CdTe纳米荧光探针的合成及其与DNA的相互作用

以巯基丙酸(RSH)为稳定剂,采用水相法合成了功能性CdTe纳米晶,并通过X射线衍射(XRD)和透射电镜(TEM)对其粒度和形貌进行表征。建立了一种以水溶性CdTe量子点作为荧光探针测定DNA的方法,当DNA浓度为0.2~40μmol.dm-3时,荧光强度与DNA浓度呈良好的线性关系,检测限为80nmol.dm-3,11次重复测定含有5.6μmol.dm-3的小牛胸ctDNA得到的相对标准偏差为3.4%。考察了CdTe量子点浓度、pH值、温度及作用时间等因素对DNA荧光强度的影响。研究发现CdTe纳米粒子与DNA之间存在强烈的相互作用,量子点的荧光猝灭与DNA浓度呈线性关系;作用机理研究表明,CdTe纳米粒子与DNA之间存在静电相互作用,且DNA对CdTe纳米粒子的猝灭为动态猝灭过程。     

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.     

半胱胺包被的碲化镉量子点的直接水相制备及其与DNA链接

用半胱胺作为表面修饰剂,在水相中制备了稳定的CdTe纳米量子点。吸收光谱和荧光光谱表明,所合成的CdTe量子点具有优异的发光特性。透射电子显微境(TEM)表征了纳米微粒的结构和粒径分布。与目前较为普遍的用巯基羧酸等其它稳定剂在水相中合成的CdTe量子点相比,半胱胺包被的CdTe量子点的前驱体不需要加热就能受激发出荧光,在100℃加热20min后,荧光明显增强;而巯基羧酸包被的CdTe量子点前驱体受激不能发光。本工作还利用量子点上包被的半胱胺上的氨基,实现了与单链DNA分子的直接链接,链接后溶液的发射峰位红移19nm,荧光强度增强。     

CdTe量子点与罗丹明6G间的荧光共振能量转移机理研究

本文在合成水溶性巯基乙酸修饰的CdTe量子点的基础上,研究了CdTe量子点与罗丹明6G之间的荧光共振能量转移.实验结果表明:构建的CdTe量子点(供体)-罗丹明6G(受体)荧光共振能量转移体系在磷酸盐缓冲溶液中有较好的转移效果.当磷酸缓冲溶液pH值为7.4,NaCl浓度为1.0 mol/L时,构建的CdTe量子点-罗丹...     

CdTe量子点对胰凝乳蛋白酶的荧光标记

用巯基丙酸作为表面修饰剂在水相中制备了稳定的CdTe纳米量子点.利用量子点外层包被的巯基丙酸上的羧基,实现了量子点与胰凝乳蛋白酶的直接偶联.偶联后溶液的吸光度值略有增大而吸收峰位不变,同时荧光强度明显增强,荧光发射峰位稍有蓝移.通过荧光发射光谱确定了CdTe量子点与胰凝乳蛋白酶偶联的最佳反应条件为:pH 9.0,反应温度37℃,反应时间1.5 h.重点考察了NaCl浓度和胰凝乳蛋白酶浓度对量子点与胰凝乳蛋白酶偶联产物荧光强度的影响.     

CdTe量子点-罗丹明6G荧光共振能量转移体系的构建及其应用研究

采用巯基化合物修饰的CdTe量子点构建了量子点(供体)-罗丹明6G(受体)荧光共振能量转移体系, 研究了CdTe量子点与牛血清白蛋白(BSA)的相互作用. 结果表明, CdTe量子点与BSA相互作用后提高了CdTe量子点-罗丹明6G 体系的荧光共振能量转移(FRET)效率, 减小了CdTe量子点和罗丹明6G分子间的距离(r), 证实BSA是通过其色氨酸(Trp)残基与CdTe量子点表面金属发生配位作用而直接结合到量子点表面的.     

石墨烯/CdTe量子点复合物的合成及在克伦特罗检测方面的应用（英文）

成功地合成了石墨烯/CdTe量子点复合物,并采用透射电镜、紫外吸收光谱、荧光发射光谱、荧光衰减曲线和X射线光电子能谱对产物进行了表征。透射电镜结果显示CdTe量子点被修饰于石墨烯的表面;X射线光电子能谱结果表示石墨烯在合成过程中被还原,还表明在所合材料的表面具有羧基和羟基;荧光发射光谱和荧光衰减曲线的结果显示将CdTe量子点修饰于石墨烯表面显著提高了CdTe量子点的荧光性能。此外,基于克伦特罗和石墨烯/CdTe量子点复合物之间形成的氢键,所合成材料可用于定量分析克伦特罗。克伦特罗对石墨烯/CdTe量子点复合物具有显著的猝灭作用,荧光强度的降低(F0/F)与克伦特罗之间存在良好的线性关系,线性范围为7.22~108.30μmol·L-1,检出限为4μmol·L-1。     

一种新型铜离子荧光探针——CdTe量子点

探讨了髙量子产率CdTe量子点作为铜离子探针的可能性,发现铜离子对碲化镉量子点的荧光有猝灭效应,且量子点溶液的荧光强度与铜离子浓度成良好的负相关线性关系.由于CdTe量子点比CdS具有更为优良的光学性质和稳定性,有望成为一种新型纳米离子探针.     

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...     

水溶性CdTe量子点的合成及其用于荧光猝灭法测定肌红蛋白

以3-巯基丙酸为稳定剂,合成了具有特殊光学性质的水溶性CdTe量子点,其最大发射波长位于544 nm.利用荧光光谱、紫外可见光谱及圆二色光谱法系统的研究了CdTe量子点与肌红蛋白(Mb)二者结合前后体系光谱的变化,从而证实了CdTe量子点与Mb之间静电结合反应的特征.在pH 7.0的PBS缓冲液中,用CdTe量子点作为荧光探针研究了肌红蛋白与量子点的相互作用,并基于肌红蛋白对CdTe量子点有显著的荧光猝灭作用,建立了肌红蛋白的快速检测方法.在最佳实验条件下,该体系荧光强度的猝灭程度(△F)与肌红蛋白质量浓度呈良好的线性关系,线性范围为0.3～24 μg/mL,检出限为0.13 μg/mL.该方法已对合成样品中肌红蛋白进行检测,并用于人体尿样中肌红蛋白的测定.     

Synthesis and characterization of magnetic and luminescent Fe_3O_4/CdTe nanocomposites using aspartic acid as linker

In this study,the preparation of a new kind of magnetic and luminescent Fe₃O₄/CdTe nanocomposites was demonstrated. Superparamagnetic Fe₃O₄ nanoparticles were first synthesized by hydrothermal coprecipitation of ferric and ferrous ions,followed by the modification of their surfaces with tetramethylammonium hydroxide（TMAOH） and the chemical activation with aspartic acid.The surface-modified Fe₃O₄ nanoparticles were then covalently coated with CdTe quantum dots（QDs）,which were modified with mercaptoacetic acid（MPA）,to form the Fe₃O₄/CdTe magnetic and luminescent nanocomposites through the coordination of the amino groups on the surfaces of Fe₃O₄ and the carboxyl groups on CdTe QDs.The structure and properties of as-synthesized nanocomposites were characterized.It was indicated that the nanocomposites possessed structure with an average diameter of 40- 50 nm,yellow-green emission feature and room temperature ferro-magnetism.Both the fluorescence and UV-vis absorption spectra of the nanocomposites showed a blue shift comparing with those of CdTe QDs.The mechanism of the blue shift was presented.The nanocomposites retained the ferromagnetic property with a saturation magnetization of 8.9 emu/g.     

Fe_3O_4/CdTe/聚氨酯纳米复合物的制备及其性能研究

由共沉淀法和Stober法制备了伯胺基功能化SiO2稳定的Fe3O4磁性纳米粒子Fe3O4@SiO2-NH2;Fe3O4@SiO2-NH2与二异氰酸酯及咪唑阳离子二醇、聚乙二醇的反应使其表面形成阳离子型聚氨酯稳定层;通过阳离子型聚氨酯与CdTe量子点表面修饰的巯基乙酸间的电荷相互作用,制备得到了Fe3O4/CdTe/聚氨酯纳米复合物.用X射线衍射(XRD)、红外吸收光谱(FTIR)、热重分析(TGA)、透射电子显微镜(TEM)、磁强计(VSM)、紫外吸收光谱(UV)、荧光发射光谱(PL)表征了该纳米复合物的结构与性能.结果表明,CdTe量子点均匀地分散在Fe3O4@SiO2磁性纳米粒子周围,所得纳米复合物在溶剂中分散均匀,不团聚,且具有超顺磁性,并保持了CdTe量子点的荧光性能.     

Synthesis of imidazolium‐functionalized ionic polyurethane and formation of CdTe quantum dot–polyurethane nanocomposites

A series of positively charged imidazolium‐functionalized ionic polyurethanes (IPUs) were prepared in one‐step polymerization process by polymerization of presynthesized short‐chain imidazolium‐based ionic diol, polyethylene glycols with different molecular weights as long‐chain diols, and toluylene‐2,4‐diisocyanate. The structures of IPUs are confirmed by ¹H NMR analysis, and the thermogravimetric analysis measurement indicates that the IPUs have high degradation temperature. Fluorescent nanocrystal–polymer composites CdTe–IPU can be prepared conveniently, by the electrostatic interaction between positively charged IPUs and the negatively charged aqueous CdTe quantum dots (QDs). UV–vis absorption and photoluminescence spectra indicate the photochemical stability and strong fluorescent emission of CdTe–IPU composites. The quantum yields (QYs) of the composites are high and basically restore the QYs of the pure QDs. In addition, the transmission electron microscopy photographs show that the QDs in composites are uniform (about 3 nm in diameter) and monodisperse. The obtained nanocomposites are powder or elastomers with good film building. The casted CdTe–IPU films are transparent under visible light, and the colors of the composites and their films are vivid under a UV lamp. © 2011 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2011     

Synthesis of Multifunctional Mn‐Doped CdTe/ZnS Core/Shell Quantum Dots

The synthesis of a novel water‐soluble Mn‐doped CdTe/ZnS core‐shell quantum dots using a proposed ultrasonic assistant method and 3‐mercaptopropionic acid (MPA) as stabilizer is descried. To obtain a high luminescent intensity, post‐preparative treatments, including the pH value, reaction temperature, reflux time and atmosphere, have been investigated. For an excellent fluorescence of Mn‐doped CdTe/ZnS, the optimal conditions were pH 11, reflux temperature 100°C and reflux time 3 h under N₂ atmosphere. While for phosphorescent Mn‐doped CdTe/ZnS QDs, the synthesis at pH 11, reflux temperature 100°C and reflux time 3 h under air atmosphere gave the best strong phosphorescence. The characterizations of Mn‐doped CdTe/ZnS QDs were also identified using AFM, IR, powder XRD and thermogravimetric analysis. The data indicated that the photochemical stability and the photoluminescence of CdTe QDs are greatly enhanced by the outer inorganic ZnS shell, and the doping Mn²⁺ ions in the as‐prepared quantum dots contribute to strong luminescence. The strong luminescence of Mn‐doped CdTe/ZnS QDs reflected that Mn ions act as recombination centers for the excited electron‐hole pairs, attributing to the transition from the triplet state (⁴T₁) to the ground state (⁶A₁) of the Mn²⁺ ions. All the experiments demonstrated that the surface states played important roles in the optical properties of Mn‐doped CdTe/ZnS core‐shell quantum dots.     

CdX(X=Se,Te,Te/ZnS)量子点脂质体的制备及毒性比较

在水相中以巯基乙酸(mercaptoacetic acid, MA)为稳定剂合成了CdSe、CdTe、CdTe/ZnS量子点及谷胱甘肽(glutathione, GSH)为稳定剂合成了CdTe量子点,然后通过卵磷脂和胆固醇修饰制得相应的量子点脂质体。溶血实验证实GSH修饰量子点的溶血率低于MA修饰的量子点45%;脂质体修饰后,量子点的溶血率＜5%,达到生物医用材料要求。不同表面修饰的量子点对小鼠毒性存在明显差异,荧光显微镜观察组织切片证实量子点在小鼠体内主要分布在肺、肾、胸腺等组织中,而脂质体量子点在脑组     

颜色可调的高荧光CdTe量子点的水相合成

以亚碲酸钠为碲源,硼氢化钠为还原剂,一步合成了巯基丁二酸(MSA)稳定的CdTe量子点.研究了反应液pH值、镉与碲的摩尔比及镉与巯基丁二酸的摩尔比等实验条件对CdTe量子点体系荧光量子产率的影响,并用荧光光谱、X射线粉末衍射及透射电子显微镜等对其进行了表征.结果表明,CdTe量子点具有闪锌矿结构,形貌呈球状;在pH=1...     

Fluorescence Protection of CdTe Quantum Dots and Usages in Cellular and in vivo Imaging

The nanocomposites of poly(diallyldimethylammonium chloride) (PDADMAC) and CdTe quantum dots (QDs) (i.e., QD-PDADMAC nanocomposites) have been prepared based on electrostatic interaction. Transmission electron microscopy, Fourier transform infrared spectroscopy, and Zeta potential analysis were used to characterize the prepared QD-PDADMAC nanocomposites. It was shown that the QD-PDADMAC nanocomposites have the specific curly-shaped band-like morphology with the width of 4–8 nm and unequal length, and there are rich positive charges on the surface of the nanocomposites. The prepared QD-PDADMAC nanocomposites also had good fluorescence stability. The usage based on their good stability has also been studied by cellular and in vivo imaging. In comparison with the QDs without PDADMAC protection, the obtained QD-PDADMAC nanocomposites have better fluorescence stability and staining effect in biology imaging. After incubation for 24 h at 37°C, A549 lung cancer cells were almost not stained by QDs, similarity to the culture medium control group, and could be clearly stained by QD-PDADMAC nanocomposites. For in vivo imaging of mice by intraperitoneal injection, the fluorescence of QDs could not be seen in abdominal cavity at 30 min, and the nanocomposites' one could still be clearly observed at a longer time (1 h). Moreover, the intestine in the large area of the abdominal cavity was effectively stained.     

Hydrothermal synthesis of highly luminescent CdTe quantum dots by adjusting precursors’ concentration and their conjunction with BSA as biological fluorescent probes

A study on hydrothermal synthesis of CdTe quantum dots, highly luminescent nanocrystals at a relatively lower temperature, via changing the concentration of the CdTe precursors, is described. The full width at half maximum ranged from 40 to 80 nm and quantum yield (QY) was detected to be 27.4% at room temperature. The as-prepared CdTe QDs were labeled with BSA for fluorescence probes without pretreatment. Conjunction experimental results suggested that the as-prepared CdTe QDs are suitable for the application of biotechnology.     

The preparation of glutathione-capped CdTe quantum dots and their use in imaging of cells

In this paper, different sizes of glutathione-capped CdTe (GSH/CdTe) quantum dots (QDs) have been prepared directly in aqueous solution. The QDs have tunable fluorescence in the range of 510-670 nm, and they also have high photoluminescence quantum yield (PLQY) without any postpreparative treatment. Furthermore, the QDs have strong resistance to photobleaching, and they also have to be considered as cytocompatible. In addition, for the first time, folic acid was covalently conjugated to the GSH/CdTe QDs for imaging of cancer cells, demonstrating their potentially broad application as biolabels.     

硫脲修饰法制备高发光性能CdTe量子点

通过巯基水解制备了具有优异荧光特性的碲化镉量子点. 详细研究前驱体镉离子与巯基丙酸(MPA)摩尔比、镉离子浓度等制备条件对大尺寸、高量子产率的亲水性碲化镉量子点光学性能的影响. 在不同的水热生长时间下, 可制备出荧光发射峰位于485-660 nm范围内的不同尺寸的碲化镉水溶性量子点, 荧光发射峰半高宽控制在40-75 nm之间, 量子点的最高量子产率(QY)达到了45%. 并利用硫脲缓慢水解和光解释放自由硫离子, 修饰碲化镉表面, 检测修饰后的量子点在12天内光学性能的变化情况. 通过考察硫脲用量对量子点修饰效果, 发现当n(CdTe)/n(thiourea)=1:4(量子点浓度以镉离子浓度计)时, 硫脲对发射峰为505 nm的碲化镉量子点修饰效果最为理想, 量子点荧光强度加强了5倍, 量子产率达到68.3%.