基于新型多孔TiO2复合CdS量子点的电化学发光传感器用于检测铜离子

以金属有机骨架MIL-125(Ti)作为前驱体,通过高温煅烧制备了一种新型多孔二氧化钛(P-TiO2),然后以聚乙烯亚胺(PEI)作为交联剂,通过酰胺键将3-巯基丙酸稳定的硫化镉量子点(CdS QDs)负载于P-TiO2表面,制备了P-TiO2/CdS QDs复合材料,用于修饰玻碳电极,构建了一种灵敏的电化学发光(EC...     

量子点CdS电化学发光传感器对DNA损伤研究

研制了用于研究DNA损伤的电化学发光传感器。在0.1 mol/L CdCl2和0.02 mol/L Na2S2O3(0.1mol/L HCl调节至pH 2～3,50℃)溶液中,采用循环伏安法(CV)在玻碳电极表面原位沉积硫化镉纳米晶,构建了硫化镉纳米晶修饰的电极界面(CdS QDs/GCE);以半胱氨酸为连接剂,利用羧氨键(CONH)将氨基修饰的短链DNA组装到CdS表面(DNA/CdS QDs/GCE)。以H2O2为共反应剂,利用电化学发光方法研究了全氟辛烷磺酸对DNA的损伤。结果表明,全氟辛烷磺酸温浴后的双链DNA修饰硫化镉的电化学发光信号强度介于单链和双链DNA之间,且随着全氟辛烷磺酸浓度的增加,电化学发光信号值变大,同时电化学阻抗曲线显示全氟辛烷磺酸致电极界面的电子传递性能降低。可以推测,PFOS可能导致DNA链的扭曲或断裂。     

基于L-半胱氨酸/CdTe量子点修饰电极的电化学传感器的制备及其对Pb~(2+)的检测

成功制备了由L-半胱氨酸和CdTe量子点作为修饰材料的电化学传感器并用于水体中Pb~(2+)的检测。巯基丙酸修饰的CdTe量子点通过水相合成,表面含有大量羧基,与L-半胱氨酸表面的氨基形成酰胺键,修饰于金电极表面。通过荧光分光光度计、透射电子显微镜、红外光谱、X射线衍射对L-Cys/CdTe QDs复合材料进行表征。采用循环伏安法(CV)研究了L-Cys/CdTe QDs修饰成分在金电极上的电化学性能及CdTe量子点的最佳自组装时间。采用差分脉冲溶出伏安法(DPSV)研究了铅离子在修饰电极上的电化学行为。在优化实验条件下,Pb~(2+)浓度在1.0×10~(-6)~1.0×10~(-2) mol/L范围内与其峰电流呈良好的线性关系,相关系数(r2)为0.993 8,检出限(3σ,n=5)为4.0×10~(-7) mol/L。该传感器具有良好的重现性和稳定性,有望用于实际水样中铅离子的检测。     

基于氮掺杂石墨烯量子点/硫化镉纳米晶电化学发光传感器检测硫化氢

以柠檬酸和氨水为原料,用水热法制备了氮掺杂石墨烯量子点(NGQDs),与硫化镉纳米晶(CdS NCs)复合,构建了固态电化学发光(ECL)传感器,用于硫化氢(H₂S)的检测。采用紫外-可见吸收光谱和荧光光谱对NGQDs和CdS NCs进行了表征,同时对传感器的ECL和电化学行为进行了系统研究。结果表明,以H₂O₂为CdS NCs的共反应试剂时,NGQDs可增强CdS NCs的ECL信号,并且NGQDs/CdS NCs的稳定性增加。H₂S存在下,S^2-与过量的Cd²⁺发生键合作用,ECL值降低。在最优条件下, ECL变化值与H₂S浓度(2.0×10^-10～2.0×10^-5 mol/L)的对数呈良好的线性关系,检出限为6.7×10^-11 mol/L。采用本传感器测定血清中H₂S浓度,加标回收率为92.7%～103.8%。     

量子点电化学发光研究进展及展望

电化学发光因具有低背景、高灵敏度的优势已成为当前最先进的体外诊断技术之一.以三联吡啶钌为代表的分子型电化学发光体系虽然实现了商业化应用,但其光学性质已无法满足电化学发光分析的发展需求.量子点作为新一代的理想发光材料在电化学发光领域表现出巨大的应用前景.然而,由于对量子点电化学发光的过程和机理研究尚不充分,目前量子点电化学发光的各项性能均有待提升.本文聚焦于量子点电化学发光领域的关键科学问题,在总结该领域重要研究进展的基础上,指出光谱学、合成化学及电分析化学等多领域学科交叉是未来量子点电化学发光研究的重要发展方向.     

CdSe量子点修饰电极电化学发光法测定叶酸

制备了水溶性的CdSe量子点,用紫外光谱和荧光光谱对其进行了表征.并将其修饰到金电极的表面,得到了CdSe量子点修饰电极(CdSe/GE),研究了其电化学发光性质.结果表明:在强碱介质中,CdSe/GE对鲁米诺电化学发光具有增敏作用,在此发光体系中加入叶酸后,会产生进一步增强的电化学发光信号,由此建立了电化学发光检测叶酸的新方法.考察了缓冲溶液pH值、鲁米诺的浓度和扫速等条件对电化学发光强度的影响.在优化的实验条件下,叶酸在1×10~(-13)~1.1×10~(-4) mol/L浓度范围内与相对发光强度(ΔI)呈现良好的线性关系,检测限为6.0×10~(-14) mol/L(S/N=3),并用于市售叶酸片剂中叶酸的测定,得到令人满意的实验结果.     

L-半胱氨酸修饰的水溶性ZnS:Mn量子点的合成及其荧光性质

以L-半胱氨酸(L-Cys)为修饰剂,采用共沉淀法在水溶液中合成了水溶性L-Cys修饰的ZnS:Mn量子点(1),其结构经IR和XRD表征。利用UV和荧光发射光谱研究了1的光学性质,结果表明:1为立方闪锌矿结构;与体相ZnS的吸收相比(340 nm),1的吸收蓝移;1具有独特的荧光性质,ZnS的特征发射峰为390 nm,Mn2+的特征发射峰为581 nm。     

基于银纳米粒子-CdTe量子点复合物荧光探针检测水样和血清中L-半胱氨酸

利用无荧光的碳量子点-银纳米颗粒(CQDs-AgNPs)中Ag+与CdTeQDs表面S2-的强亲和作用,通过S-Ag键形成弱荧光的CQDs-AgNPs/CdTe QDs纳米复合物探针.L-半胱氨酸(L-Cys)中-S-与复合物探针中Ag+竞争络合,可使CdTe QDs的荧光恢复,基于L-Cys对复合物探针的荧光恢复作用...     

表面富S2-的CdS量子点的合成及其与甲硝唑的作用

在冰水浴条件下,用柠檬酸三钠和六偏磷酸钠为稳定剂,通过控制较低浓度的氯化镉溶液和硫化钠溶液缓慢反应,合成了荧光稳定性好、表面富硫的水溶性CdS量子点。利用荧光光谱、紫外-可见吸收光谱和共振光散射光谱研究了CdS量子点与甲硝唑相互作用的光谱行为,发现甲硝唑与CdS富硫表面的过量S2-的结合引起量子点的荧光猝灭效应,甲硝唑对CdS荧光量子点的荧光猝灭为静态猝灭,它们主要以静电引力结合。     

基于表面富Cd2+的硫化镉量子点荧光增强测定半胱氨酸

采用一步法可控合成了表面富Cd2+的水溶性荧光硫化镉量子点,并成功用于半胱氨酸测定.通过控制镉-硫前驱体合适比例,使合成的量子点表面富含Cd2+,它们能与半胱氨酸分子中巯基结合引起体系量子点荧光增强,由此实现半胱氨酸的选择性定量分析检测.在pH=2.87的B-R缓冲体系中,测定半胱氨酸的线性区间分别为0.01～5.0 μmol/L和5.0～100 μmol/L;检出限(3σ)为3.3 nmol/L,且其它氨基酸干扰小,可应用于混合氨基酸合成样品、复方氨基酸注射液和人血清实际样品中半胱氨酸的检测.     

CdSe Quantum Dots Based Electrochemiluminescence Immunosensor with Simple Structure for Ultrasensitive Detection of Salbutamol

A rapid and ultrasensitive electrochemiluminescence (ECL) competitive immunoassay based on CdSe quantum dots (QDs) and the shorter chain as possible (cysteamine and glutaraldehyde) has been designed for the detection of salbutamol (SAL). Cysteamine and glutaraldehyde made coating antigen immobilize well on the gold electrode surface through the reaction between functional groups, which brought about the simplicity of the immunosensor to some extent. Transmission electron microscopy image, dynamic light scattering, photoluminescence, ultraviolet‐visible absorption and electrochemical impedance spectra were used to characterize the prepared CdSe QDs and the cysteamine/glutaraldehyde/Ovalbumin‐SAL/anti‐SAL‐QDs immunosensor. In the air‐saturated PBS buffer containing 0.1 M K₂S₂O₈ and 0.1 M KCl (pH 9.0), a strong ECL emission of QDs can be observed which depended linearly on the logarithm of the salbutamol concentration with a wide range from 0.05 ng mL^?1 to 100 ng mL^?1, and a detection limit of 0.0056 ng mL^?1. The sensitivity, repeatability, and specificity of the ECL immunosensor have been evaluated. The sensor has been applied to real samples with satisfactory results. This work will open new ways of detecting food additive residue based on QDs ECL in immunoassays.     

Application of Luminescent BSA‐Capped CdS Quantum Dots as a Fluorescence Probe for the Detection of Cu2+

CdS Quantum dots (QDs) are synthesized in aqueous solution with bovine serum albumin (BSA) as the stabilizing agents using a stepwise procedure at room temperature. They can be used as a new fluorescence probe in the determination of Cu²⁺, which is proved to be a simple, rapid and specific method. Approximate concentrations of other physiologically important cations, such as Zn²⁺, K⁺ etc, have no effect on the fluorescence. Under the optimum condition, the response is linear to the concentration of Cu²⁺ in the range of 0‐80.0 μol/L, and the detection limit is 50.0 nmol/L. This method is used to the determination of Cu²⁺ in human hair, the recovery is 98‐104%. And the possible detection mechanism is also discussed.     

Thioglycolic Acid Capped CdS Quantum Dots as Fluorescence Probe for Ultrasensitive Determination of Tetracycline and Oxytetracycline

Water soluble CdS quantum dots (QDs) have been synthesized using thioglycolic acid (TGA) as surface modifying agent through a one step process by using safe and low cost materials. These TGA capped CdS QDs are highly stable in aqueous solution and applied for ultrasensitive tetracycline (TC) and oxytetracycline (OTC) sensing. The approach was based on the fluorescence of the QDs selectively quenched in the presence of TC and OTC, respectively. Under optimal conditions, the relative fluorescence intensities of CdS QDs were decreased linearly with increasing TC and OTC in the range of 0.05 to 10.0 μM and 0.1 to 10.0 μM, respectively. The limit of detection (S/N = 3) was 5.0 nM for TC and 10.0 nM for OTC, respectively. The RSD for eleven determinations of 5.0 μM TC was 1.26% and 5.0 μM OTC was 0.8%, respectively. There was no significant wavelength shift on the fluorescence‐quenched signals in the presence of the drugs. The effect of common foreign substances on the fluorescence of the QDs was examined to evaluate the selectivity and the results showed a high selectivity of the TGA capped CdS QDs towards TC and OTC. The method presented here is simple, rapid, inexpensive, sensitive and suitable for practical application.     

Electochemiluminescence of CdTe/CdS Quantum Dots with Triproprylamine as Coreactant in Aqueous Solution at a Lower Potential and Its Application for Highly Sensitive and Selective Detection of Cu2+

Anodic electrochemiluminescence (ECL) of 3‐mercaptopropionic acid (MPA)‐ capped CdTe/CdS core‐shell quantum dots (QDs) with tripropylamine (TPrA) as the co‐reactant were studied in aqueous (Tris buffer) solution for the first time. The results suggest that the oxidation of TPrA at a glassy carbon electrode (GCE) surface participated in the ECL of QDs, and the onset potential and the intensity of ECL of CdTe/CdS QDs were affected seriously by TPrA, as the co‐reactant, in Tris buffer solution. The onset potential of ECL in this new system was about +0.5 V (vs. Ag/AgCl) and the ECL intensity greatly enhanced when TPrA was present. Various influencing factors, such as the electrolyte, pH, QDs concentration, potential range and scan rates on the ECL were studied. Based on the selective quenching by Cu²⁺ to the light emission from CdTe/CdS QDs/TPrA system, a highly sensitive and selective method for the determination of Cu²⁺ was developed. At the optimal conditions, the relative ECL intensity, I₀/I, was proportional to the concentration of Cu²⁺ from 14 nM to 0.21 μM with the detection limit of 6.1 nM based on the signal‐to‐noise ratio of 3. The possible ECL mechanism of QDs and the quenching mechanism of ECL were proposed.     

低温水相合成巯基化聚乙烯醇/CdS量子点纳米复合物及用于测定环境水样中痕量Cu~(2+)

采用水相合成法,在低温N2气保护条件下,以巯基化聚乙烯醇(PVA)为基体材料合成一种环境友好型PVA/CdS量子点纳米复合物,并通过红外光谱(IR)、X射线粉末衍射(XRD)、透射电子显微镜(TEM)、热重(TG)、荧光光谱(PL)和紫外可见光谱(UV-Vis)等技术手段对复合物进行结构表征和光学性能研究。测试结果表明,复合物中CdS量子点为立方晶型结构,形状为球形,粒径小于5nm,具有很好的稳定性、分散性及发光性质。此外,Cu~(2+)对PVA/CdS水溶液荧光具有良好的猝灭作用,其荧光猝灭程度与Cu~(2+)浓度在1~1000nmol/L范围内呈良好的线性关系,线性相关系数为0.9923,方法检出限为0.12nmol/L。该纳米复合物荧光分析方法简便快速、灵敏度高、检出限低,已应用于实际黄河水样中痕量Cu~(2+)的分析与检测。     

CdTe/CdS量子点荧光探针测定司帕沙星含量

在水溶液中合成了巯基乙酸修饰的CdTe/CdS量子点(QDs), 基于喹诺酮类抗生素司帕沙星与CdTe/CdS量子点的荧光猝灭作用, 建立了用CdTe/CdS量子点作为荧光探针检测微量司帕沙星的新方法. 用荧光光谱、紫外光谱研究了CdTe/CdS QDs与司帕沙星的相互作用. 研究表明: 该荧光猝灭的机理属于静态猝灭, 反应的作用机理可能是司帕沙星促使QDs表面键合的有机分子发生变化, 在Cd的电子空穴上形成了碲氧复合物, 致使荧光猝灭. 实验发现, pH为6.50的磷酸缓冲溶液中, 量子点的浓度为3.75×10^－4 mol/L时, 司帕沙星的浓度在0.1～50 μg/mL范围与CdTe/CdS量子点荧光猝灭强度呈良好的线性关系, 相关系数0.9992, 检出限0.01399 μg/mL. 该方法简便、快捷、灵敏、线性范围宽, 应用于司帕沙星片剂司帕沙星含量的测定, 分析结果与标示量一致; 用于牛奶中司帕沙星残留量的检测, 回收率在93.1%～102.4%, 结果满意.     

基于L-半胱氨酸修饰的锰掺杂ZnS量子点应用于叶酸测定

以L-半胱氨酸为表面修饰剂制备了稳定性和水溶性均优的ZnS∶Mn2+纳米晶,并应用于叶酸的检测。在pH 7.4的KH2PO4-Na2HPO4 缓冲溶液中,叶酸的加入使ZnS∶Mn2+体系的荧光发生猝灭,荧光强度的变化与叶酸浓度呈良好的线性关系,其线性范围为1.0×10-6~7.0×10-5 mol?L-1 （4.4×10-4~3.1×10-2 g?L-1）,方法检出限为9.6×10-7 mol?L-1 （4.2×10-4 g?L-1）。该方法用于叶酸片剂和健康人尿液中叶酸的测定,结果满意。采用荧光光谱、紫外可见吸收光谱及X-ray光谱等研究了ZnS∶Mn2+纳米晶及其水溶液的特性,通过热力学参数对叶酸测定的可能机理进行了探讨。     

基于柠檬酸盐修饰CdS量子点的高灵敏Ag~+传感器

以柠檬酸三钠作为表面修饰剂,利用简单的方法合成了水溶性柠檬酸三钠修饰的CdS量子点(Cit-CdS)。研究了反应前驱体中nCd/nS比、反应溶液pH值、反应温度等条件对产物的荧光性质的影响。在巯基乙酸存在下,Ag+能大大增强量子点的荧光。基于此,构建了基于Cit-CdS的高灵敏Ag+传感器。传感器在Ag+浓度为5.0×10-9~2.0×10-6mol·L-1内对银离子线性响应良好,检测限为1.0×10-9mol·L-1。其它常见金属离子对Ag+的测定并无明显干扰。