Solid-state electrochemiluminescence protein biosensor with aptamer substitution strategy

One solid-state electrochemiluminescence(ECL) protein biosensor based on the competing reaction and substitute reaction between protein-to-DNA aptamer and DNA-to-DNA aptamer was proposed.Additionally,the biosensor was based on ECL photo-quenching effect of ferrocene(Fc) to tris(2,2'-bipyridyl)ruthenium(II)(Ru(bpy)32+).It was built up by modification of Au nanoparticles(AuNPs) and Ru(bpy)3 2+ on one Au electrode firstly,and then self-assembly of one special double-stranded DNA(dsDNA) onto the electrode.This ...     

CdS纳米晶@碳点复合物膜的电致化学发光

采用热解柠檬酸法制备碳点(CDs),并将之与表面无包裹剂的CdS纳米晶(CdS NCs)超声复合制备CdS纳米晶@碳点(CdS NCs@CDs)复合物。研究了复合物膜阴极电致化学发光(ECL),探讨了CDs对CdS纳米晶膜ECL增强的机理。CDs分散性良好、尺寸在1.5~4 nm之间;与粒径约为4 nm的CdS纳米晶按体积比2∶3复合后,在360 nm光激发下复合物具有最强的荧光发射且表现为CDs的荧光。同时,复合物膜产生归属于激发态CdS纳米晶的最强的ECL发射,且ECL发光峰起置电势正移至-1.05 V。复合物膜的ECL发射是pH依赖的,在pH值为6时,复合物膜具有最大的ECL强度,为CdS纳米晶膜ECL强度的19倍。这种ECL增强源于CDs能束缚大量电子产生局域电场从而促进近邻CdS纳米晶激发态的形成与弛豫。     

A novel tris(2,2′-bipyridine)ruthenium(II)/tripropylamine cathodic electrochemiluminescence in acetonitrile for the indirect determination of hydrogen peroxide

A novel tris(2,2′-bipyridine)ruthenium(II) (Ru(bpy)₃²⁺) cathodic electrochemiluminescence (ECL) was generated at −0.78 V at the Pt electrode in acetonitrile (ACN), which suggested that the cathodic ECL differed from conventional cathodic ECL. It was found that tripropylamine (TPrA) could enhance this cathodic ECL and the linear range (log-log plot) was 0.2 μM-0.2 mM. In addition, hydrogen peroxide (H₂O₂) could inhibit the cathodic ECL and was indirectly detected with the linear range of 27-540 μM. The RSD (n = 12) of the ECL intensity in the presence of 135 μM H₂O₂ was 0.87%. This method was also demonstrated for the fast determination of H₂O₂ in disinfectant sample and satisfactory results were obtained.     

多壁纳米碳管/二氧化硅复合膜中的联吡啶钌电化学发光法测定氧氟沙星的研究与应用

基于氧氟沙星对联吡啶钌(Ru(bpy)_3~(2+))电化学发光的增敏作用,建立了一种以多壁纳米碳管(MWCNTs)/二氧化硅-联吡啶钌复合物修饰的玻碳电极电化学发光检测氧氟沙星的新方法.利用溶胶-凝胶(sol-gel)固定化稳定的优点和纳米碳管的电催化作用,提高了传感器的电流响应.在最佳实验条件下,氧氟沙星浓度在4.0×10~(-6) ～1.0×10~(-4) mol/L范围内与相对发光强度呈线性关系(r~2=0.994 8),检出限(S/N=3)为2.0×10~(-6) mol/L.连续平行测定2.4×10~(-5) mol/L的氧氟沙星溶液 5次,发光强度的RSD为1.8%.     

Electrochemiluminescence Behavior of Ru(bpy)32+/Carbofuran System on an Electrically Heated Microelectrode Chip

An electrically heated microelectrode chip (HMEC) was designed and the Ru(bpy)₃²⁺/carbofuran electrochemiluminescence (ECL) systems were applied to characterize the performance of the HMEC. The ECL intensities increase at elevated electrode temperature, and the detection limit at 60°C (electrode surface temperature) was about 10 times lower than that at 30°C. The results indicate that new heated electrode can be handled easily and can be mass produced, the difference between the electrodes was little. The stability of the HMEC was good since the electrode surface can hardly be destroyed during detection and storage.     

Electrochemiluminescence Single-cell Analysis on Nanostructured Interface

Due to the heterogeneity of single cells, the development of single-cell analysis methods is conducive to the research of cellular mechanisms, clinical diagnosis, and treatment. Electrochemiluminescence (ECL) has the advantage of being controllable in time and space. Compared with spectroscopy, ECL does not require a light source, thus avoiding the interference of scattered light and luminescent impurities. Therefore, ECL is playing an increasingly important role in the field of single-cell analysis. In ECL single-cell analysis, it is important to construct a suitable nanostructure interface to realize signal conversion. This review first briefly introduced the ECL system commonly used in single-cell analysis, then focused on the recent developments in ECL single-cell analysis on nanostructure interface, finally discussed the future challenges and outlooks of ECL single-cell analysis.     

构建新型固相电致化学发光传感界面用于检测三丙胺

通过静电作用将带正电的Ru(bpy)23+和带负电的纳米铂制备成铂钌纳米复合物(Ru-PtNPs),并将其滴涂在Nafion分散的多壁碳纳米管(MWCNTs-Nafion)复合膜修饰的玻碳电极上,制备了一种新的基于联吡啶钌的固相电致化学发光(ECL)传感器。利用扫描电镜以及电致化学发光的方法对传感界面进行表征。实验结果表明,通过此种方式可将大量的发光试剂Ru(bpy)23+固载到电极表面,并对三丙胺(TPA)保持良好的电催化活性,Ru-PtNPs/MWCNTs-Nafion修饰电极在0.1 mol.L-1磷酸盐缓冲溶液(PBS,pH 7.4)中对TPA的响应有很好的灵敏度和稳定性,线性范围为6.67×10-7～1.00×10-3mol·L-1,检出限(S/N=3)为3.3×10-7 mol·L-1。     

直接进样电喷雾离子阱质谱法对含硫三联吡啶衍生物的研究

采用电喷雾电离质谱通过直接进样方式对合成的3个含硫的三联吡啶配体及2个钌配合物进行分析,详细研究了其在电喷雾条件下的质谱行为。结果表明,含有芳硫基和苄硫基的三联吡啶配体在电喷雾过程中采取了不同的断裂方式,前者首先从与芳硫键相连的碳硫键断裂失去不含硫的部分碎片离子,而后者则从苄基碳硫键断裂失去含硫的部分碎片离子。两类配体与钌形成的配合物均具有较稳定的结构,不易发生多级质谱断裂。通过对配合物分子离子峰和同位素峰的分析讨论,确定了含硫的三联吡啶合钌配合物的结构。这一研究结果表明电喷雾多级串联质谱适合于含硫三联吡啶类配体及其钌配合物的结构研究,方法简便高效、准确可靠,为该类化合物的结构研究提供了参考。     

Simultaneous determination of methylephedrine and pseudoephedrine in human urine by CE with electrochemiluminescence detection and its application to pharmacokeinetics

A novel method for the determination of ephedra alkaloids (methylephedrine and pseudoephedrine) was developed by electrophoresis capillary (CE) separation and electrochemiluminesence detection (ECL). The use of ionic liquid (1‐butyl‐3‐methylimidazolium tetrafluoroborate, BMIMBF₄) improved the detection sensitivity markedly. The conditions for CE separation, ECL detection and effect of ionic liquid were investigated in detail. The two ephedra alkaloids with very similar structures were well separated and detected under the optimum conditions. The limits of detection (signal‐to‐noise ratio = 3) in standard solution were 1.8 × 10^–8 mol/L for methylephedrine (ME) and 9.2 × 10^–9 mol/L for pseudoephedrine (PSE). The limits of quantitation (signal‐to‐noise ratio = 10) in human urine samples were 2.6 × 10^?7 mol/L for ME and 3.6 × 10^–7 mol/L for PSE. The recoveries of two alkaloids at three different concentration levels in human urine samples were between 81.7 and 105.0%. The proposed method was successfully applied to the determination of ME and PSE in human urine and the monitoring of pharmacokinetics for PSE. The proposed method has potential in therapeutic drug monitoring and clinical analysis. Copyright © 2009 John Wiley & Sons, Ltd.     

基于聚合物点的电致化学发光生物传感器用于葡萄糖检测

羧基功能化的聚[(9,9-二辛基芴基-2,7-二基)-co-(1,4-苯并-{2,1′,3}-噻二唑)]聚合物点(PFBT-COOH)在无外加共反应试剂的条件下具有高的电致化学发光(ECL)信号,且过氧化氢(H_2O_2)对其ECL具有高效猝灭作用。采用PFBT-COOH修饰玻碳电极,进一步交联葡萄糖氧化酶(GOD)以构建酶传感器(GOD/PFBT-COOH/GCE)。随着检测底液中葡萄糖浓度的增加,葡萄糖在GOD催化下原位产生的H_2O_2量增加,导致传感器的ECL信号逐渐减弱,从而实现葡萄糖的准确、快速、灵敏检测。此方法测得葡萄糖的线性范围为1.0×10~(-7)～3.0×10~(-3) mol/L,检出限为3.0×10~(-8) mol/L。血清样品中葡萄糖的加标回收率为98.5%～106%。该策略为酶传感器的构建提供了新思路,为葡萄糖的检测提供了新方法。