多组份高聚物体系多层形态观察的新方法:激光共聚焦荧光显微技术

介绍激光共聚焦 荧光显微技术的特 点及其在多组 份聚合物 的织态结 构，相聚集 过程及乳 胶膜形成过程等研究方面最近的应用     

半导体激光器的线宽压窄及频率连续调谐

我们利用共焦F—P腔光学弱反馈技术，实现了单模GaAlAs半导体激光器线宽压窄、频率锁定及连续调谐。其线宽从自由运转时的10MHz被压窄到45kHz，并可将频率锁定于共焦F—P腔。实验证明，在弱反馈情况下，激光器的频率连续调谐范围与共焦FP腔的光强反馈量近似成正比，实现了在铷原子D2线附近1．2GHz的频率连续调谐，     

Confocal Raman microscopy for simultaneous monitoring of partitioning and disordering of tricyclic antidepressants in phospholipid vesicle membranes

Characterization of drug–membrane interactions is important in order to understand the mechanisms of action of drugs and to design more effective drugs and delivery vehicles. Raman spectra provide compositional and conformational information of drugs and lipid membranes, respectively, allowing membrane disordering effects and drug partitioning to be assessed. Traditional Raman spectroscopy and other widely used bioanalytical techniques such as differential scanning calorimetry (DSC) and nuclear magnetic resonance (NMR) typically require high sample concentrations. Here, we describe how temperature‐controlled, optical‐trapping confocal Raman microscopy facilitates the analysis of drug–membrane interactions using micromolar concentrations of drug, while avoiding drug depletion from solution by working at even lower lipid concentrations. The potential for confocal Raman microscopy as an effective bioanalytical tool is illustrated using tricyclic antidepressants (TCAs), which are cationic amphiphilic molecules that bind to phospholipid membranes and influence lipid phase transitions. The interaction of these drugs with vesicle membranes of differing head‐group charge is investigated while varying the ring and side‐chain structure of the drug. Changes in membrane structure are observed in Raman bands that report intra‐ and intermolecular order versus temperature. The partitioning of drugs into the membrane can also be determined from the Raman scattering intensities. These results demonstrate the usefulness of confocal Raman microscopy for the analysis of drug–membrane systems at biologically relevant drug concentrations. Effective tools for monitoring drug–membrane interactions are crucial for rational design of new drugs. Copyright © 2009 John Wiley & Sons, Ltd.     

COIL非稳腔实验的数值模拟

在薄层增益近似与非均匀加宽饱和增益系数条件下,用C-7程序对COIL非稳腔实验进行了数值模拟,计算所得结果对分析实验结果有一定参考价值。     

基于彩色共焦的位移测量系统研究

为实现小型化、非接触式、快速高精度的位移测量,设计并搭建了基于光学彩色共焦原理的位移测量系统。系统中数据拟合采用的方法是,对光谱响应函数极值周围的数据进行高斯叠加拟合,以获得光谱响应曲线的峰值,从而得到峰值所对应的波长。经过实验验证,系统的测量范围为2mm,测量精度可以达到10μm,线性度为3.4%,光谱响应的半高宽(FWHM)为49nm。因此能够满足一定精度的位移测量需求。     

电位扫描过程中NAD+在银电极上的原位表面增强拉曼光谱

利用共焦激光拉曼系统,原位测定了电位扫描过程中NAD^ 分子在银电极上的表面增强拉曼光谱的变化.通过分析0.4→-0.2→-0.4V电位区间的拉曼光谱的变化,推断由于NAD^ 分子中存在着具有空间旋转自由度的磷酸二酯键,分子中腺嘌呤和烟酰胺两结构单元在银电极上的吸附构型都随电位变化而发生改变.     

Environment-Sensitive Fluorescence of 7-Nitrobenz-2-oxa-1,3-diazol-4-yl (NBD)-Labeled Ligands for Serotonin Receptors

Serotonin is a neurotransmitter that plays a crucial role in the regulation of several behavioral and cognitive functions by binding to a number of different serotonin receptors present on the cell surface. We report here the synthesis and characterization of several novel fluorescent analogs of serotonin in which the fluorescent NBD (7-nitrobenz-2-oxa-1,3-diazol-4-yl) group is covalently attached to serotonin. The fluorescent ligands compete with the serotonin_1A receptor specific radiolabeled agonist for binding to the receptor. Interestingly, these fluorescent ligands display a high environmental sensitivity of their fluorescence. Importantly, the human serotonin_1A receptor stably expressed in CHO-K1 cells could be specifically labeled with one of the fluorescent ligands with minimal nonspecific labeling. Interestingly, we show by spectral imaging that the NBD-labeled ligand exhibits a red edge excitation shift (REES) of 29 nm when bound to the receptor, implying that it is localized in a restricted microenvironment. Taken together, our results show that NBD-labeled serotonin analogs offer an attractive fluorescent approach for elucidating the molecular environment of the serotonin binding site in serotonin receptors. In view of the multiple roles played by the serotonergic systems in the central and peripheral nervous systems, these fluorescent ligands would be useful in future studies involving serotonin receptors.     

新型三维可调共聚焦激光诱导荧光检测器的研制与评价

共聚焦结构是激光诱导荧光检测器(LIFD)中使用最广泛的光路结构之一,增强光路系统同轴精度和降低系统杂散光是降低仪器基线噪声水平、提高其信噪比(S/N)的两种有效手段。采用精密三维反光镜调节架和模块化设计光路系统,研制了一种高效液相色谱用高精度共聚焦激光诱导荧光检测器,对异硫氰酸荧光素(fluorescein isothiocyanate, FITC)的检出限为1×10~12 mol/L。基线噪声与漂移较改进前降低了一个数量级,分别达到8.0×10~3 mV和1.4×10~3 mV/h,且稳定性好,5×10~9 mol/L FITC样品连续5次进样分析的峰面积和峰高相对标准偏差(RSD)均小于0.5%。进一步用FITC衍生化生物胺对研制的检测器进行评价,检出限(S/N=3)达到0.01～0.02 nmol/L。新研制的LIFD噪声低、稳定性好、灵敏度高,适用于生物、食品和环境样品中痕量物质的分析。     

A Platform for Preparation of Monodispersed Fluorescent Conjugated Polymer Microspheres with Core‐Shell Structures

A strategy to prepare stable monodispersed fluorescent microspheres is developed by modifying the Wessling method to synthesize poly(p‐phenylenevinylene) (PPV) on the surface of a highly crosslinked polymer core. The positively charged PPV polymer precursors (pre‐PPV) are adsorbed onto the core with negative charges on the surface and then the insoluble fluorescent PPVs form after thermal elimination. Each individual sphere is found to possess a very smooth surface with an even distribution of fluorescence by microscopic techniques. Very small coefficient of variance (CV) values of emission intensity (<4.0%) and size (<2.3%) are realized for microspheres prepared in the same batch. The spheres are demonstrated to have good thermal stability and photostability.     

Depth characterization by confocal raman microscopy of oxygen inhibition in free radical photopolymerization of acrylates: Contribution of the thiol chemistry

The oxygen inhibition of acrylate photopolymerization using visible light was depth characterized by confocal Raman microscopy. The sample thickness was found to influence the depth conversion profile. With increasing sample thickness, the conversion at the surface was increased and the oxygen‐affected layer (OAL) decreased, up to a limit where the profiles became independent of the thickness. The addition of a thiol in the acrylate mixture reduced the OAL and the conversion in this region increased. This effect was noticeable even at low concentration of thiol. Real‐time infrared spectroscopy (RT‐FTIR) experiments pointed out that for low thiol content, this beneficial effect is not only attributable to the thiol–ene process—oxygen insensitive—but also to the homopolymerization of acrylates which is enhanced. Homopolymerization and thiyl radical addition were found to have the same impact on the overall mechanism. © 2012 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2013