一种可以观测化学反应过程中物质形态的分析测试装置以及方法

本发明公开了一种可以观测化学反应过程中物质形态的分析测试装置以及方法，包括充满电解质溶液的液池、光学棱镜、镀金属载波片、激光发生器、信号接收器及计算机处理系统；液池底面设置载波片，其上表面设有金属薄膜，待测样品设置在金属薄膜上；光学棱镜固定设置在液池底部下表面处；激光发生器和信号接收器分别设置在光学棱镜两侧，液池内还设有电极和扫描器以及串连设置在扫描器和电极之间的电流表和电压表，扫描器的下端部固定连接有探针；计算机处理系统与信号接收器、电流表、电压表电气连接，本发明不仅能够在线监测物质的形貌特征，而且可以测试物质的厚度，具有结构简单，使用方便、检测灵敏度高等优点。     

基于共振能量转移的生物传感器在食品安全检测中的应用研究进展

共振能量转移(Resonance energy transfer,RET)是一种发生在供体和受体之间的非辐射能量转移过程。RET的能量转移效率对供体和受体间的距离变化非常敏感,可被用于开发新型的光学生物传感器。与传统光学生物传感器相比,基于RET的生物传感器无需洗涤及分离过量标记物等步骤,可大幅简化检测流程。因RET具有灵敏度高、操作简便及速度快等优点,近年来,在医学诊断、生命科学研究、环境监控以及食品安全检测等领域备受关注。该文根据能量供体的不同,将RET分为3种类型：荧光共振能量转移(Fluorescence resonance energy transfer,FRET)、生物发光共振能量转移(Bioluminescence resonance energy transfer,BRET)和化学发光共振能量转移(Chemiluminescence resonance energy transfer,CRET)。并分别对基于上述3种RET类型的生物传感器在食品安全检测中的应用研究进展进行了综述,同时对其应用前景和发展趋势进行了展望。     

银膜表面等离子体耦合辐射特性的仿真分析

表面等离子体耦合辐射(SPCE)是传统表面等离子体共振(SPR)的逆过程:当分子足够靠近金属薄膜表面时( < 200 nm),其受激辐射的能量可以耦合成SPR模式并定向辐射到棱镜中.由于具有场增强特性、高收集效率和优异的表面选择性, SPCE作为一种新的表面分析技术已经在荧光和拉曼光谱领域得到了有效的应用.本文采用光学互易定理简化传统SPCE的计算方法.通过计算,我们得到了SPCE一维和二维辐射功率密度分布,表面选择性,辐射角的波长色散特性,辐射角半峰宽与银膜厚度的关系.仿真结果与已报到的实验结果吻合良好,验证了该方法的有效性.     

荧光分光光度计的功能开发

固、液体吸收光谱测量的附件是由光阑、负透镜、全反射棱镜，吸收不也组成的光学系统，将它配置到进口荧光分光光度计上，可以扩展其功能，使其具有紫外分光光度计（ＵＶ）的功能，能够测量固体、液体样品的透射光谱和吸收光谱。     

固定光路可变焦宽调角表面等离子共振成像装置

设计了一种折反式棱镜耦合单元, 用于简化表面等离子共振系统的角度调节操作, 并基于此单元构建了固定光路可变焦宽调角表面等离子共振成像装置. 该装置通过旋转折反式棱镜耦合单元即可实现角度调节, 调节范围可达40°~80°, 结合1~2倍的变焦成像系统, 可对1~4 cm²传感芯片成像, 且可分辨至少3600 Point/cm². 以蔗糖溶液为研究对象, 考察了该装置的灵敏度, 结果表明其灵敏度可达7×10^-6 RIU(Refractive index unit), 共振角与折射率的线性相关系数为0.99953. 将该装置用于研究抗牛血清白蛋白抗体与其它蛋白的实时相互作用, 所得结果与理论相符. 该表面等离子共振成像装置将在实时并行分析方面具有广阔的应用前景.     

表面等离子体共振光谱技术与电化学方法联用及其应用

表面等离子体共振（Surface Plasmon Resonance,SPR）技术是利用金属薄膜光学耦合产生的物理光学现象建立的一种非常灵敏的光学分析手段. 近年发展的电化学表面等离子体共振（Electrochemical Surface Plasmon Resonance,EC-SPR）是将时间分辨表面等离子体共振光谱技术与电化学方法联用的一种新技术. 本文介绍了SPR和EC-SPR的基本原理,并重点阐述了时间分辨SPR光谱技术与电化学方法联用及应用,该技术已广泛地应用于反应动态过程研究、生物化学传感器、电极/溶液界面的表征、动力学常数的测定以及生物分子相互作用等领域.     

不同模式表面等离子体共振与其他分析检测技术联用

表面等离子体共振(Surface Plasmon Resonance,SPR)是利用金属与介质界面产生的一种光学现象所构建的分析技术,其在检测生物分子特异性结合方面具有免标记、高灵敏度和实时快速的特点.本文比较了常规SPR、成像SPR和SPR显微镜技术三种SPR模式的差异和应用,并着重对SPR与多通道流通体系(如微流控...     

二阶非线性光学聚氨酯对电光效应的共振增强

二阶非线性光学聚合物是最有希望实现在电光器件方面应用的材料之一.该类材料的非线性光学系数很高,响应速度快,与半导体材料的相容性较好,且比有机和无机晶体的制备更方便.目前所用的电光调制器多为光传输型,高光学活性的极化聚合物一般光学损耗较大,尤其是其吸收波段更大,使得调制器只能在其透明波段内使用,否则,传输型波导器件由于这种损耗将无法使用.     

金纳米棒的光学性质研究进展

金纳米棒在紫外-可见-近红外(UV-Vis-NIR)波段具有独特的可调节表面等离子体共振(SPR)光学特性,其良好的稳定性、低生物毒性、亮丽的色彩和在催化、信息存储、生物医学等领域广阔的应用前景受到相关研究领域的广泛关注.结合已有的研究基础,本文主要综述了金纳米棒光学性质的研究进展,包括表面等离子体共振、局域场增强效应、共振耦合效应及荧光特性,并对金纳米棒的应用做了展望.     

贵金属纳米材料的液相合成及其表面等离子体共振性质应用

金属中的表面等离子体共振是描述其导带电子在电磁场作用下集体振荡的一个物理概念.金属纳米颗粒由于其表面等离子体共振性质表现出独特的光学应用.本文在相关研究的基础上,综述了具备表面等离子体共振性质的不同形貌及多种复合结构的贵金属纳米材料的制备和应用,并对其发展及应用前景进行了展望.     

微囊藻毒素分子印迹传感器的制备与应用

以邻氨基酚为单体,微囊藻毒素(MC-LR)为模板,采用循环伏安法在金电极的表面电聚合成膜分子印迹材料,制备了传感器。采用安培法对MC-LR进行检测。在制备影响条件最佳值(pH=4.5;单体/模板=1.4×108∶1;洗脱时间10 min)的基础上,对该传感器的线性范围、使用寿命、选择性等进行了研究,并与液相色谱方法进行对比,结果表明:该传感器对MC-LR具有良好的选择性和灵敏度,线性范围为0.05～0.35 mg/L;加标回收率为80%～105%;检出限为7.3μg/L。与液相色谱方法对比,当置信度为99%时,无系统误差。     

桑色素分子印迹传感器的制备与应用

以邻氨基酚( o-AP)为功能单体,桑色素为模板分子,基于分子间的相互作用力,在金电极表面电聚合制备具有特异性识别孔穴的桑色素分子印迹传感器膜。采用循环伏安法( CV)、差分脉冲伏安法( DPV)等研究了分子印迹膜的性能和分子印迹效应。探索了聚合膜配比及聚合扫描圈数对传感器性能的影响,优化了洗脱时间和印迹时间。比较了此传感器对其结构相似物的选择性响应,发现其对桑色素检测具有良好的选择性。在最佳实验条件下,此传感器对桑色素浓度定量测定范围为0.05~1.70μmol/L,线性方程为I(μA)=1.0800lgc(mol/L)+9.3599, R=0.9934,检出限为0.01μmol/L。用此传感器测定黑茶样品中桑色素的含量,加标回收率为104.0%~108.0%。     

一种基于共振角度测量的无可动部件小型表面等离子体子共振化学传感装置

介绍了一种以线阵CCD为检测器，以单色硅发光二极管为光源，自行组装的以测定共振角度变化为基础的小型无可动部件的SPR传感装置的结构及原理；讨论了影响该传感器灵敏度、分辨率和线性范围的因素。该装置既可用于生物大分子检测，也可用于乙醇和磷酸二氢钾等小分子的检测，并获得了良好的线性和很宽的动态线性范围。     

Toluene chemiresistor sensor based on nano-porous toluene-imprinted polymer

In this work, the application of molecularly imprinted polymer (MIP) as the recognition element of a chemiresistor sensor was introduced. Toluene-imprinted polymer and non-imprinted polymer (NIP) were synthesized and then mixed with carbon black powder in the presence of melted n-eicosane as the binder agent. The obtained composites were applied for the construction of chemiresistor sensors. The sensor, fabricated with toluene-imprinted polymer, showed a significant response towards toluene. Moreover, the response of the NIP-based (polymer synthesized without solvent) chemiresistor sensor was very small and negligible. The components of the MIP-based sensing composite were found to strongly influence the sensor sensitivity. Response surface experimental design methodology was applied to optimize the important parameters of the proposed sensor. Cross-sensitivity of the MIP-based chemiresistor sensor for different vapours was investigated and a satisfactory result was found for toluene vapour recognition. It was shown that the sensor response to toluene concentration in air was linear in the concentration range of 3.8 to 46.4?ppm. The detection limit and relative standard deviation (for five separate determinations) of the designed sensor were calculated equal to 0.8?ppm and 5.6%, respectively.     

Bowl-shaped hollow N-doped carbon as an electrochemical platform for the highly selective and sensitive electrochemical detection of isoprenaline in pharmaceutical injection

In this study, bowl-shaped N-doped hollow carbon sphere-containing mesoporous nanomaterials (BNHC) were used for the ultrasensitive electrochemical detection of isoprenaline (ISOP). The linear ranges of the BNHC-based sensor were as follows: 0.05 – 15 μM; 15 – 70 μM, with the limit of detection (LOD) of 6.8 nM. And the BNHC-based electrochemical sensor showed a good current response to ISOP and maintained 95.6 % of the initial current after 30 days of storage. Notably, when the BNHC-modified sensor was used to detect the actual ISOP injection and urine samples, the sensor exhibited satisfactory recovery.     

Novel Sensing Assembly Comprising Engineered Gold Dendrites and MWCNT‐AuNPs Nanohybrid for Acetaminophen Detection in Human Urine

A layered nanohybrid comprising of multi walled carbon nanotubes(MWCNT)‐gold nanoparticles (AuNPs) has been designed as a matrix for the development of Au dendritic nanostructures (AuDN) with enhanced catalytic activity. The developed sensor matrix was thoroughly characterized by scanning electron microscope (SEM), transmission electron microscope (TEM), and energy dispersive X‐ray spectroscopy (EDX). The developed sensor probe MWCNT‐AuNPs/AuDN over glassy carbon electrode (GCE) was used for the label free detection of acetaminophen (AP), a commonly used drug associated with hepatotoxicity when overdosed, as a model molecule. The final sensor probe was characterized by cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), linear sweep voltammetry (LSV), and differential pulse voltammetry (DPV). The sensor shows excellent analytical performances with a linear dynamic range (LDR) of 100 to 7500 nM, and a low limit of detection (LOD) of 2.12 (±0.03) nM, which is better than recently reported AP sensors. The practical application / clinical possibilities of the final sensor were evaluated by real sample analysis in human urine by spike and recovery method, where the AP recoveries were found in between 92 % to 96 %. The sensor probe shows negligible response towards co‐existing interfering molecules like glucose, urea, uric acid and various amino acids, which are commonly found in real samples (p<0.001, n=3). The shelf life of the sensor probe was evaluated and found to be stable for 8 weeks. The fabricated sensor probe using MWCNT‐AuNPs/AuDN is easy to fabricate, simple, robust, and able to detect AP in urine with high recoveries shows its possibilities to be used in clinical settings.     

Bulk acoustic wave sensor using molecularly imprinted polymers as recognition elements for the determination of pyrimethamine

A new bulk acoustic wave (BAW) sensor modified with a molecularly imprinted polymer (MIP) was fabricated and applied for the determination of pyrimethamine. This sensor exhibited high selectivity and sensitive response to pyrimethamine. Factors such as pH and the amount of coating influencing sensor properties, were investigated in detail and optimized. The calibration curve was linear in the range 6.0x10(-7)-1.0x10(-4) M. The determination limit was 2.0x10(-7) M. In harsh chemical environments such as high temperature, organic solvents, bases, acids, etc., the sensor still exhibited long-term stability. The proposed method has been satisfactorily applied for the determination of pyrimethamine in serum and urine media.     

A study of a new TSM bio-mimetic sensor using a molecularly imprinted polymer coating and its application for the determination of nicotine in human serum and urine

A new bio-mimetic quartz crystal thickness-shear-mode (TSM) sensor, using an imprinted polymer coating as the sensitive material, has been fabricated and applied to the determination of nicotine (NIC) in human serum and urine. The molecularly imprinted polymer (MIP) was synthesized using NIC as the template molecule and methacrylic acid (MAA) as the functional monomer. The sensor showed high selectivity and a sensitive response to NIC in aqueous system. The linear response range of the sensor was between 5.0 x 10(-8) and 1.0 x 10(-4) M with a detection limit of 2.5 x 10(-8) M. The viscoelasticity of the coating in the air and in liquid has been studied by the impedance spectrum. The MIP sensor was stable and exhibited effective reproducibility. Satisfactory results were achieved in the detection of the real samples.     

3D石墨烯修饰的猛杀威分子印迹电化学传感器的制备

以猛杀威为模板分子、丙烯酰胺( AM)为功能单体、马来松香丙烯酸乙二醇酯( EGMRA)为交联剂、自制的3D石墨烯(3D-rGO)为增敏材料,在玻碳电极表面合成分子印迹聚合物,制备检测猛杀威的分子印迹电化学传感器。运用扫描电镜(SEM)对自制3D石墨烯的形貌进行了表征,通过循环伏安法(CV)、差分脉冲伏安法(DPV)和交流阻抗法(EIS)对猛杀威传感器的性能进行了研究。结果表明,猛杀威的浓度在8.0×10-8~8.0×10-6 mol/L范围内与响应电流值呈良好的线性关系,线性相关系数R=0.9954,检出限为7.3×10-8 mol/L (S/N=3),猛杀威分子印迹敏感膜的印迹因子β=3.88,且相对于3种结构类似物的选择因子α垌1,说明此传感器具有良好的选择性。将此传感器应用于生菜样品检测,加标回收率在96.7%~98.7%之间。     

盐酸环丙沙星分子印迹电化学传感器

本文将电化学合成与分子印迹技术相结合,采用循环伏安法在石墨电极表面,形成盐酸环丙沙星(CPX)分子印迹聚吡咯薄膜,制备了CPX分子印迹传感器。实验对传感器的制备条件进行了优化,用铁氰化钾作为活性电子探针,采用方波伏安法研究了传感器性能。结果表明,在1×10~(-8)~1×10~(-4)mol/L范围内,峰电流与CPX浓度负对数呈良好的线性关系,检出限(S/N=3)为3.5×10~(-9)mol/L。传感器对模板分子CPX选择性强,重现性和稳定性好,置于室温下15d峰电流强度无明显变化。