甲基橙溶液的pH值对纳米银荧光增强效应的影响

研究了甲基橙溶液的pH对纳米银荧光增强效应的影响.当pH 1.5和2.1时,纳米银对溶液的吸收光谱影响甚小.当pH 3.1时,吸收峰蓝移26 nm,且强度明显降低.当pH值在3.8～8.2范围时,不仅吸收峰蓝移而且在426～456 nm出现宽吸收带.在任何pH值的甲基橙溶液中加入纳米银,S2→S0跃迁荧光发射带强度下降,但下降比率受pH值影响不大;S1→S0跃迁荧光发射带强度增强,其增强比率受pH值影响较大.当pH 2.1时,荧光增强比率最大;当pH 4.8时,荧光增强比率最小.分析认为,pH值对甲基橙溶液光谱性质的影响与不同pH值条件下甲基橙分子结构的改变以及分子在纳米银粒子表面不同的吸附方式、介质环境等因素相关,尤其与甲基橙分子与纳米银粒子间的距离密切相关.     

纳米银粒子的发光特性研究

研究了不同粒径和表面修饰的纳米银粒子的发光特性。研究结果表明,在不同波长光激发下,纳米银粒子在362 nm附近出现较强的发射峰,592和725 nm附近出现较弱的发射峰。随着激发光波长增加,发射峰强度下降,362 nm附近的发射峰红移。纳米银颗粒对210 nm的激发光最为敏感。发射峰波长与纳米银粒子表面修饰状态和颗粒尺寸关系不大,只是随着颗粒尺寸的减小,发射峰强度下降。随着狭缝宽度的减小,发射峰强度下降。随着纳米银胶浓度减少,发射峰逐渐聚拢合并为426 nm的单峰,且发射峰的强度先增强后逐渐下降。通过纳米银粒子表面光电子的吸收-再发射和表面能级杂化探讨了纳米银粒子的发光机理。     

纳米银与表面吸附荧光素的荧光性能的影响

研究了纳米银粒子对表面吸附荧光素(fluorescein,Fl)的荧光性能的影响。Fl溶液中加入纳米银粒子,Fl分子包覆在纳米银粒子表面形成Fl_n-Ag复合物使纳米银相互桥连形成类似网络的结构,且Fl分子吸收峰随着纳米银浓度的增加发生红移。纳米银通过产生的强局域场将能量传输给Fl发光中心,实现了Fl的荧光增强,荧光增强效率随着纳米银浓度的增加具有最大值。较大粒径的纳米银使Fl获得最大荧光增强效率所需浓度较低且最大荧光增强效率值较高。研究结果表明,纳米银与Fl间的能量传输主要由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所决定并与纳米银的浓度、尺寸密切相关。     

一种具有较强表面增强拉曼散射效应的纳米银的特性

对一种具有较强表面增强拉曼散射效应的纳米银 ,进行了透射式电镜、吸收谱及稳定性测定 ,发现按同一方法在不同时间制备的胶态纳米银粒度分布均匀 ,粒径均为 5nm ,吸收谱除在 43 0nm处有一吸收峰外 ,在 2 1 0nm处还有一尖锐的吸收峰 ,室温下放置 7个月后仍具有较强的SERS活性。     

KCl对含有纳米银的[Ru(bpy)3]2+荧光性能影响

通过吸收光谱、荧光光谱等手段研究了KCl对含有纳米银的金属钌联吡啶配合物([Ru(bpy)3]2 )的荧光性能的影响.结果表明,KCl与纳米银粒子间存在较强的相互作用,这种强的相互作用破坏了[Ru(bpy)3]2 与纳米银粒子间的链状网络结构,形成大颗粒和团聚体.同时,在吸收光谱的长波段处观察到明显的新的吸收带,随着KCl量的增加,新吸收带峰值逐渐红移并展宽.随着KCl量的增加,[Ru(bpy)3]2 荧光强度先猝灭而后逐渐增强,直至达到一个定值.文章从分子间的相互作用、能量传递等方面探讨了KCl对含有纳米银的[Ru(bpy)3]2 荧光性能影响机理.     

纳米银粒子增强铕(Ⅲ)配合物荧光对鸭蛋蛋清中强力霉素残留量的检测

强力霉素能与铕(Ⅲ)相互作用生成EuDC配合物并发射出铕(Ⅲ)的荧光特征峰,且该荧光峰能够通过纳米银粒子的金属增强荧光效应得到进一步增强。本文将这一方法应用于鸭蛋蛋清中强力霉素残留量的检测。首先,利用三维荧光光谱法确定了检测鸭蛋蛋清中强力霉素残留量的最佳激发波长和最佳发射波长分别为390 nm和617 nm。然后,在最佳激发波长下,通过单因素实验确定了实验的最佳条件。最后,通过对浓度范围为0.5~30 mg/L的样本进行分析,发现鸭蛋蛋清中强力霉素的浓度与荧光强度呈现良好的线性关系,并得到检测限为0.5 mg/L。研究结果表明,通过纳米银粒子增强铕(Ⅲ)的荧光可以实现鸭蛋蛋清中强力霉素的快速检测。     

藻蓝蛋白原位还原Ag(Ⅰ)与纳米Ag(0)形成动态过程的谱学研究

在4℃避光条件下,将藻蓝蛋白(简称PC)与AgNO3作用,通过UV,FS,FTIR等谱学方法研究了PC与Ag(工)原位还原与纳米Ag(0)粒子形成的动态过程.结果显示:PC在615 nm的特征吸收峰强度明显减弱,并随Ag(Ⅰ)浓度增加和时间延长单调降低;PC的荧光发射峰和荧光激发峰也均呈现衰减趋势.同步荧光光谱观察到纳米Ag(0)粒子形成的动态过程.用TEM观察到所形成的Ag(0)分散于PC表面,形成PC为核,纳米银为壳部分包覆的生物缀合物,粒子呈球形,有较窄的分布尺寸,粒径在15～30 nm之间.     

光照法在玻璃基底上原位生长金纳米结构及其光谱性质

 以硅烷化后吸附粒径小于10 nm的金种子的玻璃片为基底,聚乙烯吡咯烷酮为还原剂,在荧光灯照射条件下还原氯金酸,制备出表面具有金纳米粒子聚集结构的基底。用原子力显微镜、扫描电镜、X射线衍射、吸收和荧光光谱研究了基底的性质。结果表明：随着光照时间增加至20 h,金种子长大为平均粒径140 nm的不规则状多晶粒子,且出现双层粒子堆叠。基底的吸收光谱上出现了由金粒子的表面等离子体激元偶极子耦合引发的强烈吸收峰,随着粒子粒径增大,耦合峰在600~800 nm波段内连续红移升高,表明耦合程度不断增强。在223 nm紫外光的激发下,基底的荧光光谱上在405 nm处出现发射峰,是由金粒子表面激发电子和空穴的复合辐射造成的,发光强度随着基底上粒子平均尺度增加而减弱。     

Ga(Ⅲ)与EHPG配合反应的光谱研究

在0.1mol/L pH 7.2,Tris-HCl缓冲溶液和室温条件下,用荧光光谱和紫外差光谱研究了Ga3 与N,N'-乙烯-二[2-(2-羟基苯基)甘氨酸](EHPG)的配合反应.结果表明:Ga3 与EHPG的配位比为1/1.随着Ga3 的不断滴加,EHPG的荧光光谱在310nm处的最大荧光峰强度逐渐降低,其紫外差光谱在240nm和293nm处的吸收峰逐渐增强.当Ga3 达到一定量时,310nm处的荧光强度、紫外光谱中240nm和293nm处的吸收峰强度不再发生变化.通过计算可得:在240nm处配合物Ga-EHPG的摩尔吸光系数为ε=5.41×103 L·mol-1·cm-1,条件稳定常数为lgKGa-EHPG=22.83.     

表面荧光机制的理论研究

本文研究了 Rh B分子的 539.0 nm和 572 .5nm两荧光峰在表面增强活性银胶颗粒表面上的增强和淬灭效应 :在同一分子体系中同时观察到 530 .0 nm荧光峰的增强和 572 .5nm荧光峰的淬灭 ,并对其进行了理论计算。结果表明这两个荧光峰的增强或淬灭主要取决于局域电磁场增强和分子到金属表面无辐射能量转移衰减过程的竞争效应。当满足吸收共振增强和辐射共振增强时 ,荧光被增强 ;反之 ,荧光被淬灭。计算表明 ,荧光增强因子最高为 1     

Fluorescent silver nanoparticles via exploding wire technique

Aqueous solution containing spherical silver nanoparticles of 20–80 nm size have been generated using a newly developed novel electro-exploding wire (EEW) technique where thin silver wires have been exploded in double distilled water. Structural properties of the resulted nanoparticles have been studied by means of X-ray diffractometer (XRD) and transmission electron microscopy (TEM). The absorption spectrum of the aqueous solution of silver nanoparticles showed the appearance of a broad surface plasmon resonance (SPR) peak centered at a wavelength of 390 nm. The theoretically generated SPR peak seems to be in good agreement with the experimental one. Strong green fluorescence emission was observed from the water-suspended silver nanoparticles excited with light of wavelengths 340, 360 and 390 nm. The fluorescence of silver nanoparticles could be due to the excitation of the surface plasmon coherent electronic motion with the small size effect and the surface effect considerations     

Singlet Oxygen Generation Enhanced by Silver-Pectin Nanoparticles

We demonstrate the potential application of silver-pectin nanoparticles on photodynamic therapy, on a solution-base platform. Photodynamic therapy is a medical technique which uses a combination of photosensitizing drugs and light to induce selective damage on the target tissue, by electronically excited and highly reactive singlet state of oxygen. Metal enhanced singlet oxygen generation in riboflavin water solution with silver-pectin nanoparticles was observed and quantified. Here 13 nm silver nanospheres enclosed by a pectin layer were synthesized and it interaction with riboflavin molecule was analyzed. Pectin, a complex carbohydrate found in plants primary cell walls, was used to increase the biocompatibility of the silver nanoparticles and to improve metal enhanced singlet oxygen generation (28.5 %) and metal-enhanced fluorescence (30.7 %) processes at room temperature. The singlet oxygen sensor fluorescent green reagent was used to quantify the enhancement of the riboflavin singlet oxygen production induced by the silver colloid. We report a 1.7-fold increase of riboflavin emission and a 1.8-fold enhancement of singlet oxygen production.     

基于荧光光谱技术的大肠杆菌活性及灭菌效应研究

在食品和环境监测中,大肠杆菌是一个重要指标细菌,因此,对大肠杆菌的监测和灭菌效果也引起了人们广泛的关注。基于荧光光谱检测技术具有的灵敏度高、速度快、稳定性强等优点,利用荧光光谱技术研究了大肠杆菌的发射峰强度与大肠杆菌浓度的内在变化规律,得到了一种更加方便、快捷、监测浓度更低的大肠杆菌计数方法。采用289 nm的激发光照射大肠杆菌水溶液,得到大肠杆菌的荧光发射光谱;改变大肠杆菌溶液的浓度,得到不同浓度大肠杆菌溶液的荧光光谱,并分析大肠杆菌特征峰强度与大肠杆菌浓度的关系。在此基础上,利用荧光光谱技术研究了银纳米颗粒对大肠杆菌荧光发射的影响,分析了银纳米颗粒对大肠杆菌的灭菌效果,结果表明：(1)当289 nm的激发光照射大肠杆菌水溶液时,大肠杆菌分别在332和425 nm两处有明显的荧光特征峰;荧光特征峰强度随着大肠杆菌浓度降低而降低;当大肠杆菌浓度小于20%时,332和425 nm处特征峰强度与大肠杆菌溶液的浓度均呈线性关系。(2)当大肠杆菌水溶液中加入银纳米颗粒时,在4个小时内,银纳米颗粒的作用时间越长,大肠杆菌的荧光特征峰越弱,即灭菌率越高;增加银纳米颗粒的浓度或者提高环境温度,均可提高银纳米颗粒对大肠杆菌的灭菌率。本文的研究结果对食品、环境等中大肠杆菌的计数和灭菌研究有参考意义。     

绿色合成银纳米粒子及其在SERS中的应用

采用无毒、绿色的酪氨酸作为还原剂和稳定剂,在碱性条件下还原硝酸银,经60 ℃恒温水浴处理20 min,成功地合成了银纳米粒子。混合溶液颜色由淡黄色变为棕黄色直观地呈现了银纳米粒子的生成。利用紫外可见吸收光谱(UV-Vis)和透射电子显微镜(TEM)对制备样品进行分析和表征。粒子的UV-Vis吸收在412 nm附近。TEM图像显示,银纳米粒子的形状近似球形,粒子直径在15～25 nm。分别以结晶紫(CV)和叶酸(FA)为探测分子,进一步研究了该银纳米粒子的表面增强拉曼散射(SERS)效应。实验结果表明,该合成方法不仅方便、快速、绿色环保,而且合成的银纳米粒子对CV和FA分子有很好的SERS效应。     

Synthesis of copper nanoparticles catalyzed by pre-formed silver nanoparticles

Synthesis of well dispersed copper nanoparticles was achieved by reduction of copper nitrate in aqueous solution using hydrazine monohydrate as a reducer in the presence of preformed silver nanoparticles as catalysts. It has been demonstrated that addition of silver nanoparticles to the reaction mixture leads to formation of aqueous dispersion of copper nanoparticles and also results in a drastic reduction in reaction time compared to procedures reported in the literature. The absorption spectrum of the dispersions, HR-TEM and STEM images and XRD pattern indicate the formation of copper nanoparticles with particle size in the range of 5–50 nm.     

Phytosynthesis of Silver Nanoparticles Using Andrographis paniculata Leaf Extract and Evaluation of Their Antibacterial Activities

Use of nanotechnology in biological systems by the synthesis of metallic nanoparticles is a burning area of research in recent times. In the present investigation, aqueous extract of Andrographis paniculata was used to produce silver nanoparticles by reduction of silver nitrate. It was noted that the synthesizing process was quite rapid and silver nanoparticles form within minutes of silver ions coming in contact with plant extract. UV-Vis spectrum of the aqueous medium containing silver ions indicated a peak at 432 nm corresponding to the plasmon absorbance of the silver nanoparticles. Fourier transform infrared spectroscopic analysis of the silver nanoparticles showed the presence of proteins that might be acting as capping agents around the nanoparticles. From scanning electron microscopy analysis, the size of the silver nanoparticles was measured and it was found that the average size was between 40 and 60 nm. Furthermore, the antibacterial activity of synthesized silver nanoparticles exhibited effective inhibition zones against seven bacterial strains tested. Among the bacteria tested Pseudomonas aeruginosa was found to be most susceptible to the silver nanoparticles. Phytochemical screening of the plant extract indicated the presence of alkaloids, flavonoids, amino acids, saponins, tannins, and terpenoids.     

Electrochemical method for the synthesis of silver nanoparticles

The article deals with a novel electrochemical method of preparing long-lived silver nanoparticles suspended in aqueous solution as well as silver powders. The method does not involve the use of any chemical stabilising agents. The morphology of the silver nanoparticles obtained was studied using transmission electron microscopy, scanning electron microscopy, atomic force microscopy and dynamic light scattering measurements. Silver nanoparticles suspended in water solution that were produced by the present technique are nearly spherical and their size distribution lies in the range of 2 to 20 nm, the average size being about 7 nm. Silver nanoparticles synthesised by the proposed method were sufficiently stable for more than 7 years even under ambient conditions. Silver crystal growth on the surface of the cathode in the electrochemical process used was shown to result in micron-sized structures consisting of agglomerated silver nanoparticles with the sizes below 40 nm.     

Formation of CdS nanoparticles using starch as capping agent

CdS nanoparticles have been synthesized using starch as capping agent in aqueous solution. The morphology and crystalline structure of such samples were measured by high-resolution transmission electron microscopy and X-ray diffraction, respectively. The average grain size of the nanoparticles determined by these techniques was of the order of 5 nm. Photoluminescence of CdS nanoparticles shows a strong emission peak below to the band gap bulk semiconductor attributed to center trap states, also the broadening peak was interpreted in terms of electron-phonon interaction.     

核黄素/银溶胶体系的吸收光谱和表面增强共振喇曼光谱

利用可见紫外吸收光谱和表面增强共振喇曼散射光谱(SERRS)研究了核黄素和银胶颗粒的相互作用。不仅有效地淬灭了黄素发色团的荧光干扰,而且还使其喇曼散射得到显著增强。对SERRS进行了分析和指认,SERRS结果揭示出,黄素发色团与银胶颗粒相互作用所形成的络合物,不同于与银离子所形成的络合物。利用这一方法还得到1000cm^-1以下的喇曼带,这些带多与发色团的环呼吸振动和C—H面外变型振动有关。 关键词：