共查询到20条相似文献,搜索用时 0 毫秒
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Ryom Ju-Song Kim Nam-Chol Ko Myong-Chol Choe Song-Il 《Plasmonics (Norwell, Mass.)》2022,17(3):949-956
We investigate the properties of entanglement between two quantum dots (QDs) with an azimuthal angle difference in two different plasmonic waveguide systems where a cavity coupled to the QDs is included or not. The real space formalism and the concurrence are used in solving the eigenvalue equation and calculating the entanglement, respectively. We analyze the influence of azimuthal angle difference on the entanglement and propose several effective ways to achieve high entanglement by adjusting the detuning, the QD-cavity coupling strength, and so on. Moreover, comparing the entanglement in the two models, we demonstrate that the addition of cavity can improve the entanglement of two QDs.
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Chaitanya Indukuri Deepika Chaturvedi Jaydeep. K. Basu 《Plasmonics (Norwell, Mass.)》2016,11(3):787-795
Finite difference time domain (FDTD) simulations were performed on two different plasmonic sub-wavelength photonic templates embedded with CdSe quantum dots. Tunable loading of these templates with plasmonic nano antenna allowed control of the emission from the embedded quantum dots. We discuss how large loading of nano antenna can effectively control the optical density of states for the quantum dots leading to enhancement of their radiative decay rates as observed in experiments. On the other hand, at low level of loading, while FDTD fails to capture the observed enhancement of decay rates in experiment, an alternative mechanism is suggested to exist in such cases. Thus, subtle interplay of multiple mechanisms engineered by appropriate placement and loading of plasmonic nano antenna in such templates is demonstrated as an effective method to control optical density of states and hence spontaneous emission of embedded quantum dots. 相似文献
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Plasmonics - We investigate the refractive index without absorption in metallic photonic crystals doped with quantum dots. It is found that the absorption and dispersion of probe field can be... 相似文献
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Lertvachirapaiboon Chutiparn Kiyokawa Itaru Baba Akira Shinbo Kazunari Kato Keizo 《Plasmonics (Norwell, Mass.)》2020,15(1):3-9
Plasmonics - Plasmonic nanostructures can be used to control the photoluminescence properties of various emitting materials. In this work, an efficient plasmon-induced energy transfer (quenching)... 相似文献
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Margarida M. Barroso 《The journal of histochemistry and cytochemistry》2011,59(3):237-251
Quantum dots are semiconductor nanocrystals that have broad excitation spectra, narrow emission spectra, tunable emission peaks, long fluorescence lifetimes, negligible photobleaching, and ability to be conjugated to proteins, making them excellent probes for bioimaging applications. Here the author reviews the advantages and disadvantages of using quantum dots in bioimaging applications, such as single-particle tracking and fluorescence resonance energy transfer, to study receptor-mediated transport. 相似文献
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Gain-Assisted Magneto-Optical Rotation in a Four-Level Quantum System Near a Plasmonic Nanostructure
We propose and theoretically demonstrate a mechanism to achieve a gain-assisted magneto optical rotation (MOR) of a linearly polarized probe beam in a double V–type closed-loop atomic system. The quantum system is considered to be placed in the proximity of a plasmonic nanostructure which can produce quantum interference between decay channels of the quantum system. We also apply a linearly polarized control beam and a microwave beam to the system. It is shown that manipulating the intensity of the microwave beam and relative phase of the applied beams results in well-optimizing optical properties of the system where by proper choice of these parameters the atomic medium becomes birefringent gain media. Induced birefringence can be reinforced by increasing the intensity of the magnetic field and quantum interference coefficient. It is found, compared with the absence of the plasmonic nanostructure, the presence of the plasmonic nanostructure causes the gain-assisted MOR to occur at much smaller magnetic field. Hence, we propose that such a gain-assisted MOR can have potential application in detecting quantum interference effect. 相似文献
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量子点在生物学中的应用 总被引:1,自引:0,他引:1
量子点是一种无机荧光材料,它具有独特的光物理特性,如其激发光谱宽且连续分布,而发射光谱呈对称分布且宽度窄,而且可通过改变量子点内核的尺寸对其发射光波长进行精细调节等。量子点的这些特性正引起人们日益广泛的关注,并在很多领域得到了应用。本文介绍了量子点的组成以及它的光学特性,同时介绍并讨论了近年来量子点在生物学领域应用的进展以及存在的问题。 相似文献
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量子点是近几年发展起来的新型纳米材料,虽然研究起步较晚,但因其独特的电学和光学性质而成为人们关注的热点,在生物医学等多个领域有突破性的研究进展。本文主要介绍量子点的性质、制备方法及其在生物医学中的应用进展和存在的问题。 相似文献
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半导体量子点具有长时间、多目标和灵敏度高等独特的光化学性质,这些特性使量子点成为细胞标记和生物应用中得到了广泛的应用。利用量子点目标定位癌细胞,对于寻找癌变部位具有指导的作用。近年来,利用量子点作为光动力学治疗癌症的能量供体也得到了一定的研究。简单地介绍了量子点独特的光学性质,并从量子点标记癌细胞、可视化癌细胞表面功能和在光动力学治疗癌症等方面综述了量子点在癌症诊断和治疗中的应用。 相似文献
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量子点在生物医学中的应用 总被引:13,自引:0,他引:13
半导体量子点是无机纳米结晶,构成于硒化镉核心和硫化锌外壳.这种荧光标记物的发射光强是常用有机荧光染料的20倍,稳定性是其100倍.量子点的发射波长取决于核心粒子的大小,而每一种单色量子点的发射波长窄而对称.这些光学特性使量子点在医学诊断、药物的高速筛选以及基因和蛋白质的高通量分析方面具有广泛的应用前景.基于量子点的稳定性和生物相容性,有可能通过标记不同颜色的量子点到不同的分子,观察它们在活细胞内的运动. 相似文献
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Quantum Dots as a Novel Immunofluorescent Detection System for Cryptosporidium parvum and Giardia lamblia 总被引:1,自引:0,他引:1 下载免费PDF全文
Semiconductor quantum dot-conjugated antibodies were successfully developed to label Cryptosporidium parvum and Giardia lamblia. This novel fluorescence system exhibited superior photostability, gave 1.5- to 9-fold-higher signal-to-noise ratios than traditional organic dyes in detecting C. parvum, and allowed dual-color detection for C. parvum and G. lamblia. 相似文献
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We report tuning of photoluminescence enhancement and quenching from closed packed monolayers of cadmium selenide quantum dots doped with gold nanoparticles. Plasmon-mediated control of the emission intensity from the monolayers is achieved by varying the size and packing density of the quantum dots as well as the doping concentration of gold nanoparticles. We observe a unique packing density dependent crossover from enhancement to quenching and vice versa for fixed size of quantum dots and doping concentration of gold nanoparticles. We suggest that this behavior is indicative of a crossover from single particle to collective emission from quantum dots mediated by gold nanoparticles. 相似文献
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含镉量子点是典型的量子点,近年来受到广泛研究。含镉量子点的潜在毒性是其在生物成像及生物医药方面应用和发展的关键制约因素,因此,对其毒性作用的研究具有重要意义。目前对含镉量子点的体外毒性研究主要集中在人肝癌细胞(HepG2)、神经分泌细胞(PC12)等细胞实验及斑马鱼胚胎体外培养实验。体内毒性研究包括小鼠等动物实验。这些研究证实,量子点对HepG2等细胞系和小鼠、贻贝等动物均具细胞毒性。研究者们普遍认为,量子点是通过释放其组成中的重金属,诱导生物体产生活性氧自由基,进而引发细胞凋亡或自噬,但对量子点的具体毒性作用机制并不完全清楚。该文对含镉量子点的体内和体外毒性研究工作进展进行了综述,包括含镉量子点对肝肾细胞、神经细胞、血液细胞及免疫细胞等体外毒性研究工作,对陆生及水生动物等的体内毒性研究工作,旨在更好、更全面地评估含镉量子点的毒性,为今后对量子点的毒性作用机制研究提供方向,促进含镉量子点在生物医学方面的发展和应用。 相似文献
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Dan Jiang Yunping Chen Na Li Wen Li Zhenguo Wang Jingli Zhu Hong Zhang Bin Liu Shan Xu 《PloS one》2015,10(12)
High fluorescence quantum yield graphene quantum dots (GQDs) have showed up as a new generation for bioimaging. In this work, luminescent GQDs were prepared by an ameliorative photo-Fenton reaction and a subsequent hydrothermal process using graphene oxide sheets as the precursor. The as-prepared GQDs were nanomaterials with size ranging from 2.3 to 6.4 nm and emitted intense green luminescence in water. The fluorescence quantum yield was as high as 24.6% (excited at 340 nm) and the fluorescence was strongest at pH 7. Moreover, the influences of low-concentration (12.5, 25 μg/mL) GQDs on the morphology, viability, membrane integrity, internal cellular reactive oxygen species level and mortality of HeLa cells were relatively weak, and the in vitro imaging demonstrated GQDs were mainly in the cytoplasm region. More strikingly, zebrafish embryos were co-cultured with GQDs for in vivo imaging, and the results of heart rate test showed the intake of small amounts of GQDs brought little harm to the cardiovascular of zebrafish. GQDs with high quantum yield and strong photoluminescence show good biocompatibility, thus they show good promising for cell imaging, biolabeling and other biomedical applications. 相似文献
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CdSe量子点与蛋白质的作用研究 总被引:2,自引:1,他引:2
以油酸为稳定剂,石蜡为还原剂,采用有机相法合成了尺寸均匀的CdSe量子点,并通过巯基乙酸将合成的量子点转移至水相。考查了CdSe量子点与几种结构不同的蛋白质(酶)之间的作用规律。研究发现,经巯基乙酸修饰后的量子点与牛血清白蛋白和胰凝乳蛋白酶作用后,荧光强度明显增大。而铜/锌-超氧化物歧化酶对量子点的荧光有明显的淬灭作用,牛血红蛋白对量子点的影响是随着时间的增加荧光强度先增大后减小,体现出一般蛋白质使荧光增强和部分金属离子使荧光淬灭两者的协同效应。 相似文献
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纳米技术在生物医学的进展使其在肿瘤的诊治中应用日益广泛。荧光纳米粒子中的量子点(Quantum Dots),具备光学成像特性在肿瘤中应用中显示出独特的优势。其作为一种荧光半导体纳米粒子,具有荧光强度高、稳定性强、激发波谱宽、发射波谱窄等光学特性。同时,它可以结合其他功能基团,包括靶向模式、治疗因素和成像探针,为临床肿瘤诊断和治疗提供了新的潜力。本文就量子点的类型和特点及量子点的肿瘤体外和体内成像进行综述。 相似文献