Global ETD Search

641	The Synthesis and Behavior of Positive and Negatively Charged Quantum Dots Zane, Andrew Paul 21 October 2011 (has links) No description available. Chemistry quantum dots CdSe in-situ fluorescence macrophage uptake nanoparticle albumin interaction
642	Synthetic and Photochemical Study of Ruthenium Polypyridine Solar Dyes Coupled to Cadmium Selenide Quantum Dots Carlson, Jill A. 18 June 2012 (has links) No description available. Chemistry ruthenium polypyridine chemistry quantum dots tris-heteroleptic solar dye photoluminescence interface electron transfer
643	The role of photonics and natural curing agents of TGF-β1 in treatment of osteoarthritis Ahmadi, E.D., Raja, Tehmeena I., Khaghani, Seyed A., Soon, C.F., Mozafari, M., Youseffi, Mansour, Sefat, Farshid 08 June 2018 (has links) Yes / Osteoarthritis (OA) is a degenerative disease leading to the breakdown of the hyaline cartilage between a varieties of diarthrodial joints such as the knee joint, carpals of the wrist and etc. When the cartilage is affected by trauma or wear and tear, Osteolysis may occur; broken debris of cartilage found within the synovial fluid may be recognised as a pathogen and therefore, the body’s autoimmune response will directly target the cartilage for destruction. Cytokines are proteins/peptides of glycoproteins that are secreted by cells and are involved in interaction and communication between cells. Transforming Growth Factors Beta 1 (TGF-β1) is one of well-known cytokines and had shown many effects on cellular biology including simulation or inhibition of cell proliferation, differentiation, production of extracellular matrix (ECM), remodelling, and producing both hormones and growth factors. On the other hand, Photonics recently play an important role for treatment of OA. The main aim of this review article is to investigate the effect of TGF-β1 in treatment of OA. Other important aim of this work is to explore the broad applications of optics and photonics in biomedical applications including treatment of OA. Biomedical applications of photonics have broad aspects including laser, carbon nanotubes (CNTs), quantum dots (QDs) and graphene and photodynamic therapy (PDT) which discussed in this review paper. TGF- β1 Cytokines Osteoarthritis Photonics Carbon nanotubes Quantum dots Photodynamic therapy
644	Exchange and superexchange interactions in quantum dot systems Deng, Kuangyin 10 February 2021 (has links) Semiconductor quantum dot systems offer a promising platform for quantum computation. And these quantum computation candidates are normally based on spin or charge properties of electrons. In these systems, we focus on quantum computation based on electron spins since these systems has good scalability, long coherence times, and rapid gate operations. And this thesis focuses on building a theoretical description of quantum dot systems and the link between theory and experiments. In many quantum dot systems, exchange interactions are the primary mechanism used to control spins and generate entanglement. And exchange energies are normally positive, which limits control flexibility. However, recent experiments show that negative exchange interactions can arise in a linear three-dot system when a two-electron double quantum dot is exchange coupled to a larger quantum dot containing on the order of one hundred electrons. The origin of this negative exchange can be traced to the larger quantum dot exhibiting a spin triplet-like rather than singlet-like ground state. Here we show using a microscopic model based on the configuration interaction (CI) method that both triplet-like and singlet-like ground states are realized depending on the number of electrons. In the case of only four electrons, a full CI calculation reveals that triplet-like ground states occur for sufficiently large dots. These results hold for symmetric and asymmetric quantum dots in both Si and GaAs, showing that negative exchange interactions are robust in few-electron double quantum dots and do not require large numbers of electrons. Recent experiments also show the potential to utilize large quantum dots to mediate superexchange interaction and generate entanglement between distant spins. This opens up a possible mechanism for selectively coupling pairs of remote spins in a larger network of quantum dots. Taking advantage of this opportunity requires a deeper understanding of how to control superexchange interactions in these systems. Here, we consider a triple-dot system arranged in linear and triangular geometries. We use CI calculations to investigate the interplay of superexchange and nearest-neighbor exchange interactions as the location, detuning, and electron number of the mediating dot are varied. We show that superexchange processes strongly enhance and increase the range of the net spin-spin exchange as the dots approach a linear configuration. Furthermore, we show that the strength of the exchange interaction depends sensitively on the number of electrons in the mediator. Our results can be used as a guide to assist further experimental efforts towards scaling up to larger, two-dimensional quantum dot arrays. / Doctor of Philosophy / Semiconductor quantum dot systems offer a promising platform for quantum computation. And these quantum computation candidates are normally based on spin or charge properties of electrons. In these systems, we focus on quantum computation based on electron spins since these systems has good scalability, long coherence times, and rapid gate operations. And this thesis focuses on building a theoretical description of quantum dot systems and the link between theory and experiments. A key requirement for quantum computation is the ability to control individual qubits and couple them together to create entanglement. In quantum dot spin qubit systems, the exchange interaction is the primary mechanism used to accomplish these tasks. This thesis is about attaining a better understanding of exchange interactions in quantum dot spin qubit systems and how they can be manipulated by changing the configuration of the system and the number of electrons. In this thesis, we show negative exchange energy can arise in large size quantum dots. This result holds for symmetric and asymmetric shape of the large dots. And we also provide a quantitative analysis of how large quantum dots can be used to create long-distance spin-spin interactions. This capability would greatly increase the flexibility in designing quantum processors built by quantum dot spins. The interplay of these systems with different geometry can serve as a guide to assist further experiments and may hopefully be the basis to build two-dimensional quantum dot arrays. Quantum Computing Quantum Dots Spin Qubits Exchange Interaction Superexchange Configuration Interaction Hubbard Model Hund's Rule
645	Photoactivatable Quantum Dots in Super-Resolution Microscopy of Muscle Akel, Amal 12 1900 (has links) Super-resolution 3D imaging was achieved using newly synthesized photoactivatable quantum dot (PAQ dot) probes. Quantum dots were modified with a novel quencher system to make them photoactivatable. The unique properties of these PAQ dots enable single-fluorophore localization in three dimensions using a confocal microscopy optical sectioning method. Myosin and tropomyosin of rabbit myofibrilar bundles were specifically labeled with the newly synthesized PAQ dot. A sufficient number of single quantum dots were photoactivated, localized and reduced to their centroid and then reconstructed to a super-resolution image. The acquired super-resolution image shows a lateral and an axial sub-diffraction resolution and demonstrates ultrafine striations with widths less than 70 nm that are not evident by conventional confocal microscopy. The striations appear to be related to nebulin thin filament binding protein. This newly developed imaging system is cutting edge for its high resolution and localization as well its simplicity and convenience. Photoactivatable myofibrils Microscopy. muscle Quantum dots. High resolution imaging. Muscles -- Imaging.
646	Optofluidic Sensor: Evaporation Kinetics Detection of Solvents Dissolved with Cd3P2Colloidal Quantum Dots in a Rolled-Up Microtube Miao, S., Chen, D., Madani, A., Jorgensen, M.R., Bolaños Quiñones, V.A., Ma, L., Hickey, Stephen G., Eychmüller, A., Schmidt, O.G. 14 November 2014 (has links) No / A method for measuring the evaporation kinetics of pure solvents and solutions containing Cd3P2 quantum dots (QDs) in SiO/SiO2 rolled-up microtube (RUT) resonators is reported. The QDs serve as wavelength-tunable fluorescent sources for the RUT resonator. The first-order kinetic constant (295 K) of the evaporation of toluene embedded in a RUT (D = 9.10 μm) is evaluated (0.055 min−1). / Doctoral Program Education of China. Grant Number: 20110111120008; Alexander von Humboldt Foundation Cd3P2 Quantum dots Evaporation kinetics Optofluidic sensors Rolled-up microtubes Sensors
647	La génotoxicité des quantum dots et le rôle du stress oxydant : implications sur l'environnement et la santé humaine / Genotoxicity of quantum dots and the role of oxidative stress : implications for the environment and human health Aye-Baratier, Mélanie 15 November 2013 (has links) Les quantum dots (QDs) sont des cristaux semi-conducteurs de dimensions nanométriques. Ils peuvent être employés comme des marqueurs photosensibles du métabolisme cellulaire et peuvent être utiles dans différents domaines notamment en médecine mais il s’est rapidement avéré nécessaire de démontrer leur innocuité avant leur utilisation à grande échelle et leur diffusion dans l’environnement. Nous proposons un projet de thèse de doctorat sur le thème : La génotoxicité des quantum dots et le rôle du stress oxydant, implications sur l’environnement et la santé humaine. Il s’organise suivant trois axes: L’étude in vitro des propriétés génotoxiques et mutagènes des QDs Les QDs induisent des lésions primaires de l’ADN sur cellules CHO-K1 par le test des comètes qui sont associées à un stress oxydant. Ils sont plus actifs après irradiation par le spectre solaire. Ils induisent des mutations chromosomiques. L’étude in vivo des propriétés génotoxiques et mutagènes des QDs Les QDs induisent une augmentation significative des lésions de l'ADN chez le rat qui varie selon l’organe considéré (foie, rein, poumon, cerveau et testicule). Ils induisent une augmentation significative et une réponse dose-dépendante des micronoyaux indiquant nettement leur pouvoir clastogène/aneugène. Aucune variation significative des variables biochimiques mesurées n’est apparue. La mise en évidence de leurs effets sur l’environnement L'exposition aux QDs et au CdCl2 a entraîné une augmentation significative des lésions de l'ADN chez E. fetida et N. diversicolor. / Quantum dots (QDs) are semiconductor nanocrystals which can be employed as sensitive biomarkers of cellular metabolism and thus show their usefulness in various fields, including medicine and it soon became necessary to prove their safety before their widespread use and their distribution in the environment. The thesis project targeted on: Genotoxicity of quantum dots and the role of oxidative stress implications for the environment and human health. This study was organized in three main parts The in vitro study of the genotoxic and mutagenic properties of QDs QDs induced primary DNA lesions in CHO-K1 cells using the comet assay and were associated with oxidative stress. We demonstrated that the QDs were more active after irradiation by the solar spectrum. We showed the ability of QDs to induce chromosomal mutations. The main mechanism was probably that of the production of free radicals. The in vivo study of the genotoxic and mutagenic properties of QDs The comet assay shows that QDs induced an overall significant increase in DNA lesions of different organs (liver, kidneys, lungs, brain and testes). However, each organ had a specific susceptibility. QDs induced a significant increase in a dose-dependent manner of micronuclei. These results clearly indicated the in vivo clastogenic / aneugenic properties of QDs. No significant variation in the measured biochemical variables. The evidence of their effects on the environment Evaluation of genotoxicity was performed on coelomocytes of E. fetida and N. diversicolor resulting in a significant increase in DNA damage.
648	Synthèse, stabilité et toxicité de quantum dots à coeur CdSe / Synthesis, stability and toxicity of CdSe core quantum dots Kauffer, Florence-Anaïs 22 January 2014 (has links) Parce qu'ils présentent des propriétés remarquables par rapport à leurs équivalents massifs, les nanomatériaux occupent une place de plus en plus importante dans l'industrie et en médecine. Leur essor rapide a généré de nombreuses craintes dans l'opinion publique notamment au regard de certaines méconnaissances liées à leur toxicité. Notre projet vise l'utilisation du séléniure de cadmium (CdSe) comme matériau modèle afin d'établir une corrélation entre la structure chimique des nanoparticules, leur réactivité de surface, leur (photo)stabilité et leur toxicité. Des quantum dots (QDs) CdSe et alliages CdSe(S) ont été préparés en milieu aqueux à 100°C ou par voie hydrothermale de manière à ne différer que par leur structure chimique de coeur (alliage ternaire vs semi-conducteur binaire) alors que d'autres paramètres comme la taille, la charge ou la nature du ligand de surface, ont été maintenus constants. Des études de cytotoxicité menées sur Escherichia coli ont montré que la libération de Cd2+ jouait un rôle important dans la toxicité pour les deux QDs. Nos résultats ont également mis en évidence que les QDs CdSe(S) alliés étaient plus stables et moins toxiques que les QDs CdSe. Sans négliger l'importance de la libération d'ion Cd2+ par les nanoparticules, une corrélation entre la stabilité et la production d'espèces réactives de l?oxygène (EROs) a montré que la toxicité était en partie dépendante de la photostabilité des QDs. Notre étude met en perspective une relation entre la réactivité, la stabilité du coeur des nanoparticules, et la toxicité photo-induite / Due to their unique properties compared to their bulk counterparts, nanomaterials have gained considerable attention, especially in industry and medicine. Their fast development has generated many public concerns, especially because of a lack of knowledge regarding their toxicity. Our project aims to use cadmium selenide (CdSe) as a model material in order to initiate a research aiming at establishing a correlation between the nanoparticles chemical structure, their surface reactivity, their stability and their toxicity. CdSe and alloyed CdSe(S) quantum dots (QDs) were prepared in aqueous phase either at 100°C or under hydrothermal conditions in order to differ solely by their core chemical structure (ternary alloy vs binary semiconductor), while other parameters such as the size, the surface charge or the surface ligand, have been kept constant. Cytotoxicity studies carried out on Escherichia coli have shown that release of Cd2+ played a key role in the toxicity for both QDs. However, alloyed CdSe(S) QDs were also found more stable and less toxic than CdSe nanocrystals. Without disregarding the importance of Cd2+ ions release by the nanoparticles, a correlation between the stability and the production of reactive oxygen species (ROS) showed that toxicity was dependent on QDs photostability. Our study highlights a relationship between the core reactivity, stability and the photo-induced toxicity QD nanoparticles Quantum Dots CdSe Alliage ternaire CdSe(S) Synthèse en milieu aqueux Photostabilité Cytotoxicité Espèces Réactives de l'Oxygène CdSe Quantum Dots CdSe(S) ternary alloy Aqueous synthesis Photostability Cytotoxicity Reactive Oxygen Species 537.622 1 615.925 662
649	Localisation du ganglion sentinelle au moyen de nanoparticules fluorescentes émettant dans le proche infrarouge : application au cancer du sein / Mapping of sentinel lymph node with near-infrared emitting nanoparticles : Breast cancer application Helle, Marion 14 November 2012 (has links) La biopsie du ganglion sentinelle (GS) est actuellement la technique de référence pour le diagnostic des métastases ganglionnaires du cancer du sein. Cependant, les traceurs utilisés pour la cartographie du GS (colorant bleu et radiocolloïde) ne sont pas idéaux et peuvent occasionner des réactions allergiques et engendrer des coûts importants. Une alternative à l'utilisation de ces traceurs repose sur le repérage du GS par imagerie de fluorescence proche infrarouge à l'aide de nanoparticules. Deux types de nanoparticules ont été étudiés : les Quantum Dots (QDs) à base d'indium et les nanoparticules de silice (NPSi) renfermant de la cyanine 7. Dans un modèle murin de carcinome mammaire, tous les GS envahis par les métastases ont pu être visualisés grâce à la fluorescence des QDs-indium. L'étude de biodistribution a mis en évidence une capture majeure des QDs au point d'injection et dans les ganglions associée à une faible concentration dans le foie et la rate. La toxicité des QDs a été évaluée in vitro et a démontré une toxicité fortement réduite des QDs-indium par rapport aux QDs-cadmium. Les NPSi présentent les avantages suivants : biocompatibilité, amélioration de la rétention dans le ganglion et des propriétés photophysiques par rapport au fluorophore libre. Le GS est rapidement visualisable par fluorescence suite à l'injection de NPSi. Le suivi des souris, pendant 3 mois post-injection, n'a révélé aucun signe de toxicité générale ou hépatique. Ces deux types de nanoparticules fluorescentes sont particulièrement bien adaptés à la cartographie du GS et pourraient avantageusement remplacer les traceurs employés actuellement / Sentinel lymph node (SLN) biopsy is a reliable technique for the diagnosis of metastases in breast cancer. However, the tracers used (blue dye and radiocolloid) are not optimal because they can cause allergic reactions and major costs in waste processing. Our strategy was to use near-infrared emitting nanoparticles for the mapping of SLN: indium-based Quantum Dots (QDs) and cyanine 7 embedded in silica nanoparticles (SiNP). In a murine model of mammary carcinoma, all SLN containing lymphatic metastases could be visualized with fluorescent indium-based QDs. The biodistribution study concluded that the major organs of retention were the injection point and lymph nodes whereas liver and spleen accumulated fewer QDs. The cytotoxicity tests demonstrated a weak in vitro toxicity of indium- compared to cadmium-based QDs. SiNP show several advantages over free fluorophore such as biocompatibility, better retention in the SLN and greatest photophysical properties. SLN could be mapped as soon as 5 minutes after SiNP injection. The in vivo toxicity in mice was followed during 3 months after injection and did not reveal any signs of general or hepatic toxicity. Both fluorescent nanoparticles are thus well adapted for the mapping of the SLN and could be a favourable substitute to the actually tracers Ganglion sentinelle Quantum Dots à base d'indium Nanoparticules de silice Cyanine Sentinel lymph node Near-infrared fluorescence imaging Indium-based Quantum Dots Silica nanoparticles Cyanine 616.994 49 616.075 4
650	Sistemas de análises químicas em fluxo explorando mecanismos de re-alimentação, calibração multivariada e outras abordagens para melhoria em desempenho / Flow systems exploiting feed-back mechanisms, multivariate calibration and other strategies for improving the analytical performance Fortes, Paula Regina 30 June 2010 (has links) Estudos foram conduzidos relativamente ao desempenho dos sistemas de análises em fluxo quando configurados como sistemas inteligentes, associados às técnicas de calibração multivariada ou empregando nanocristais como sensibilizadores. Ainda, melhorias relacionadas às modificações dos fluxos foram avaliadas, especialmente no que se refere à diálise em linha. Neste sentido, foi proposta uma nova estratégia para implementar determinações simultâneas de ferro e vanádio em ligas metálicas envolvendo cinética diferencial. O método baseava-se nas diferentes influências exercidas por Fe2+ e por V4+ na taxa de oxidação de íons iodeto por íons Cr6+ sob condições ácidas. Três diferentes alíquotas de amostra eram inseridas em um fluxo transportador / reagente de KI, confluindo posteriormente com um fluxo de K2Cr2O7. A sobreposição entre as três zonas de amostra estabelecidas resultava em uma zona de amostra complexa com diversos valores de absorbância. Medidas realizadas nos pontos de máximos e minímos do sinal registrado eram mais precisas e continham informações acerca dos diferentes estágios de desenvolvimento da reação e de diferentes condições de concentrações. Em outra estratégia, um sistema MPFS inteligente foi proposto para a determinação turbidimétrica sequencial de sulfato e cloreto em águas naturais. Ambos os métodos foram implementados no mesmo módulo de análises, proporcionando facilidades relativas ao: preparo de amostra em linha; adição de íons sulfato ou cloreto ao meio reacional para melhoria das condições de supersaturação; decisão em tempo real acerca da necessidade ou não da próxima análise. Inicialmente, determinava-se a concentração de cloreto presente na amostra, e este resultado era comparado com um valor pré-determinado. Se este fosse superior, a amostra era analisada novamente visando à determinação de sulfato. Caso contrário, uma nova amostra era analisada. A estratégia resultou em aumento da velocidade analítica e em boas figuras de mérito analítico. Estudos relativos à natureza do fluxo foram conduzidos avaliando-se o desempenho dos fluxos pulsados provenientes de bombas solenóide em relação à eficiência do transporte de massas, dispersão da zona de amostra relacionada com a mudança de sentido do fluxo e eficiência do processo de diálise quando comparados aos fluxos tipicamente laminares. Embora fosse observada a presença de vórtices, o número de Reynolds experimentalmente obtido demonstrou que o fluxo resultante não era turbulento. Porém seu perfil exibia características de mescla turbulenta, melhorando assim o desempenho relativo ao transporte de massas e redução da dispersão da zona de amostra. Entretanto, beneficios relativos a melhorias no processo de diálise foram ausentes devido provavelmente à alta pressão exercida dentre da câmara de diálise, com consequente deformação dos poros da membrana. Nestas situações, um sistema de análises híbrido (com fluxo laminar e mescla turbulenta) seria fortemente recomendado. Finalmente, a implementação de nanocristais quantum dots (QDs) como sensibilizadores em um sistema MPFS envolvendo reação quimioluminescente foi proposta para a determinação de glipizida e gliclazida em formulaçoes farmacêuticas. O método fundamentava-se na oxidação dos íons S2- por Ce4+ em meio ácido. Na presença dos analitos, a intensidade da radiação emitida era inibida. A influência do diâmetro médio dos nanocristais foi avaliada, e os critérios utilizados para o dimensionamento do sistema foram a repetibilidade, a reprodutibilidade e a sensibilidade analítica. Os analitos foram quantificados no mesmo módulo de análises, e boas figuras de mérito analítico foram verificadas. Os resultados obtidos se apresentaram concordantes com aqueles obtidos pela Farmacopéia Britânica / Studies focusing on performance of intelligent analytical flow systems, association with multivariate calibration or use of nanocrystals as sensitizers were carried out. Moreover, improvements related to modifications in flow pattern were evaluated with emphasis to in-line dialysis. To this end, a strategy for implementing simultaneous determinations of iron and vanadium in alloys relying on differential kinetics was proposed. The method was based on the influence of Fe2+ and V4+ on the rate of iodide oxidation by Cr6+ under acidic conditions. Three different plugs of the sample were sequentially inserted into an acidic KI reagent carrier stream, and a confluent K2Cr2O7 solution was added downstream. Overlap between the established plugs led to a complex sample zone with several regions of maximal and minimal absorbance values. Measurements performed on these regions were more precise and revealed the different degrees of reaction development. In another strategy, an intelligent MPFS was proposed for sequential turbidimetric determination of sulphate and chloride in natural waters. Both methods were implemented in the same manifold, providing facilities for: in-line sample cleanup; addition of low amounts of sulphate or chloride ions to the reaction medium for improving supersaturation conditions and real-time decision on the need for next assay. The sample was initially run for chloride determination, and the analytical signal was compared with a preset value. If higher, the sample was run again, now for sulphate determination. Otherwise, next sample was assayed. The strategy led to an increased sample throughput and good analytical figures of merit. Studies focusing on the flow pattern were carried out aiming at the evaluation of the influence of the pulsed flows delivered by solenoid pumps in relation to the efficiency of mass transfer, dispersion related to changes in flow direction of the sample zone and dialysis process as compared with typical laminar flow. Although the establishment of vortices were noted, the experimentally obtained Reynolds number showed that a turbulent flow was not established. Its pattern exhibited characteristics which improved the performance due to the enhanced radial mass transport inherent in turbulent mixing. Comparatively to laminar flow, beneficial aspects were noted in relation to sample dispersion and mass transfer. In relation to dialysis efficiency however process the benefits were not noted probably due to the high pressure inside the dialysis chamber, with consequent membrane pore deformation. In this situation, a hybrid flow analysis system (with laminar flow and turbulent mixing) might be recommended. Implementation of quantum dots nanocrystals (QDs NC) as sensitizers in a MPFS with chemiluminometric detection was proposed for the determinations of gliclazide and glipizide in pharmaceutical formulations. The method relied on the oxidation of sulphite by Ce4+ in acidic medium and, in the presence of the analytes, the emitted radiation of the Ce4+-SO3 2--CdTe QDs system was inhibited. Influence of crystal size was investigated, and the criteria for system optimization were the analytical repeatability, reproducibility and sensitivity. Both analytes were quantified in the same manifold, resulting in good analytical figures of merit. The results were in fairly good agreement with those obtained by the British Pharmacopoeia reference method Calibração multivariada Diálise Dialysis Flow injection analysis Intelligent systems Mescla turbulenta Multi-pumping flow system Multivariate calibration Nanocristais Quantum Dots Quantum Dots nanocrystals Sistemas com multi-impulsão Sistemas inteligentes Turbulent mixing

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