纳米银对表面吸附甲基橙分子的光谱学性质的影响

甲基橙溶液中引入纳米银胶,甲基橙分子的π-π*和n-π*电子跃迁吸收蓝移。随着纳米银胶浓度增加,S2-S0跃迁荧光发射强度不断下降,发射峰红移,而S1-S0跃迁荧光发射强度不断增加。纳米银对pH=2.1的甲基橙溶液的S1-S0跃迁荧光发射强度增强高于pH=6的甲基橙溶液。采用透射电子显微镜、紫外-可见吸收分光光度计和荧光分光光度计等手段从局域场增强、分子间的相互作用和能量传输等方面初步探讨了纳米银胶对表面吸附甲基橙分子光谱学性质影响机制。     

染料分子吸附在正、负电性纳米银上的荧光增强及荧光猝灭现象

制备了两种不同表面电性的胶态纳米银,选取阴离子型染料分子荧光素钠、既有阴离子基团又有阳离子的染料分子罗丹明B,研究其在两种纳米银表面的荧光增强及荧光猝灭现象.当罗丹明B(RhB)分子分别吸附在这两种纳米银上时,对负电性纳米银,观察到荧光猝灭、荧光峰红移现象,且在分子的浓度适当时,加入KBr可获得较强的表面增强拉曼光谱;在正电性纳米银上,当分子的浓度较大时观察到荧光猝灭,当分子的浓度较小时观察到荧光增强.而当荧光素钠分子( FS)分别吸附在这两种纳米银上时,在负电性纳米银,观察到荧光猝灭;在正电性纳米银上观察荧光急剧增强现象.从分子的结构及纳米银表面局域场增强或无辐射通道的增加对增强和猝灭的原因作了讨论.     

纳米银对表面吸附镝配合物的荧光增强效应研究

研究了不同粒径的纳米银对镝配合物(乙二胺四乙酸配合物)的光谱学性质影响。当配合物溶液的pH值范围为4.0～6.0时,加入纳米银,可观察到大量的纳米银聚集体形成,而在吸收光谱的长波处出现一个新的吸收峰,随着纳米银浓度的增加,该吸收峰逐渐红移,同时,镝配合物的荧光强度增强。实验结果表明,纳米银粒子对镝配合物的荧光增强效应及荧光增强因子与纳米银粒子的浓度和粒径密切相关。随着纳米银浓度的增加,配合物的荧光强度先增强而后又逐渐降低。小粒径的纳米银对镝配合物的荧光增强因子较小。本文从纳米银粒子的聚集效应、局部电磁场增强效应及光吸收效应等方面探讨了纳米银对表面吸附镝配合物的+荧光增强效应机理。     

纳米银对铕-吡啶-2,6-二羧酸配合物荧光增强效应的研究

研究了纳米银对分别以水、重水、乙醇和二甲基甲酰胺为溶剂的铕-吡啶-2,6-二羧酸(Eu(III)DPA)配合物溶液的荧光增强效应.研究结果表明,Eu(III)DPA溶液中加入纳米银,电偶极跃迁(5D0→7F2)和磁偶极跃迁(5D0→7F1)发射强度先增强而后逐渐下降,5D0→7F2的荧光增强效率高于5D0→7F1的荧光增强效率.在乙醇溶剂中纳米银对Eu(III)DPA溶液的荧光增强效应最大.在水或重水或乙醇溶剂中,Eu(III)DPA的不对称率明显提高,而在二甲基甲酰胺溶剂中几乎不变.分析认为,纳米银对Eu(III)DPA溶液荧光的影响与纳米银表面等离子体共振与激发态荧光中心强烈耦合以及表面等离子体再吸收有关.     

纳米银粒子对[Ru(bpy)_3]~(2+)光谱学性质的影响及电解质效应

研究了[Ru(bpy)3]2+溶液中引入纳米银粒子的光谱学性质变化规律以及[Ru(bpy)3]2+与纳米银粒子所构成的溶液体系([Ru(bpy)3]2+-Ag)的电解质效应.研究结果表明,[Ru(bpy)3]2+吸附在纳米银粒子表面使纳米银粒子相互桥连形成规则的类链状网络聚集体.纳米银粒子造成[Ru(bpy)3]2+溶液荧光猝灭,且大尺寸的纳米银粒子引起的荧光猝灭程度较大.在[Ru(bpy)3]2+-Ag体系中引入电解质造成纳米银粒子不同程度的聚集和生长.电解质对纳米银聚集影响为:CaCl2MgCl2Ca(NO3)2KClKNO3.随着[Ru(bpy)3]2+-Ag体系中引入电解质含量的增加,溶液的荧光强度先降低而后又逐渐增强,直至达到定值,表明一定量的电解质可产生荧光猝灭释放效应.电解质对荧光强度影响顺序为:Ca(NO3)2CaCl2MgCl2KClKNO3.采用透射电子显微镜、紫外-可见吸收分光光度计和荧光分光光度计等手段从分子间相互作用和能量传输等方面初步探讨了纳米银粒子对表面吸附[Ru(bpy)3]2+溶液光谱学性质的影响机制以及电解质效应.     

纳米银对表面吸附荧光素的荧光增强和荧光猝灭效应及KCl的荧光猝灭释放效应

制备了两种不同粒径的纳米银溶胶，研究了在水溶液条件下其对表面吸附荧光素(FL)的荧光性能的影响及KCl电解质对该体系荧光性能的影响。FL溶液中加入纳米银，FL分子吸收峰位发生红移。随着纳米银浓度的增加，FL分子荧光先出现增强，而后又逐渐猝灭。粒径较大的纳米银产生最大荧光增强比率所需浓度较低。在纳米银猝灭FL分子荧光的溶液中加入KCl电解质，随着KCl浓度的增加，荧光逐渐增强，出现了荧光猝灭释放效应。研究结果表明，纳米银对表面吸附FL的荧光作用与FL分子附近局域电磁场增强和分子到金属表面无辐射跃迁能量转移过程决定并与纳米银的浓度、尺寸及电解质等密切相关。     

纳米银对铕配合物荧光性质的影响(英文)

研究了纳米银对稀土铕-吡啶-2,6-二羧酸配合物(Eu(Ⅲ)C7H5NO4,Eu(Ⅲ)DPA)的荧光性质的影响。随着纳米银浓度增加,荧光强度先增强而后逐渐下降。较大粒径的纳米银使Eu(Ⅲ)DPA荧光增强效率较大,且达到最大荧光增强效率所需的纳米银浓度较低。在高浓度Eu(Ⅲ)DPA溶液体系中,纳米银导致荧光猝灭。电偶极子跃迁发射荧光增强效率大于磁偶极子跃迁发射荧光增强效率。分析认为,纳米银对Eu(Ⅲ)DPA荧光性质的影响与表面等离子体共振与激发态荧光中心强烈耦合以及表面等离子体再吸收有关。同时,纳米银对铕配合物的不对称率有影响,其影响因素与局域电磁场增强,折射率以及配位场有关。     

纳米银对铕配合物荧光性质的影响

本文研究了纳米银对稀土铕-吡啶-2,6-二羧酸配合物（Eu（Ⅲ）C₇H₅NO₄,Eu（Ⅲ）DPA）的荧光性质的影响。随着纳米银浓度增加,荧光强度先增强而后逐渐下降。较大粒径的纳米银使Eu（Ⅲ）DPA荧光增强效率较大,且达到最大荧光增强效率所需的纳米银浓度较低。在高浓度Eu（Ⅲ）DPA溶液体系中,纳米银导致荧光猝灭。电偶极子跃迁发射荧光增强效率大于磁偶极子跃迁发射荧光增强效率。分析认为,纳米银对Eu（Ⅲ）DPA荧光性质的影响与表面等离子体共振与激发态荧光中心强烈耦合以及表面等离子体再吸收有关。同时,纳米银对铕配合物的不对称率有影响,其影响因素与局域电磁场增强,折射率以及配位场有关。     

一种pH荧光探针的合成及光谱研究

设计合成了一种pH荧光分子探针2,5-双(4-羟基-苯亚甲基)环戊酮,并对其光谱性能进行了研究.pH滴定实验表明:探针的紫外吸收和荧光光谱对溶液的pH值有很强的依赖性.当体系溶液由酸性变为碱性时,探针紫外吸收光谱发生明显的红移,并伴有溶液颜色的显著变化.荧光光谱强度在酸性条件下随pH的变化不大,而在碱性条件下荧光强度则...     

碱性品红分子在正、负电性纳米银上的吸附取向

制备了两种不同电性的纳米银粒子的胶体,发现当碱性品红分子分别吸附在这两种纳米银上时,其表面增强拉曼谱在谱线的强度及谱线数目上均有有明显的不同.在正电性纳米银上,主要是面内模式得到增强,且碱性品红特征峰的强度是I1589>I1524>I1371.而在负电性纳米银上,面内伸缩模式及面外弯曲模式均得到增强,且碱性品红特征峰的强度是I1588相似文献   

基于超分子结构共掺杂纳米复合薄膜的制备与荧光特性

A novel materials design procedure based on the co-doping of metal nanoparticle and azo dye compound (MNPADC) is developed to improve the properties of functional molecules. The synthesized materials were characterized by transmission electron micrograph (TEM), ultraviolet-visible absorption spectra (UV-Vis) and fluorescence spectra (FS). It was found that the fluorescence intensity of methyl orange (MO) was enhanced by 5 times in the aqueous composite system doped with silver nanoparticles whereas it was reduced by 15% and 20% in composite films with co-mixing and coating structures, respectively. The results indicate that the properties of functional molecules can be greatly improved in composite film with supra molecular structure and that the procedure presented here is effective.     

Fluorescence Enhancement of IgG-FITC Based on Surface Plasmon Resonance of Ag@SiO2 Nanoparticles as Application of Biomarker

Ag@SiO₂ nanoparticles with the core-shell structure have been prepared, of which the silver core was about 50 nm and the thickness of silica shell was approximately 10 nm. In slightly alkaline aqueous solution (pH = 8), through electrostatic force between cationic polymer PDDA (i.e., poly-diallyldimethylammonium chloride) and the obtained Ag@SiO₂ nanoparticles, PDDA molecules were fixed on the surface of Ag@SiO₂ nanoparticles. The prepared Ag@SiO₂/PDDA nanoparticles have both rich positive surface charges and rich micro-holes of silica shell. Based on micro-hole adsorption, the small molecule FITC (i.e., fluorescein isothiocyanate) marking on IgG (i.e., immunoglobulin) was adsorbed into the rich microholes of silica shell; at the same time, the negatively charge macromolecule IgG marked by FITC was firmly fixed on the rich positive charges surface of Ag@SiO₂/PDDA nanoparticles by electrostatic interaction. And then, Ag@SiO₂/PDDA/IgG-FITC fluorescent nanoparticles with the SPR fluorescence enhancement were prepared. The shell-type SiO₂/PDDA/IgG-FITC nanoparticles were obtained by dissolving the silver core in the prepared core-shell Ag@SiO₂/PDDA/IgG-FITC nanoparticles by using H₂O₂. Compared with the shell-type nanoparticles, the fluorescence intensity of Ag@SiO₂/PDDA/IgG-FITC was enhanced 1.7 times. The prepared Ag@SiO₂/PDDA/IgG-FITC nanoparticles have both SPR-based fluorescence enhancement ability and the surface distributing IgG–based obvious advantages including good biocompatibility and easy marking with other biomolecules.     

Fluorescence Enhancement of Levosulpiride Upon Coordination with Transition Metal Ions and Spectrophotometric Determination of Complex Formation

Abstract

Absorbance and fluorescence spectral pattern of levosulpiride in absence and presence of first row transition metal ions (Mn-Zn) has been studied at room temperature under physiological condition. The fluorescence spectra of the drug in presence of different concentrations of transition metal ions showed enhancement in fluorescence intensity of levosulpiride. The photophysical changes owing to the direct interaction between metal ion and the amide nitrogen of levosulpiride has been described in terms of CHEF (chelating enhancement fluorescence) effect. The absorption spectra of the drug at different pH exhibited two isosbestic points at 255 and 275 nm respectively, indicating the presence of three chemical species in solution. The ratio of the drug to metal ions is found to be 2:1 and the log K of the resulting complex was determined spectrophotometrically and potentiometrically. The apparent ionization constant of levosulpiride is found to be 8.98. The low value of stability constant suggests that complexes may dissolve and the drug can be absorbed.     

微波萃取高效液相色谱法测定口红中芳香胺类化合物

利用微波萃取高效液相色谱法测定了口红中芳香胺类化合物.先将口红涂于玻璃片上,然后用微波萃取和高效液相色谱法测定萃取液中的芳香胺类化合物.研究了3种市售口红并得到了芳香胺类化合物的定量测定结果.考察了微波萃取的条件,并将薄层色谱等萃取分离方法和微波萃取法进行了比较,证明微波萃取法在萃取膏状物和蜡状物中的组分时,具有比其它方法更加方便、快速等优点.     

多柔比星稀土金属离子配合物与DNA相互作用的研究

用紫外分光光度法和荧光光谱法研究了多柔比星( Adriamycin,ADM)稀土金属离子配合物(ADM-M)与DNA的相互作用.结果发现,在pH=7.0时,ADM与Eu3+、yb3+能形成稳定配合物,该配合物可使DNA的最大吸收产生明显的减色效应及红移,并能够竞争置换溴化乙锭(EB)与DNA的结合点.KI猝灭试验发现D...     

烟酰胺腺嘌呤二核苷酸在纳米α-氧化铝上的吸附作用

用紫外-可见吸收光谱、X射线衍射、荧光光谱和衰减全反射傅里叶变换红外(ATR-FTIR）光谱等方法,研究了烟酰胺腺嘌呤二核苷酸(NAD+)在纳米α-Al2O3粒子上的吸附行为。 实验结果显示,NAD+的吸附量受pH值和离子强度影响较大,说明NAD+主要通过静电作用吸附在纳米α-Al2O3粒子上。 采用ATR-FTIR光谱分析了不同pH值溶液中及被吸附的NAD+,发现吸附后的NAD+与溶液中NAD+ 的ATR-FTIR光谱相似,但磷酸根的吸收峰向高波数位移,说明磷酸根参与了表面静电作用。 吸附过程符合Langmuir和Freundlich等温式。 荧光实验结果显示,随着吸附剂α-Al2O3用量的变化,NAD+构象也发生变化。     

氢化松香酸钠与明胶蛋白质相互作用的荧光光谱法研究

在pH＝10.80及不同温度下,, 利用常规荧光法、同步荧光法、共振光散射和紫外-可见光谱研究了氢化松香酸钠(HSR)与明胶的相互作用. 结果表明HSR与明胶有一个结合位点,, 聚集体的形成引起明胶内源荧光增强.. 据此建立了体系荧光增强与HSR浓度的线性关系式,, 计算了不同温度下反应的结合常数及对应温度下结合反应的热力学参数.. 二者之间主要靠疏水作用力结合..     

Synthesis and characterizations of ultra-small ZnS and Zn(1-x)Fe(x)S quantum dots in aqueous media and spectroscopic study of their interactions with bovine serum albumin

This work reports a new experimental methodology for the synthesis of ultra small zinc sulfide and iron doped zinc sulfide quantum dots in aqueous media. The nanoparticles were obtained using a simple procedure based on the precipitation of ZnS in aqueous solution in the presence of 2-mercaptoethanol as a capping agent, at room temperature. The effect of Fe(3+) ion concentration as dopant on the optical properties of ZnS was studied. The size of quantum dots was determined to be about 1nm, using scanning tunneling microscopy. The synthesized nanoparticles were characterized by X-ray diffraction, UV-Vis absorption and photoluminescence emission spectroscopies. The presence and amount of iron impurity in the structure of Zn((1-x))Fe(x)S nanocrystals were confirmed by atomic absorption spectrometry. A blue shift in band-gap of ZnS was observed upon increasing incorporation of Fe(3+) ion in the iron doped zinc sulfide quantum dots. The photoluminescence investigations showed that, in the case of iron doped ZnS nanoparticles, the emission band of pure ZnS nanoparticles at 427nm shifts to 442nm with appearance of a new sharp emission band around 532nm. The X-ray diffraction analysis indicated that the iron doped nanoparticles are crystalline, with cubic zinc blend structure, having particle diameters of 1.7±022nm. Finally, the interaction of the synthesized nanoparticles with bovine serum albumin was investigated at pH 7.2. The UV-Vis absorption and fluorescence spectroscopic methods were applied to compare the optical properties of pure and iron doped ZnS quantum dots upon interaction with BSA. It was proved that, in both cases, the fluorescence quenching of BSA by the quantum dots is mainly a result of the formation of QDs-BSA complex in solution. In the steady-state fluorescence studies, the interaction parameters including binding constants (K(a)), number of binding sites (n), quenching constants ( [Formula: see text] ), and bimolecular quenching rate constants (k(q)) were determined at three different temperatures and the results were then used to evaluate the corresponding thermodynamic parameters ΔH, ΔS and ΔG.     

银纳米棱镜的形成及其光学性能研究

以有机溶剂作为反应介质,聚合物为稳定剂,通过微波辅助溶液法成功地制备了具有特殊光学性能的银纳米棱镜.利用X射线衍射、透射电子显微镜和紫外-可见光谱等手段跟踪反应过程.结果显示,随着反应的进行,银纳米粒子由10nm左右的球形颗粒逐渐转变为具有规则三角形(或缺角的三角形)形貌的纳米棱镜;同时,紫外-可见吸收峰不但显示出明显的量子尺寸效应,而且吸收峰也由单一的等离子共振吸收峰变为多重的多极吸收峰共同存在,胶体溶液也随之显示出不同的颜色.改变反应物的配比、体系的浓度及无机前驱物都会得到位置和峰形各不相同的吸收曲线,从而得到多彩的纳米银胶体溶液.