基于CdSe/ZnS量子点构建丝裂霉素荧光检测体系的研究

建立了一种基于CdSe/ZnS量子点的快速、高效的检测丝裂霉素的荧光方法。pH=7.4,反应10 min,CdSe/ZnS量子点的荧光随丝裂霉素浓度增加而猝灭,量子点的荧光强度与丝裂霉素的浓度呈良好的线性关系,适用于丝裂霉素浓度1.8~60 μmol/L,且相关系数为0.996,丝裂霉素的检测限为0.11 μmol/L,该方法相对无共存物质的干扰,并证明完全适用于丝裂霉素注射液与尿液中丝裂霉素的测定。     

CdSe/ZnS量子点探针用于检测猪链球菌2型溶菌酶释放蛋白(MRP)抗原的新方法研究

合成了高发光效率的CdSe/ZnS量子点并制备了CdSe/ZnS量子点-溶菌酶释放蛋白(MRP)抗体探针, 利用凝胶电泳和分子光谱法研究了MRP抗体与CdSe/ZnS量子点的结合机理. 荧光光谱法优化了CdSe/ZnS量子点-MRP抗体探针制备的影响因素, 建立了一种测定MRP抗原的新方法, 其线性范围为5.0×10－8～1.5×10－6 mol/L, 线性相关系数为0.9976, 检测限为 1.9×10－8 mol/L.     

基于CdSe/ZnS量子点构建多巴胺荧光检测方法的研究

以CdSe/ZnS量子点为荧光探针,基于多巴胺对CdSe/ZnS量子点的荧光猝灭效应,建立了一种可快速测定多巴胺的荧光检测方法。在最优实验条件下(pH7.4,反应时间20min),多巴胺浓度在0.01~0.7μmol/L范围内与CdSe/ZnS量子点的荧光猝灭强度比值呈良好的线性关系(r=0.996),方法检出限为1.6×10-4μmol/L,相对标准偏差为1.2%。与文献报道的方法相比,该方法的检出限更低,更为灵敏,可用于多巴胺注射液及人体尿样中多巴胺的快速检测。     

基于CdSe/ZnS量子点构建乙酰甲胺磷荧光检测方法研究

本文以CdSe/ZnS量子点为荧光探针,基于乙酰甲胺磷对CdSe/ZnS量子点的荧光猝灭效应,建立了一种可快速测定乙酰甲胺磷的荧光检测方法。通过透射电子显微镜(TEM)、紫外-可见吸收光谱和荧光光谱对CdSe/ZnS量子点进行表征。在反应时间为5 min条件下,乙酰甲胺磷的浓度在0.487×10~(-6)～7.225×10~(-6) mol/L范围内与CdSe/ZnS量子点的荧光猝灭强度比值呈良好的线性关系(R~2=0.9987),方法检出限为2.55×10~(-7) mol/L。在2.0、5.0μmol/L加标水平下的回收率为94.5%～102.8%,相对标准偏差(RSD,n=5)小于4%。该方法选择性好,灵敏度高,可用于水果和蔬菜中农药乙酰甲胺磷的快速检测。     

双量子点纳米复合物NO比率荧光探针的合成与应用

通过静电吸附作用,合成了CdSe@SiO_2-CdTe双量子点的纳米复合物.一氧化氮(NO)与CdTe量子点表面Cd离子结合形成Cd-NO复合物,引起CdTe量子点荧光猝灭,而不影响CdSe量子点的荧光.当NO浓度在0.1~2.2μmol/L之间变化时,该探针荧光强度比值I_(603)/I_(532)符合线性关系(R=-0.995 4),从而实现对NO的定量检测.     

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.     

水溶性功能化Ag2S量子点的合成及其对超痕量Hg2+的双模式分析应用

以巯基丙酸为稳定剂,在乙二醇存在下合成了水溶性功能化Ag2S量子点。研究了该量子点的特性及其与常见金属离子的相互作用,发现仅Hg2+能够猝灭该量子点体系的荧光并使溶液变色,基于该现象建立了裸眼-荧光双模式选择性识别水体中痕量Hg2+的新方法。实验数据显示,在裸眼模式下,常见金属离子中只有Hg2+使Ag2S量子点的颜色由黄色变为无色;在荧光模式下,常见金属离子中只有Hg2+对量子点荧光猝灭最大,并且随着Hg2+浓度的增大Ag2S量子点的荧光猝灭越来越显著。研究表明,Hg2+与Ag2S量子点的作用机制可能为电荷转移致使量子点聚集而发生荧光猝灭。在优化条件下,8.0×10-9～5.6×10-8 mol/L浓度的Hg2+与Ag2S量子点荧光的猝灭呈良好的线性关系(R=0.9903),检出限(S/N=3)为4.2×10-9 mol/L,裸眼可识别9.0×10-5 mol/L的Hg2+。该方法成功地应用于水样中超痕量Hg2+的检测。     

CdTe/CdS半导体量子点作为农药百草枯的高灵敏传感器

用硫普罗宁(Tiopronin, TP)作为稳定剂合成了水溶性的高荧光CdTe/CdS量子点. 研究了该量子点与10种农药的相互作用. 实验发现, 当农药浓度为4.76×10^-6 mol/L时, 农药百草枯(Paraquat)能显著猝灭CdTe/CdS量子点的荧光, 使其荧光强度下降87.3%, 而分别加入乙酰甲胺磷及辛硫磷等其它9种农药, 仅能使CdTe/CdS量子点的荧光强度下降0.1%～5.1%, 显示了该CdTe/CdS量子点对百草枯的特异性传感作用. 采用吸收光谱和时间分辨荧光动力学研究了百草枯对CdTe/CdS量子点的荧光猝灭机理. 计算得出荧光强度猝灭的Stern-Volmer常数K为2.03×10⁶, 而寿命猝灭的Stern-Volmer常数K为4.25×10⁵. 结果表明, 百草枯对CdTe/CdS量子点的荧光猝灭主要为静态过程, 而动态过程的贡献较小. 利用二者的猝灭作用建立了对农药百草枯的高灵敏检测新方法, 校正曲线的线性范围为9.90×10^-9～1.50×10^-6 mol/L, 检出限为6.35×10^-9 mol/L, R=0.999. 用该方法对3种食品和3种水样中残留农药进行了检测, 加标回收率均在82.2%～98.5%之间, 其相对标准偏差为2.62%~8.35%.     

3-巯基丙酸修饰的CdSe/ZnS量子点的合成及测定牛血清白蛋白的研究

以3-巯基丙酸作为修饰剂,在水溶液中合成了稳定的CdSe/ZnS量子点(QDs),透射电镜观察所合成量子点的形貌近似球形,粒径约为25 nm.吸收光谱与荧光光谱的研究表明,CdSe QDs在410 nm处有最大吸收峰,而CdSe/ZnS QDs的最大吸收峰在470 nm处,CdSe/ZnS QDs的荧光强度是CdSe QDs的11倍.考察了缓冲溶液的体积、pH值、反应温度、反应时间对体系荧光的影响.在最佳实验条件下,体系的荧光强度与BSA的浓度呈线性关系,线性响应范围为0.746×10-7～4.48×10-7 mol/L,检出限为3.846×10-10 mol/L.并且CdSe/ZnS QDs荧光强度基本保持稳定,可达两个多月.该方法应用于合成样品的测定,结果满意.     

水溶性发光金量子点灵敏检测L-半胱氨酸

室温下一步合成了一种蓝色发光金量子点。 该金量子点具有良好的水溶性和生物相容性,金量子点平均粒径为3.0 nm,在波长305 nm光激发下,发射430 nm蓝色荧光。 实验发现,一定量L-半胱氨酸对金量子点430 nm处荧光发射有显著的增强作用,由此可建立一种简单、迅速、灵敏检测L-半胱氨酸的新方法。在最佳条件下,金量子点荧光强度与L-半胱氨酸在0~4.0 μmol/L浓度范围内呈线性关系,线性相关系数R2=0.9976,对2.0 μmol/L L-半胱氨酸的11次测定结果的相对标准偏差（RSD）为2.8%,以3倍标准偏差计算本法对L-半胱氨酸测定的检出限为5 nmol/L。     

CdSe quantum dots as luminescent probes for spironolactone determination

Based on the quenching of the fluorescence of CdSe quantum dots (QDs) by spironolactone, a simple, rapid and specific method for spironolactone determination was proposed. In the optimum conditions, spironolactone concentration versus quantum dot fluorescence gave a linear response with an excellent 0.997 correlation coefficient, between 2.5 and 700 mg/mL (6.0-1680 μmol/L) and the limit of detection (S/N = 3) was 0.2 μg/mL (0.48 μmol/L). The contents of spironolactone in pharmaceutical tablets were determined by the proposed method and the results agreed with the claimed values. The possible mechanism for the reaction was also discussed.     

Determination of silver ion based on the redshift of emission wavelength of quantum dots functionalized with rhodanine

A simple and selective method for the determination of silver ions was developed by utilizing the red- shift in emission wavelength of the core-shell CdSe/Cd5 quantum dots （QDs） functionalized with rhodanine upon the addition of Ag＋. A linear relationship was observed between the shift and the increase in concentration of Ag＋ in the range of 0.0125-12.5 μmol/L. The mechanism of the red-shift was investigated and suggested that the coordination between Ag＋ and rhodanine on the QDs surface caused an increase of particle size, which resulted in the red-shift of the QDs＇ emission wavelength. A detection limit of 2 nmol/L was achieved. The developed method showed superior selectivity and was successfully applied to the determination of silver in environmental samples.     

新型荧光分子印迹膜特异性识别和检测目标蛋白质

制备了一种新型荧光分子印迹膜(L-半胱氨酸修饰的量子点嵌入的分子印迹膜(QDs@MIM)),并将其作为荧光人工受体用于目标蛋白质(溶菌酶)的特异性识别和检测。QDs@MIM以溶菌酶为模板分子、丙烯酰胺为功能单体、L-半胱氨酸修饰的量子点为辅助单体、N,N′-亚甲基双丙烯酰胺为交联剂,在预硅烷化的玻璃板上制备而成。在最佳条件下,QDs@MIM对溶菌酶检测的线性范围为0.1~1.0μmol/L,吸附平衡时间为4 min,选择性因子为6.2。该方法操作简单、吸附平衡时间短、选择性高,具备作为生物传感器快速分析样品中目标蛋白质的潜力。     

Effect of Polyaniline as Hole-Acceptor and Energy-Acceptor on the Photoluminescence of CdSe

IntroductionLuminescent semiconductor quantum dots(QDs)have received considerable attention in the pastdecadebecause of their unique optical properties[1—6]. TheCdSe quantum nanostructures are one of the best-studied semiconductor quantum systems. The 3-…     

CdSe量子点荧光增敏法测定甘草酸

以巯基乙酸为稳定剂水相法一步合成了CdSe量子点,并以此量子点为荧光探针,基于甘草酸(GL)对量子点的荧光增强效应,建立了一种简便、快速、灵敏测定GL的分析方法,同时对GL与CdSe量子点的反应机理进行了初步探讨.考察了多种因素对GL测定的影响.结果表明,在pH 7.4的Na2 HPO4 - NaH2 PO4缓冲溶液中...     

Aqueous synthesis of type-II core/shell CdTe/CdSe quantum dots for near-infrared fluorescent sensing of copper(II)

Type-II core/shell CdTe/CdSe quantum dots (QDs) were synthesized in aqueous medium by employing thiol-capped CdTe QDs as core template and CdCl(2) and Na(2)SeSO(3) as shell precursors, respectively. Compared with the original CdTe cores, the core/shell CdTe/CdSe QDs showed an obvious red-shifted emission with the color-tune capability to the near-infrared (NIR) wavelength, because of the formation of an indirect excitation. The prepared QDs exhibited high stability and moderate fluorescence quantum yields (10-20%), and their core/shell heterostructure was characterized by UV-vis absorption, steady-state and time-resolved fluorescence spectra, X-ray powder diffraction, X-ray photoelectron spectroscopy and high-resolution transmission electron microscopy. The fluorescence of the core/shell QDs could be markedly quenched by Cu(II), and approximate concentrations of other physiologically important cations, such as Zn(II), Ca(II), Na(I) and K(I) etc., had no effect on the fluorescence. Based on this, a simple and rapid method for Cu(II) determination was proposed using the NIR CdTe/CdSe QDs as fluorescent probes. Under optimal conditions, the response was linearly proportional to the concentration of Cu(II) between 0.05 to 50.0 x 10(-6) mol L(-1), the limit of detection was 2.0 x 10(-8) mol L(-1). The developed method was successfully applied to the detection of trace Cu(II) in real samples.     

CdSe/ZnS quantum dots based fluorescence quenching method for determination of paeonol

Aqueous polymethylmethacrylate (PMMA)-capped CdSe/ZnS quantum dots were used as fluorescence probes for paeonol determination. Based on the fluorescence quenching of aqueous CdSe/ZnS quantum dots caused by paeonol, a simple, sensitive and rapid method was developed. Under the optimal conditions, with excitation and emission wavelengths at 350 nm and 620 nm, respectively, the calibration plot of F0-F with concentration of paeonol was linear in the range of 25.04-175.2 mg L(-1) with correlation coefficient of 0.9986. The limit of detection was 0.017 mg L(-1). The concentration of paeonol in paeonol ointment was determined by the proposed method and the result agreed with the claimed value. Furthermore, the possible fluorescence quenching mechanism was discussed.     

水溶性CdSe/CdS量子点的合成及其与牛血清蛋白的共轭作用

用巯基乙酸(TGA)作为稳定剂，合成了水溶性的CdSe和核壳结构的CdSe/CdS半导体量子点。吸收光谱和荧光光谱研究表明，核壳结构的CdSe/CdS半导体量子点比单一的CdSe量子点具有更优异的发光特性。用TEM、电子衍射(ED)和XPS分别表征了CdSe和CdSe/CdS纳米微粒的结构、形貌及分散性。红外光谱和核磁共振谱证实了巯基乙酸分子中的硫原子和氧原子与纳米微粒表面的金属离子发生了配位作用。在pH值为7.4的条件下，将合成的CdSe和CdSe/CdS量子点直接与牛血清白蛋白(BSA)相互作用。实验发现，两种量子点均对BSA的荧光产生较强的静态猝灭作用；而BSA对两种量子点的荧光则具有显著的荧光增敏作用，存在BSA时CdSe/CdS量子点的荧光增强是不存在BSA时体系荧光强度的3倍。