结晶紫在混合正、负电性银胶上的表面增强拉曼散射

利用化学还原的方法分别制备了具有正、负电性的纳米银胶 ,通过测定结晶紫分子在正、负电性银胶以及混合银胶体系的表面增强拉曼光谱的变化 ,探讨了不同电性银胶基底对结晶紫分子表面增强拉曼活性的影响。结果表明 ,混合银胶体系能有效的改进单银胶体系的表面增强拉曼活性。     

结晶紫在银溶胶表面SERS增强因子的计算

通过硝酸银和柠檬酸钠的还原反应制备了纳米银溶胶,利用UV-Vis吸收光谱,ξ电势,透射电镜(TEM)对制备的银溶胶进行了表征.以结晶紫分子作为探针,研究了结晶紫在银溶胶粒子表面吸附的特点,并利用结晶紫的吸附等温线计算出表面增强拉曼(SERS)增强因子.实验结果表明在不加聚沉剂的条件下,银溶胶仍然具有较高的SERS活性.     

银胶溶液pH值对结晶紫的表面增强拉曼光谱增强效果的影响

通过NaBH4还原AgNO3制得银溶胶, 分析了结晶紫溶液表面增强拉曼光谱随银胶溶液pH值减小而逐渐减弱的机理。其原因是当加入酸改变银胶溶液pH值时, 在静电力作用下H+聚集在粗糙且存在偶电层(Ag+─负吸附质)的银胶表面, 使胶体中存在的表面等离子体共振吸附态的光吸收源随着H+浓度的增加逐渐减弱。并且H+与结晶紫的竞争作用又使结晶紫与银颗粒之间的吸附数量减少, 最终使结晶紫SERS强度随着pH值减小而逐渐减弱。我们测得银胶溶液的紫外──可见吸收光谱吸收峰强度随着pH值减小而逐渐减弱, 证明了分析的正确性。     

氯离子对结晶紫-银胶-HOPG体系近红外表面增强拉曼散射增强作用的研究

利用银胶纳米颗粒与高取向性热解石墨(HOPG)制备表面增强基底,采用近红外激光(1064nm)激发,研究了氯离子对结晶紫(CV)分子近红外表面增强拉曼散射(Near-Infrared SurfaceEnhanced Raman Scattering,NIR-SERS)的影响.结果表明,氯离子对"化学增强"和"物理增强"都有作用.同时利用扫描电镜(SEM)图像间接证明了这一结论.     

结晶紫在纳米磷化镓粉体表面吸附的表面增强拉曼光谱分析

利用Raman光谱对结晶紫(Crystal Violet,CV)在纳米磷化镓(GaP)粉体表面的吸附状态进行了分析.结果表明:与普通拉曼散射谱(Normal Raman Scattering,NRS)相比,结晶紫表面增强拉曼散射(Surface Enhanced Raman Scattering,SERS)谱的4种振动模式,即:中央键的呼吸振动、环-C -环面外弯曲振动、环C-H面外弯曲振动以及N-环伸缩振动,在纳米GaP粉体表面得到增强;通过分析吸附前后结晶紫拉曼散射峰相对强度的变化,确定了结晶紫在纳米GaP粉体表面的吸附取向,并对其表面增强散射机理进行了探讨.     

酸性条件下染料结晶紫分子的近红外表面增强拉曼散射研究

比较了染料分子结晶紫(CV)在酸性与中性条件下的金胶体系中的近红外表面增强拉曼光谱(NIR-SERS)。结果表明,结晶紫分子-金胶体系中结晶紫分子在1064nm近红外光激发条件下,其荧光得以大大淬灭,同时拉曼得到了至少不低于105倍的增强;当进一步加入硝酸使得其处于酸性气氛下时,由于部分结晶紫分子与硝酸发生了化学作用形成了结晶紫分子的单替代衍生物(HCV),而HCV与结晶紫分子相比,更容易吸附在金属表面,因此结晶紫分子NIR-SERS还将有很大的增强。这可以给我们很大的启示:改变体系的酸碱度也可以达到改变其SERS的增强效果的目的。     

二苯基乙二胺在银胶表面吸附的表面增强拉曼光谱研究

以银纳米粒子作为SERS活性基底,研究了二苯基乙二胺(DPEDA)在银表面的吸附行为,并研究了溶液的pH值和DPEDA的浓度对吸附构型的影响。对比DPEDA的Raman和SERS谱图,可以认为DPEDA是通过氮原子的孤对电子吸附在银胶表面。在酸性介质中DPEDA的氨基被质子化生成胺正离子,导致DPEDA不容易吸附到银胶表面,所以DPEDA的SERS信号强度随着溶液酸性的增加而减弱。DPEDA的浓度变化对其吸附构型中芳香环的取向影响不大,但是其C-N键与表面的角度会有一定的变化。从SERS光谱得到的信息可以加深我们对DPEDA修饰的金属催化剂的多相不对称催化机理的认识。     

粗糙银电极上高铁血红素的非共振表面增强拉曼光谱研究

以632.8nm为激发线,研究了高铁血红素的非共振表面增强拉曼光谱。结果表明,高铁血红素的氧化和还原状态的拉曼谱图以B_(1g)振动模式为主;血红素以丙酸侧基直接吸附于电极表面,叶啉环则以垂直于电极表面的形式存在。B_(1g)振动模式v_(15)对血红素中心铁的氧化还原状态十分敏感,被指认为非共振条件下血红素氧化还原状态的特征谱峰。     

银胶和银岛膜上胸腺嘧啶的表面增强拉曼光谱对比研究

利用表面增强拉曼光谱对胸腺嘧啶在银胶和银岛膜上的吸附状态进行了对比研究.光谱分析表明,胸腺嘧啶吸附在银胶和银岛膜表面后其分子结构发生了互变异构,由原来的酮式结构变成了烯醇式结构.在银胶和银岛膜表面胸腺嘧啶主要以N(3)去质子化异构体的形式存在.胸腺嘧啶通过O(7)和N(3)倾斜地吸附在银胶颗粒表面,通过O(8)和N(3...     

单个银纳米聚合体的偶极表面等离子体共振灵敏表面增强拉曼散射(英文)

pacc:5240F,7830Weinvestigatedpolarizationdependencesof surfaceenhancedresonanceRamanscattering(SERRS)andsurfaceplasmonresonance(SPR)toidentifytheSERRSyieldingSPRbands.We alsostudiedSERRSexcitationspectraforsingle Agnano-aggregateswiththeSPRbandstoex plore…     

银片上茜素的表面增强共振喇曼散射效应及模式标识

本文对吸附在经连续的氧化 还原循环(ORC)过程处理的银片衬底上的茜素的表面增强共振喇曼散射(SERRS)特性进行了研究,并对茜素SERRS谱中的振动模式做了标识.结果表明,吸附在经氧化.还原循环(ORC)处理的银片衬底上的茜素分子,其表面增强喇曼散射的强度,主要是由于最靠近银片的一层分子的增强,而第一层以外的分子贡献很小.也就是说,表面增强喇曼散射具有单层饱和效应.茜素在经ORC处理的银片上和在银镜上所显示的SERRS特征基本一致,其中有些振动模式存在小的频移,这与银片、银镜各自的表面特性有关.     

Theoretical study on SERRS of rhodamine 6G adsorbed on Ag2 cluster: chemical mechanism via intermolecular or intramolecular charge transfer

The problem of the chemical enhancement of rhodamine 6G (R6G) adsorbed on silver cluster has been theoretically investigated by charge difference densities (CDDs) to show the direct charge transfer (CT) evidence. For surface‐enhanced resonance Raman scattering (SERRS) of R6G excited at 514.5 nm, the enhancements of v(151) and v(154) result from weak intermolecular (from Ag to R6G) CT and the strong intramolecular CT [similar to that of resonance Raman scattering (RRS) of R6G], respectively. The possibility of the SERRS of R6G contributed from pure intermolecular CT is also discussed, when the incident light is close to the new metal–R6G CT excited state at 1571.4 nm. Meanwhile compared with the absorption process the fluorescence yield of R6G is investigated by transition densities and CCDs. Copyright © 2008 John Wiley & Sons, Ltd.     

Portable smart films for ultrasensitive detection and chemical analysis using SERS and SERRS

Metallic nanostructures, much smaller than the wavelength of visible light, which support localized surface plasmon resonances, are central to the giant signal enhancement achieved in surface‐enhanced Raman scattering (SERS) and surface‐enhanced resonance Raman scattering (SERRS). Plasmonic driven SERS and SERRS is a powerful analytical tool for ultrasensitive detection down to single molecule detection. For all practical SERS applications a key issue is the development of reproducible and portable SERS‐active substrates, where the most widely used metals for nanostructure fabrication are silver and gold. Here, we report the fabrication of a ‘smart film’, containing gold nanoparticles (AuNPs), produced by in situ reduction of gold chloride III (Au⁺³) in natural rubber (NR) membranes for SERS and SERRS applications. The composite films (NR/AuNP membranes) show characteristic plasmon absorption of Au nanostructures, which notably do not influence the mechanical properties of the NR membranes. The term ‘smart film’ has to do with the fact that the SERS substrate (smart film) is flexible and standalone, which allows one to take it anywhere and to dip it into solutions containing the analyte to be characterized by SERS or SERRS technique. Besides, the synthesis of the AuNPs at the surface of NR films is much simpler than making an Au colloid and cast it onto a substrate surface or preparing an Au evaporated film. Copyright © 2012 John Wiley & Sons, Ltd.     

银溶胶自组装表面增强光纤拉曼探针的研究

利用表面增强拉曼 (SERS)技术对光纤表面进行修饰 ,构造了表面增强光纤拉曼光谱传感器。选取了几个有代表性的分子作为检测样品 ,得到了低浓度样品的SERS光谱。结果表明 ,可以将制备SERS活性基底的方法移植到光纤表面来制备SERS活性光纤探针。     

Survival of molecular information under surfaced‐enhanced resonance Raman (SERRS) conditions

In the present paper, we discuss the molecular information that can be derived from surface‐enhanced resonance Raman Scattering (SERRS) experiments performed with different excitation wavenumbers, which are close to resonance with an excited electronic state of the molecule [surface‐enhanced Raman dispersion spectroscopy (SERADIS)]. We specifically consider the situation, where a molecule is physisorbed to a site characterized by a local electric field with a direction independent of the direction of the external, exciting field. The molecular information available in this experimental situation is compared with the information available in a corresponding Raman dispersion spectroscopy (RADIS) experiment performed on a free molecule or a molecule physisorbed to a site, where the local field is isotropic. The consequences for resonance Raman scattering (RRS) and RADIS, when the molecule is adsorbed in the highly anisotropic hot spot (HS), are discussed; here it is shown that only the molecular information originating from the symmetric part of the scattering tensor can survive in SERRS and in SERADIS. Besides, it is shown that the depolarization ratio can no longer be used to discriminate between totally and non‐totally symmetric modes in the polarized surface‐enhanced Raman scattering (SERS) spectra. These results have implications for the resonance Raman spectra, but even more important for the application of the resonance Raman effect in the investigation of excited vibronic molecular states, in general, and in the investigation of electronic states in larger bio‐molecules, such as the various metallo‐porphyrins. Copyright © 2009 John Wiley & Sons, Ltd.     

银原子团簇在纳米碳管中的形态与熔化特性

采用分子动力学方法,对纳米碳管中Agn(n=108,402)团簇的形态及熔化特性进行了模拟,并与自由状态下团簇的形态及熔化特性进行了对比。研究表明,①温度T=150 K时,碳管中银团簇的形态呈现为吸附在碳管内侧的单原子层银管,表现为非晶体,而自由状态下的银团簇呈现为近似球形,且具有一定的晶体特征。②自由状态下银团簇的熔化为“晶体熔化”,而纳米碳管中的银团簇为非晶熔化。     

负电性纳米银溶胶SERS活性及稳定性的比较研究

用单宁还原硝酸银可制得表面带负电的、对阳离子型分子具有较强SERS效应的纳米银。为了进一步测试负电性纳米银溶胶的SERS活性及稳定性,在室温下用制针剂的封装机将样品(old NCS)封装并保存。两年后与新制备的负电性纳米银溶胶(new NCS)比较,用透射电镜观测发现old NCS与new NCS相比银粒子尺寸增大;用紫外可见吸收光谱测定old NCS的吸收峰为431 nm,new NCS的吸收峰为418 nm,old NCS与new NCS相比吸收峰发生红移。为比较old NCS及new NCS的SERS活性选取阳离子型分子、中性分子及阴离子型分子作为测试分子,用拉曼光谱仪测试这些分子在两种纳米银上的SERS谱,结果发现,阳离子型分子碱性品红、中性分子吖啶橙在old NCS及new NCS上SERS较强,阳离子型分子亚甲基蓝在old NCS上与在new NCS上相比SERS较弱,阴离子型分子苯甲酸在old NCS及new NCS均未观察到SERS信号。     

Enhanced photoluminescence of CdSe quantum dots by the coupling of Ag nanocube and Ag film

The coupling of local surface plasmon(LSP) of nanoparticle and surface plasmon(SP) mode produced by metal film can lead to the enhanced electromagnetic field, which has an important application in enhancing the fluorescence of quantum dots(QDs). Herein, the Ag nanocube and Ag film are used to enhance the fluorescence of CdSe QDs. The enhancement is found to relate to the sizes of the Ag nanocube and the thickness of the Ag film. Moreover, we also present the fluorescence enhancement caused by only SP. The result shows that the coupling between metal nanoparticles and metal film can realize larger field enhancement. Numerical simulation verifies that a nanocube can localize a strong electric field around its corner. All the results indicate that the fluorescence of QDs can be efficiently improved by optimizing the parameters of Ag film and Ag cubes.     

Characterization of indigo carmine with surface‐enhanced resonance Raman spectroscopy (SERRS) using silver colloids and island films,and theoretical calculations

The application of resonance Raman (RR) and surface‐enhanced resonance Raman (SERR) spectroscopies to the qualitative and semiquantitative analysis of the artificial dye indigo carmine has been examined using sodium‐citrate‐reduced silver colloid and island films with various roughnesses. Additional, the Raman spectrum of the solid state and density functional theory (DFT) calculations helped to a better understanding of the fully optimized geometry and of the vibrational wavenumbers of the dye. A strong chemical interaction of indigo carmine with the silver colloidal particles was observed mainly at very low concentration of 0.03 × 10⁻⁹ M and with silver film surfaces at a concentration of 10⁻⁴ M . The indigo carmine orientation possibilities while going to different metallic substrates are discussed. Copyright © 2007 John Wiley & Sons, Ltd.