版块导航: 正在加载中...

登录注册

应《网络安全法》要求，自2017年10月1日起，未进行实名认证将不得使用互联网跟帖服务。为保障您的帐号能够正常使用，请尽快对帐号进行手机号验证，感谢您的理解与支持！

24小时热门版块排行榜

返回列表

【奖励】本帖被评价8次，作者mossback增加金币 6 个

当前主题已经存档。

当前只显示满足指定条件的回帖，点击这里查看本话题的所有回帖

mossback

木虫 (小有名气)

应助: 0 (幼儿园)
金币: 2907.4
帖子: 171
在线: 117.5小时
虫号: 431763

[资源] 非常全面的而且是最新的纳米材料Raman表征综述两篇！

下载已更新！小弟第一次发资源，希望大家支持！

Expanding generality of surface-enhanced Raman spectroscopy with
borrowing SERS activity strategy
Zhong-Qun Tian,* Bin Ren,* Jian-Feng Li and Zhi-Lin Yang
Xiamen University

Chem. Commun., 2007, 3514–3534

ABSTRACT
Surface-enhanced Raman scattering (SERS) was discovered three decades ago and has gone
through a tortuous pathway to develop into a powerful diagnostic technique. Recently, the lack of
substrate, surface and molecular generalities of SERS has been circumvented to a large extent by
devising and utilizing various nanostructures by many groups including ours. This article aims to
present our recent approaches of utilizing the borrowing SERS activity strategy mainly through
constructing two types of nanostructures. The first nanostructure is chemically synthesized Au
nanoparticles coated with ultra-thin shells (ca. one to ten atomic layers) of various transition
metals, e.g., Pt, Pd, Ni and Co, respectively. Boosted by the long-range effect of the enhanced
electromagnetic (EM) field generated by the highly SERS-active Au core, the originally low
surface enhancement of the transition metal can be substantially improved giving total
enhancement factors up to 104–105. It allows us to obtain the Raman spectra of surface water,
having small Raman cross-section, on several transition metals for the first time. To expand the
surface generality of SERS, tip-enhanced Raman spectroscopy (TERS) has been employed. With
TERS, a nanogap can be formed controllably between an atomically flat metal surface and the tip
with an optimized shape, within which the enhanced EM field from the tip can be coupled
(borrowed) effectively. Therefore, one can obtain surface Raman signals (TERS signals) from
adsorbed species at Au(110), Au(111) and, more importantly, Pt(110) surfaces. The enhancement
factor achieved on these single crystal surfaces can be up to 106, especially with a very high spatial
resolution down to about 14 nm. To fully accomplish the borrowing strategy from different
nanostructures and to explain the experimental observations, a three-dimensional finite-difference
time-domain method was used to calculate and evaluate the local EM field on the core–shell
nanoparticle surfaces and the TERS tips. Finally, prospects and further developments of this
valuable strategy are briefly discussed with emphasis on the emerging experimental methodologies.

下载连接：
http://www.divshare.com/download/2860029-690

Raman Spectroscopy of nanomaterials: How spectra relate to disorder, particle size and mechanical properties
Gwe´nae¨l Gouadec*, Philippe Colomban
Laboratoire de Dynamique, Interactions et Re´activite´ (LADIR),
UMR7075 e CNRS & Universite´ Pierre et Marie Curie e Paris 6,
2 rue Henry Dunant, 94320 Thiais, France

Progress in Crystal Growth and Characterization of Materials xx (2007) 1e56

Abstract
The purpose of this review is to provide non-specialists with a basic understanding of the information
micro-Raman Spectroscopy (mRS) may yield when this characterization tool is applied to nanomaterials,
a generic term for describing nano-sized crystals and bulk homogeneous materials with a structural disorder
at the nanoscale e typically nanoceramics, nanocomposites, glassy materials and relaxor ferroelectrics.
The selected materials include advanced and ancient ceramics, semiconductors and polymers
developed in the form of dots, wires, films, fibres or composites for applications in the energy, electronic
and aeronauticseaerospace industries. The text is divided into five sections:
Section 1 is a general introduction.
Section 2 outlines the principles of conventional mRS.
Section 3 introduces the main effects for nanomaterials, with special emphasis on two models that
connect Raman spectra features to ‘‘grain size’’, namely the Phonon Confinement Model (PCM)
and the Elastic Sphere Model (ESM).
Section 4 presents the experimental versatility of mRS applied to nanomaterials (phase identification,
phase transition monitoring, grain size determination, defect concentration assessment,
etc.).

下载连接：
http://www.divshare.com/download/2860030-182

[ Last edited by mossback on 2007-11-26 at 05:02 ]

回复此楼

» 猜你喜欢

济南大学国家优青课题组 2026 调剂招生来啦已经有0人回复
武汉纺织大学_化学院官方调剂群-院士团队招生-学生自由度高发展好-欢迎各位同学已经有0人回复
无机化学论文润色/翻译怎么收费? 已经有160人回复
西华大学化学调剂有名额已经有0人回复
上海应用技术大学招生调剂研究生已经有7人回复
南京晓庄学院绿色能源材料团队招生已经有0人回复
南京晓庄学院绿色能源材料团队招生已经有0人回复

» 本主题相关商家推荐: (我也要在这里推广)

1楼 2007-11-22 22:20:14

已阅回复此楼关注TA 给TA发消息送TA红花 TA的回帖

dahaoren

木虫 (著名写手)

应助: 0 (幼儿园)
金币: 6716.3
帖子: 1081
在线: 112.9小时
虫号: 251386

Raman　spectroscopy of nanomaterials !!
useful

赞一下

回复此楼

5楼2007-11-23 14:32:31

已阅回复此楼关注TA 给TA发消息送TA红花 TA的回帖

查看全部 18 个回答

zhouweichang

木虫 (正式写手)

应助: 0 (幼儿园)
金币: 2894.1
帖子: 999
在线: 224.6小时
虫号: 416059

好东西，谢谢共享

回复此楼

2楼2007-11-23 08:51:35

已阅回复此楼关注TA 给TA发消息送TA红花 TA的回帖

kamida

至尊木虫 (著名写手)

应助: 3 (幼儿园)
金币: 18883.2
帖子: 2029
在线: 239.4小时
虫号: 203546

谢谢楼主分享

不过好像91files在清理数据或者服务器在调整，我昨天传的三个文件找不到了，你这个好像也是

[ Last edited by kamida on 2007-11-23 at 08:58 ]

赞一下

回复此楼

3楼2007-11-23 08:56:07

已阅回复此楼关注TA 给TA发消息送TA红花 TA的回帖

yutian1224

木虫 (正式写手)

应助: 49 (小学生)
金币: 1668.2
帖子: 933
在线: 1211.7小时
虫号: 405034

楼主，好像你这个也下不了啊！
想麻烦你发到我的邮箱，好吗？
lu33209208@163.com
谢谢了

赞一下

回复此楼

4楼2007-11-23 12:22:54

已阅回复此楼关注TA 给TA发消息送TA红花 TA的回帖

查看全部 18 个回答

☆ 无星级 ★ 一星级 ★★★ 三星级 ★★★★★ 五星级

普通表情龙兔虎猫高级回复 (可上传附件)

最具人气热帖推荐 [查看全部]		作者	回/看	最后发表

[考研] 293调剂 +23	yj1221 2026-04-08	24/1200	2026-04-09 23:26 by may_新宇
[考研] 298求调剂 +3	钉叮咚冬瓜 2026-04-09	3/150	2026-04-09 23:14 by ditto77778
[考研] 初试分332，一志愿报考西北工业大学， +11	故人?? 2026-04-09	11/550	2026-04-09 21:54 by JineShine
[考研] 286求调剂 +6	草木不言 2026-04-04	6/300	2026-04-09 21:06 by 286640313
[考研] 296求调剂 +11	汪！？！ 2026-04-08	11/550	2026-04-09 19:30 by 小小树2024
[考研] 070300化学学硕311分求调剂 +18	梁富贵险中求 2026-04-04	20/1000	2026-04-09 11:18 by 哒哒哒呱呱呱
[考研] 材料调剂 +14	一样YWY 2026-04-06	14/700	2026-04-08 23:00 by 猪会飞
[考研] 材料334求调剂 +21	Eecho# 2026-04-03	21/1050	2026-04-08 22:55 by 猪会飞
[考研] 生物学308分求调剂（一志愿华东师大）做过分子实验 +6	相信必会光芒万� 2026-04-07	7/350	2026-04-08 16:49 by tjzhao
[考研] 273求调剂 +41	麦小叮当 2026-04-06	48/2400	2026-04-08 15:16 by screening
[论文投稿] Decision: Revise for Editor还会送审吗 100+3	CccccccccFD 2026-04-04	5/250	2026-04-07 10:58 by 北京莱茵润色
[考研] 285求调剂 +5	mapmath 2026-04-06	6/300	2026-04-06 17:18 by 蓝云思雨
[考研] 一志愿武汉理工大学080200机械工程308分，求调剂 +4	终不似从前 2026-04-05	4/200	2026-04-06 11:46 by 考研学校招点人
[考研] 296求调剂 +3	汪！？！ 2026-04-05	4/200	2026-04-05 20:13 by 啵啵啵0119
[考研] 0854求调剂 +4	assdll 2026-04-03	4/200	2026-04-04 22:17 by hemengdong
[考研] 283求调剂 +4	mcbbc 2026-04-03	5/250	2026-04-04 20:51 by imissbao
[考研] 求生物学专业调剂-332分 +5	云朵遛弯指南 2026-04-04	5/250	2026-04-04 10:05 by rzh123456
[考研] 考研调剂 +3	15615482637 2026-04-03	3/150	2026-04-03 22:50 by ms629
[考研] 考研调剂 +5	小sun要好运 2026-04-03	5/250	2026-04-03 21:43 by 啵啵啵0119
[考研] 372分材料与化工（085600）一志愿湖南大学求调剂 +3	蓝笺片 2026-04-03	4/200	2026-04-03 17:58 by Jimmyandyou