4,4′-联吡啶吸附在银电极上的SERS谱的研究

本文根据0.005mol/L 4,4′-联吡啶/0.010mol/L氯化钾体系的循环伏安曲线、SERS光谱及随外加电位的变化情况,研究4,4′-联吡啶吸附在银电极上的SERS光谱及随外加电位的变化,探讨它们在银电极表面的吸附方式。一、引言自从发现吡啶吸附在银电极表面上产生表面增强喇曼散射(SERS)效应后,这个领域的研究日益深入。1987年,张     

非水电化学体系中激光照射时间对SERS光谱影响的实验研究

本文报道了非水电化学体系中激光照射时间对咪唑在甲醇溶剂中吸附在电化学粗糙了的银电极表面上的表面增强拉曼散射(SERS)效应的影响及咪唑吸附在银电极表面上的SERS谱的连续背景的研究。结果表明,甲醇介质中咪唑吸附在银电极表面上的SERS谱强度随激光照射时间而变化,并且咪唑在甲醇介质中的SERS谱背景较强。初步探讨了咪唑吸附在银电极表面上的SERS效应的增强机制。     

苯甲酸的羟基取代物在银纳米颗粒表面的吸附行为的研究

分别以覆银滤纸和银胶溶液中的银纳米颗粒为基底,对苯甲酸的三种羟基取代物(n-HBA,n=P,M,O)进行了表面增强拉曼散射(SERS),发现PHBA分子在覆银滤纸上的SERS光谱和银胶中的SERS光谱明显不同,而MHBA分子和OHBA分子在两种基底上的SERS光谱却很相近。分析表明这些变化都来源于分子在银纳米颗粒表面吸附行为的变化,基底的表面特性和分子的表面构型对分子在基底表面的吸附行为会产生很大的影响。     

表面增强喇曼散射(SERS)光谱中影响增强效应因素的实验研究(Ⅱ)

本文用三种光子能量的激光光源,对吸附于经电化学预处理的粗糙银电极表面的吡啶分子进行了SERS光谱的实验研究.绘出了SERS光谱谱线强度与入射光子能量和电极外加电位的关系.发现电极外加电位影响吸附分子的能级,并对SERS光谱的电荷迁移激发理论作了改进,从而可定性解释实验结果.     

表面增强喇曼散射(SERS)光谱中影响增强效应因素的实验研究(Ⅲ)

本文研究了苯甲酸水溶液的pH值,电极外加电位对银电极表面吸附苯甲酸SERS光谱表面增强效应的影响。实验结果表明,苯甲酸以—COO~-根负离子吸附于银电极表面。通过改变溶液的pH值,使苯甲酸吸附于粗糙银电极表面,溶液pH值影响电极表面吸附苯甲酸的面密度,电极外加电位影响—COO~-根离子与银电极间的电荷迁移,电极外加电位也影响苯甲酸在粗糙银电极表面的吸附。     

银电极表面上C60薄膜的表面增强拉曼光谱研究

在银电极表面形成一层C60薄膜,分别在乙腈溶液和水溶液中进行表面增强拉曼光谱(SERS)研究并将两者进行比较,从而消除了溶液中的C60干扰表面吸附C60的SERS谱图的可能性.研究结果表明,C60分子对称性的降低导致SERS谱峰发生了分裂;表面电磁场的作用使得光谱选律在SERS效应中被拓宽,产生了新的拉曼谱峰.该结果与团簇吸附在粗糙银电极表面的C60分子的研究结果相似.与之不同的是在乙腈溶液和水溶液中的SERS谱图的低波数区内分别在348和311 cm-1左右出现一个新峰,经过分析可认为该峰与C60-金属基底的相互作用有关.     

修饰银电极上单壁碳纳米管的表面增强拉曼散射

本文采用修饰了银纳米颗粒的银电极作为基底,获得了高质量的单壁碳纳米管(SWCNTs)的表面增强拉曼散射(SERS)光谱。在1100~1500 cm-1范围内观测到了一组表征SWCNTs结构的新峰。修饰在银电极上的银纳米颗粒不仅可以保证SWCNTs在这一体系中吸附的紧密性,而且通过变面等离子体共振起到了电磁放大的作用。通过对银纳米颗粒修饰银电极表面SWCNTs的SERS光谱及其随电位变化的SERS光谱的研究,我们可以研究这一过程中的SERS机制。理论和实验结果表明,银纳米颗粒修饰银电极上单壁碳纳米管的SERS很有潜力成为一种检测单壁碳纳米管合成质量的新方法。     

覆银银电极上哌啶分子的表面增强拉曼散射研究

通过改进电极修饰方法,在粗糙银电极上沉积银纳米颗粒,得到了哌啶分子吸附在覆银银电极上的高质量SERS谱,并研究了电位对哌啶分子在这种覆银银电极上SERS光谱的影响。实验表明,沉积有银纳米颗粒的粗糙银电极是一种新的高效SERS活性基底,分析并解释了覆银银电极能产生极强的增强效应的可能原因。     

非水体系中哌啶在银电极表面的表面增强喇曼散射

本文测定了哌啶在甲醇溶液中吸附在银电极表面的表面增强喇曼散射(SERS)光谱,及其随电位的变化,同时还测定了电极经不同氧化-还原循环(ORC)预处理时的SERS谱,对所得结果进行了分析比较,并进一步研究了非水体系和水体系SERS谱之间的关系.实验结果表明:哌啶在甲醇体系中比在水体系中SERS谱的增强因子要小,并且它们的SERS谱线随电位的变化也有一定的差别.     

腺嘌呤的表面增强喇曼散射研究

本文是利用表面增强喇曼光谱研究腺嘌呤在银表面的吸附情况。为了避免外加阴离子产生的共吸附对SERS谱的影响,我们采用化学粗糙法(COR)进行银电极的表面处理。测量了不同电位时腺嘌呤的SERS谱,发现电位从正向负变化时腺嘌呤会以竖立武吸附变成接近平躺吸附。     

Surface enhanced Raman scattering of water on an Ag electrode

Surface enhanced Raman scattering of adsorbates on an Ag electrode in various electrolytes (e.g., 0.1–1.0 M KF, KCl, KBr, KI, K₃PO₄, and NaN₃) has been investigated in an effort to elucidate the mechanism of the enhancement of water compared to that for other adsorbates. (It is well known, for example, that pyridine exhibits large enhancement in 0.1 M KCl while SERS from water is not detectable unless the salt concentration is raised to almost 1 M.) Use of an optical multichannel analyzer allowed rapid recording of Raman spectra, and SERS intensities of adsorbates could therefore be monitored simultaneously during a continuous oxidation-reduction cycle. Potential dependencies of SERS intensities when the electrode potential is cycled in a non-faradiac potential range immediately following oxidation and reduction indicate that adatoms are partially responsible for the Raman enhancement. Furthermore, the anions in the electrolyte play an important role in stabilizing these “active sites.” For this reason, the degree of enhancement is influenced by the solubility of the Ag compound formed during oxidation and the specific adsorption of the anions to the Ag surface. Preferential alignment of H₂O molecules with their oxygen ends facing the surface at positive potentials, the tendency of anions in the electrolyte to disrupt hydrogen bonding with the water network, and the weak hydrogen bonding of H₂O with the anions give rise to a SERS lineshape from adsorbed H₂O molecules which is narrower than, and thus distinguishable from, the Raman line of bulk water. Thus, the degree to which the particular anions in the electrolyte disrupt hydrogen bonding among water molecules and reform hydrogen bonding between the anions and H₂O molecules influences the SERS lineshape and the apparent enhancement of the H₂ Raman emission.     

Potential‐induced Raman behavior of individual (R)‐di‐2‐naphthylprolinol molecules on a Ag‐modified Ag electrode

The applicability of surface‐enhanced Raman spectroscopy is demonstrated to probe the adsorption behavior of individual molecules on a Ag electrode. High‐quality SERS spectra of (R)‐di‐2‐naphthylprolinol (DNP) were obtained from ultradilute solutions (10⁻¹² M ) on the Ag‐nanoparticle‐modified Ag electrode, which is attributed to the high electromagnetic (EM) effect of the SERS‐active system as well as to the strong adsorption and interaction of DNP molecules with Ag. The stable SERS spectra present remarkable potential dependence, which gives evidence for the behavior of individual DNP molecules on the Ag surface. Based on statistical analysis for the probability of DNP molecules located in ‘hot spots’, we propose an SERS mechanism for individual molecules in the electrode system, in combination with the hot‐spot model and orientation of the probe molecules. Copyright © 2010 John Wiley & Sons, Ltd.     

KCI对银胶形态影响的电子显微镜研究

借助透射电子显微镜研究了银胶中加入KCl时对银胶的影响。发现KCl的加入引起了银原子的输运,使胶体颗粒变大,表面上覆上一层疏松原子集团。同时引起胶体发生链状凝聚。和加入吡啶引起的银胶的变化做了比较,表明KCl和吡啶对银胶的作用结果有很大差异。同时也讨论了这些差异对表面增强喇曼散射信号的影响。 关键词：     

Identification of species formed after pyridine adsorption on iron,cobalt, nickel and silver electrodes by SERS and theoretical calculations

The adsorption of pyridine (py) on Fe, Co, Ni and Ag electrodes was studied using surface‐enhanced Raman scattering (SERS) to gain insight into the nature of the adsorbed species. The wavenumber values and relative intensities of the SERS bands were compared to the normal Raman spectrum of the chemically prepared transition metal complexes. Raman spectra of model clusters M₄(py) (four metal atoms bonded to one py moiety) and M₄(α‐pyridil) where M = Ag, Fe, Co or Ni were calculated by density functional theory (DFT) and used to interpret the experimental SERS results. The similarity of the calculated M₄(py) spectra with the experimental SERS spectra confirm the molecular adsorption of py on the surface of the metallic electrodes. All these results exclude the formation of adsorbed α‐pyridil species, as suggested previously. Copyright © 2009 John Wiley & Sons, Ltd.     

表面增强拉曼光谱研究硫脲衍生物与ClO_4~-的共吸附行为

表面增强拉曼光谱研究硫脲衍生物与ＣｌＯ－４的共吸附行为顾仁敖１姚建林１袁亚仙１钟起玲２田中群３（１苏州大学化学系苏州２１５００６）（２江西师范化学系南昌３３００２７）（３厦门大学固体表面物理化学国家重点实验室，化学系厦门３６１００５）Ｓｕｒｆａｃｅ...     

CTAB对四-(4-N-甲基吡啶)卟啉SERS谱的影响

研究了阳离子表面活性剂十六烷基三甲基溴化铵 (CTAB)对四 ( 4 N 甲基吡啶 )卟啉 (H2 TMPyP)及其银配合物 (AgTMPyP)在Ag胶中的表面增强拉曼散射 (SERS)谱的影响 .SERS光谱表明 ,吸附于Ag胶粒的H2 TMPyP与衬底银原子结合形成AgTMPyP ,加入CTAB后 ,部分AgTMPyP表面络合物还原为H2 TMPyP .相似的去金属化反应也出现在AgTMPyP/Ag胶 /CTAB体系中 .CTAB的加入使SERS谱带强度明显增加 .AgTMPyP的去金属化被认为是由于CTAB的存在使Ag胶颗粒表面附近微环境发生改变     

2-噻吩甲酸在Fe3O4@Ag基底上的吸附及表面增强拉曼光谱

采用共沉淀法合成Fe₃O₄纳米颗粒,再以柠檬酸三钠还原AgNO₃获得了具有SERS活性的Fe₃O₄@Ag磁性纳米复合材料。基于密度泛函理论(DFT)的量子化学计算方法和表面增强拉曼光谱(SERS)技术,从理论计算和实验测定表征探讨了2-噻吩甲酸(2-TCA)在Fe₃O₄@Ag表面的吸附行为和增强效应。结果表明:理论计算得到的拉曼光谱与实际测得的常规拉曼光谱基本一致,而在DFT理论计算中所键连的Ag原子数越多,与实测值就越接近。溶液的浓度和pH对拉曼增强效果有很大的影响,当溶液的pH=3且浓度为1×10^-4 mol·L^-1时有最大拉曼增强效应。峰强随2-TCA浓度的增加呈现先增大后减小的趋势,浓度过大会导致大量2-TCA分子吸附聚集在Ag表面形成局部"拥堵",阻碍了激发光尤其是光谱信号的散射通过,从而减弱了拉曼增强效应。pH的变化使溶液中2-TCA分子形态发生改变,结构形态不同,其在Ag表面的吸附方式也不同。中性C₄H₃SCOOH分子以环上S:形式垂直吸附键合在Ag表面,形成S—Ag配位键而产生SERS光谱。-1价C₄H₃SCOO^-离子以S—Ag配位和O—Ag共价"双键合"侧卧方式共同吸附在Ag表面而产生SERS光谱。在Ag表面,以单独S—Ag配位键吸附或键合的能力比S—Ag配位和O—Ag共价共同吸附方式要弱,但其产生的SERS信号更强,故2-TCA中性分子比2-TCA^-离子更有利于SERS的产生。随着pH值的增加,溶液中的2-TCA由中性分子逐渐转化为-1价的C₄H₃SCOO^-离子,因而在pH>3以后,拉曼增强效应逐步减弱。