HSA-磷钼杂多酸缔合纳米微粒体系荧光猝灭机理研究

在pH 7.40的Tris-HCl缓冲溶液中, 磷钼杂多酸(PMA)呈浅黄色,在可见光区没有明显的吸收峰;人血清白蛋白(HSA) 呈无色,在可见光区也没有明显的吸收峰,但在350 nm处有一荧光峰。当有PMA存在时,HSA与PMA形成缔合纳米微粒, HSA-PMA缔合纳米微粒的粒径约为80 nm。经研究发现HSA对PMA有增色和减色效应,PMA对HSA有荧光猝灭作用;PMA对色氨酸(Trp)和酪氨酸(Tyr)也有一定的荧光猝灭作用,但这两种荧光猝灭机理不同,且没有形成缔合纳米微粒。PMA对色氨酸(Trp)和酪氨酸的荧光猝灭作用主要是由于PMA 在发射波长范围内存在一定的分子吸收,即通常所报道过的能量转移所至。研究结果表明,HSA-PMA缔合纳米微粒和界面的形成是导致该体系的荧光猝灭、共振散射增强及增色和减色效应的根本原因。     

荧光素钠注射液荧光猝灭的研究

使用荧光素钠注射液进行眼底血管造影，显影清晰度和显影持续时间是造影的重要质量指标，荧光猝灭作用直接影响造影质量。本文研究了浓度，酸度，温度及重金属离子与荧光猝灭的关系。结果表明：荧光素浓度大于１．５５×１０＾－５ｍｏｌ·Ｌ＾－１时，随着浓度增大，荧光猝灭作用增强；酸度对荧光猝灭作用有明显作用，ｐＨ值小于８．５时，随着ｐＨ值升高而减弱，ｐＨ值大于８．５时，随着ｐＨ值升高而增强；温度对荧光猝灭作用呈线     

银纳米粒子对抗生素诺氟沙星的荧光猝灭效应

以β-环糊精(β-CD)为稳定剂,葡萄糖为还原剂,采用"绿色化学方法"合成了平均粒径约为31nm的类球形银纳米粒子。研究了其对水溶液中痕量诺氟沙星荧光行为的影响,实验结果表明,制得的银纳米粒子对诺氟沙星具有较强的荧光猝灭效应,且随着加入银纳米粒子量的增加荧光猝灭效果逐渐增强。初步探讨了银纳米粒子对诺氟沙星的荧光猝灭机理。     

纳米银胶中PVP和Alq3的荧光猝灭研究

本文通过湿法化学还原法合成了平均粒径为4.42nm、标准差为0.98nm的球形银纳米颗粒,并研究了在不同反应时间后获得的银纳米颗粒对PVP和Alq3的荧光猝灭效应。通过深入研究发现,PVP的荧光猝灭效应主要由于其分子链上的酮基与Ag颗粒之间发生了静电吸附,进而导致处在激发态的PVP分子与银颗粒之间产生电子或者能量转移(即非辐射弛豫),猝灭了PVP的荧光发光;而Alq3的荧光猝灭效应则主要归因于银纳米颗粒的欧姆损耗。通过采用时域有限差分法进行模拟发现,溶液中随机分布的银纳米颗粒,不仅能够吸收激发电磁波,削弱激发场强度,而且能够吸收荧光分子辐射的电磁波,进而猝灭了Alq3分子的荧光效应。这些研究成果将有利于了解金属纳米颗粒与PVP及Alq3分子荧光发光之间的关系,为调控荧光发光提供指导。     

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 .     

纳米银粒子表面吸附染料分子的荧光增强及荧光猝灭现象

本文通过阴、阳离子型染料分子荧光素钠(FS)及若丹明6G(Rh6G)吸附在银胶体系内纳米银颗粒表面上,首次发现了FS的荧光增强谱及Rh6G的荧光猝灭谱.引起荧光增强及荧光猝灭的因素,除局域场和分子到金属表面能量转移这两个方面外,还与纳米银表面与被吸附分子之间的距离有关.     

纳米金膜及金壳表面局域等离激元对 上转换荧光波长的选择调控

基于贵金属表面局域等离子体共振(LSPR)调控上转换荧光的研究绝大部分集中于纳米颗粒或纳米棒,即使同一复合结构对上转换荧光(UCL)也有或增强或猝灭的截然相反的报道,而对于进一步提高上转换荧光材料的效率和强度以满足更广泛的应用需求则越来越引起人们高度关注。本文通过构筑两种纳米金/上转换纳米晶复合结构,系统研究了各自的表面局域等离激元对上转换荧光的增强和猝灭效应,基于微结构表征及对稳态、瞬态荧光光谱的分析,阐述了波长依赖的上转换荧光增强和猝灭机理。结果显示超薄纳米金壳结构对Ho~(3+)、Fe~(3+)共掺杂纳米晶的绿光发射选择性地增强了25倍,源于激发光能量与LSPR能量匹配的激发增强机制,而在覆盖有超薄纳米金膜的上转换纳米晶复合结构中却观察到了金膜引起的Er上转换荧光猝灭,同时红绿比随金膜厚度增加而增大,来自于金膜对激发光的散射、金膜的LSPR吸收带与绿光发射能级耦合引起无辐射跃迁几率增加,绿光上转换荧光强度下降相对显著,UCL寿命变短。     

空穴传输材料对CdSe核壳量子点的荧光影响

用稳态光谱和时间分辨光谱技术研究了空穴传输材料对CdSe/ZnSe 与CdSe/ZnS核壳量子点的荧光影响。结果表明,空穴传输材料对量子点有较强的猝灭作用,随空穴传输材料分子浓度的增加,量子点的荧光强度明显地被猝灭,同时量子点的荧光寿命也被减短。两种不同空穴传输分子对CdSe/ZnSe量子点的荧光猝灭明显不同。在与相同空穴传输分子相互作用时,包覆ZnS壳层的CdSe核壳量子点荧光猝灭效率明显低于包覆ZnSe壳层的CdSe核壳量子点。量子点的荧光猝灭过程可以解释为静态猝灭和动态猝灭过程,其中静态猝灭来源于量子点表面与空穴传输材料间相互作用,而动态猝灭则主要来源于量子点到空穴传输材料的空穴转移过程。实验结果表明空穴传输材料的种类以及核壳量子点的壳层结构都对其荧光猝灭效应起关键作用。     

荧光猝灭法测定壳聚糖凝胶膜中壳聚糖的含量

壳聚糖(CTS)在PBS缓冲溶液中对异硫氰酸荧光素(FITC)具有明显的荧光猝灭作用,且发现荧光猝灭程度与壳聚糖的量在一定范围内呈线性关系,吐温-20(T20)对此反应有明显的增敏效果,据此建立了通过荧光猝灭测定壳聚糖含量的方法.实验结果表明:在pH6.4的PBS缓冲溶液及T20含量为0.00200％的体系中,壳聚糖浓度在0.0400-1.00mg/L范围内的回归方程为:△F=13603C-4.5948,r=0.9992.对0.0400mg/L的壳聚糖平行测定9次,检出限为0.0350mg/L,RSD为2.70％.本方法具有简便易行、干扰小的特点,可用于壳聚糖医用制剂的含量检测和相关研究.     

不同表面结构的金纳米粒子荧光性质.

"研究了具有不同表面结构的金纳米粒子：裸金纳米粒子、三苯基膦修饰的金纳米粒子、巯基丙酸表面取代的金纳米粒子的荧光性质,及其对CdSe纳米粒子的荧光猝灭作用．发现不同的金纳米粒子荧光信号受粒子表面一价金离子与配体分子之间相互作用的影响,其荧光强度对其表面分子具有强烈的敏感性;具有不同表面结构的金纳米粒子对CdSe纳米粒子的荧光猝灭作用不同,与其吸收光谱和CdSe纳米粒子发射光谱的重叠程度相关."     

Size-dependent interaction of gold nanoparticles with transport protein: A spectroscopic study

Gold nanoparticles of different sizes have been synthesized using sodium citrate as a reducing agent for tetrachloroauric (III) acid. The formed gold nanoparticles have been characterized by the UV-visible and transmission electron microscopy (TEM) measurements. The different sized gold nanoparticles have been used to study the interaction with model transport protein, bovine serum albumin (BSA). Experimental results reveal that BSA molecules adsorbed on the metallic surfaces, suffer strong quenching of their fluorescence and the rate of quenching efficiency is different for different particle size. The analysis of the quenching results has been performed in terms of the Stern-Volmer equation. The mechanism of quenching of fluorescence has been explained. The extent of adsorption of BSA on the gold nanoparticles has been estimated.     

Fluorescence quenching of dye molecules near gold nanoparticles: radiative and nonradiative effects

The radiative and nonradiative decay rates of lissamine dye molecules, chemically attached to differently sized gold nanoparticles, are investigated by means of time-resolved fluorescence experiments. A pronounced fluorescence quenching is observed already for the smallest nanoparticles of 1 nm radius. The quenching is caused not only by an increased nonradiative rate but, equally important, by a drastic decrease in the dye's radiative rate. Assuming resonant energy transfer to be responsible for the nonradiative decay channel, we compare our experimental findings with theoretical results derived from the Gersten-Nitzan model.     

L-半胱氨酸修饰的金纳米粒子与牛血清白蛋白相互作用的荧光光谱研究

采用荧光猝灭光谱和同步荧光光谱研究了L-半胱氨酸修饰的金纳米粒子(Cys-GNPs)与牛血清白蛋白(BSA)间的相互作用。根据荧光猝灭相关方程计算了Cys-GNPs与BSA相互作用的结合常数和结合位点数,探讨了其荧光猝灭机制为静态猝灭,并且根据热力学参数确定了二者间的作用力类型,推断出Cys-GNPs和BSA间主要靠疏水作用力结合。同步荧光光谱表明,二者的相互作用没有导致牛血清白蛋白的构象及色氨酸残基的微环境发生明显变化。     

Electrospun fluorescein/polymer composite nanofibers and their photoluminescent properties

Fluorescein/polyvinyl pyrrolidone (PVP) composite nanofibers with different fluorescein loadings (with a weight concentration of 0-5.0%) are fabricated via electrospinning. Morphologies, structures and photoluminescent (PL) properties of these straight, helical or wavelike fibers are characterized by scanning electron microscopy (SEM), fluorescence microscopy and a spectrophotometer. It is found that the maximum emission of the as-spun fluorescein/PVP fibers occurs at 510 nm. The PL intensity of the composite fiber increases with fluorescein concentration, then fluorescence quenching appears when the concentration reaches 1.67%. The mechanism of fluorescence quenching of fluorescein is discussed. In addition, the composite fibers exhibit a much stronger PL intensity than fluorescein/PVP bulk film owing to larger specific surface area, which makes them promising materials for biomedical applications such as probes and sensors.     

Quenched Emission of Fluorescence by Ligand Functionalized Gold Nanoparticles

A fluorescence-based detection scheme that uses ligand functionalized gold nanoparticles is proposed. The transduction scheme is based on the strong quenching of the fluorescence emission exerted by metallic surfaces on fluorophores positioned in their immediate vicinity (< 5 nm). Binding of fluorophore-labeled anti-biotin to biotinylated gold nanoparticles resulted in decreased fluorescence emission intensity. Subsequent competitive dissociation of labeled anti-biotin with D-biotin resulted in increased fluorescence emission intensity. These interactions occurred by means of specific molecular recognition because when the binding sites of anti-biotin were saturated with D-biotin prior to interaction with the gold nanoparticles; changes in the fluorescence emission intensity were not observed.     

Single-molecule measurements of gold-quenched quantum dots

We report the study of the quenching of quantum dots (CdSe) by gold nanoparticles at the single-molecule level. Double-stranded DNA is used as a rigid spacer to tune the distance between the two nanoparticles. The width of the fluorescent intensity distribution, monitored at different interparticle distances, reflects both the nanoparticle heterogeneity and the fluorescence intermittency of the quantum dot. The fluorescence distribution emitted by single CdSe nanocrystals can easily be distinguished from the fluorescence of partially quenched CdSe. Our results show that the distance-dependence quenching is compatible with a F?rster-type process.     

Determination of the binding constants of nanomarkers of the fluorescein family to human serum albumin

Using three models, the constant of quenching of fluorescence of nanomarkers of the fluorescein family and the actual constants of its binding to human serum albumin (HSA) at different values of pH are determined. The presence of two mechanisms of binding of nanomarkers of the fluorescein family to HSA and anti-cooperativity are shown. The dependence of the constants of the quenching fluorescence of nanomarkers on pH was found: for fluorescein this was nonlinear, for its halogen derivatives (erythsosine, eosin, and Rose Bengal) it was monotonous and decreased with an increase of pH. It is shown that the electronegativity of the atoms in the structural formulas of nanomarkers of the fluorescein family influences the values of the constants of binding of nanomarkers to HSA.     

Rhodamine B-Coated Gold Nanoparticles as Effective “Turn-on” Fluorescent Sensors for Detection of Zinc II Ions in Water

We designed a fluorescence resonance energy transfer system consisting of fluorophore Rhodamine B and gold nanoparticles for sensing of zinc ions in aqueous solution. The electrostatic attraction between positively charged N-atoms in Rhodamine molecules and negatively charged citrate corona of gold nanoparticles led to substantial fluorescence quenching. However, the quenching is switched off in the presence of zinc ions and therefore the system can be used as an effective “turn-on” fluorescence sensor. UV-Vis absorption, fluorescence spectroscopy, and transmission electron microscopy were used for sensor evaluation. The approach of “turn-on” fluorescence has real potential for sensing metallic ions in water.     

Fluorescence properties of a composite material based on the 5CB nematic liquid crystal with gold nanoparticles

The steady-state and time-resolved fluorescence spectra of n-pentyl-n′-cyanobiphenyl and a related composite material with gold nanoparticles in the liquid crystalline and solid states have been investigated. The introduction of gold nanoparticles into the liquid crystal leads to a noticeable quenching of fluorescence in the emission region of the predimer and excimer states of cyanobiphenyl. In the solid phase, a quenching of free excitons and a short-wavelength shift of fluorescence bands have been observed.