surface enhanced raman scattering (sers) effect of these ag dendrites was evaluated by using 4-aminothiophenol (p-atp) as the raman probe and the results demonstrate that they exhibit strong sers effects.
收录类别SCI收录期刊论文
语种英语
WOS记录号WOS:000284454400006
公开日期2012-04-25
内容类型期刊论文
源URL[http://ir.ciac.jl.cn/handle/322003/43280]  
专题长春应用化学研究所_长春应用化学研究所知识产出_期刊论文
推荐引用方式
GB/T 7714
Wang L,Li HL,Tian JQ,et al. Monodisperse, Micrometer-Scale, Highly Crystalline, Nanotextured Ag Dendrites: Rapid, Large-Scale, Wet-Chemical Synthesis and Their Application as SERS Substrates[J]. acs applied materials & interfaces,2010,2(11):2987-2991.
APA Wang L,Li HL,Tian JQ,&Sun XP.(2010).Monodisperse, Micrometer-Scale, Highly Crystalline, Nanotextured Ag Dendrites: Rapid, Large-Scale, Wet-Chemical Synthesis and Their Application as SERS Substrates.acs applied materials & interfaces,2(11),2987-2991.
MLA Wang L,et al."Monodisperse, Micrometer-Scale, Highly Crystalline, Nanotextured Ag Dendrites: Rapid, Large-Scale, Wet-Chemical Synthesis and Their Application as SERS Substrates".acs applied materials & interfaces 2.11(2010):2987-2991.
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