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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Manipulation and Biological Applications of Gold Nanorods

January 2011 (has links)
This thesis compared anionic polyelectrolyte wrapping stabilization with poly(sodium 4-stryene-sulfonate), (PSS), polyelectrolyte and methoxy (polyethylene glycol)-thiol (mPEG (5000) -SH) strategies. From this data the critical gold nanorod (GNR) and cetyl-trimethylammonium bromide (CTAB) concentration ratio needed for GNR stabilization was determined using optical and chemical extraction methods. This was followed by functionalization with a heterobifunctional Polyethylene glycol (PEG) linker, such as a-thio-w-carboxy poly(ethylene glycol) termed t-PEG-c and carbodiimide chemistries for antibody linkage with Immunoglobulin G (IgG), and epidermal growth factor receptor (EGFR) based Human Epidermal growth factor Receptor 2 (Her2), and Cetuximab (C225) antibodies, for in vitro cancer cell targeting. Confocal, two-photon luminescence (TPL), and dark scattering microscopy, and fluorescence, zeta potential, and Nanoparticle Enzyme-linked immunosorbent assay (ELISA) were used to monitor changes to the GNR surface. An untreatable form of bladder cancer was then studied using the t-GNR-PEG-c-Ab bioconjugates with C225 antibody, which housed a glyceraldehyde-3-phosphate (GAPDH), Fluorescein isothiocyanate (FITC) labeled siRNA, termed GAPDH-siRNA-FITC, which was included within a Luciferase based plasmid. A salt based electrostatic heating method was used to trap the GAPDH-siRNA-FITC from the PEG layer by activating the PEG polymer pour point, while a laser based heating system was used for in vitro release inside cancer cells. The down regulation of the GAPDH gene was targeted by the siRNA. as GAPDH has been shown to be up-regulated in many cancers and down-regulated by chemotherapeutic drugs. Cell culture, and subsequent imaging by transmission electron microscopy (TEM), TPL and confocal microscopy were used to view the internalized conjugates, and reverse transcriptase polymerase chain reaction (RT-PCR) were used to determine if the release of the GAPDH-siRNA caused a reduction in the expression of GAPDH-mRNA. Plasmonic gene silencing of the gene by the GAPDH-siRNA was then compared to a lipid based Dharmafect control in terms of transfection ability. RT-PCR results evidenced gene silencing of the plasmonic-GAPDH-siRNA vector when compared to the Dharmafect control. Silencing likely resulted from the zwitterionic charges of the plasmonic vector and the encapsulated GAPDH-siRNA, which yielded near neutral charge tendencies. This differs significantly from the Dharmafect lipid vector, which is cationic in nature. Endosomal release of the plasmonic vector is further enhanced by the laser excitation of the GNR at the longitudinal surface plasmon resonance (LSPR), which allows for the endosomal release of the GAPDH-siRNA through pore formation leading to cytoplasmic transport and subsequent gene silencing. Near neutral charges were welcomed in this plasmonic gene therapy study as they tend to favor endosomal release, pore formation, and transport.
12

Synthesis, Characterization, and Self-Assembly of Size Tunable Gold Nanorods

Park, Kyoungweon 20 November 2006 (has links)
The successful applications of nanoparticles require the ability to tune their properties by controlling size and shape at the nanoscale. In metal nanomaterial research, the optical properties have been of interest especially because of the applications to medical diagnostics and nanooptics. It is important to prepare nanoparticles of well-defined shape and size for properly characterizing the optical properties. We describe improved seed mediated synthesis of gold nanorods (GNRs) producing a high yield of NRs with low polydispersity and few byproducts. The efficient separation of GNRs from mixture of shapes is achieved by understanding the hydrodynamics of nanoparticles undergoing centrifugation. The optical properties of resulting refined GNRs are compared to predictions of existing theories, and the main parameters affecting them are discussed. GNRs with well defined aspect ratios are introduced into a polyvinyl alcohol matrix by means of solution-casting techniques. The film is drawn to induce the uniaxial alignment of GNRs to be used as color polarizing filters. We prepare GNR polarizing filter with different peak positions ranging from visible to near infra red by using different aspect ratio of NRs. To utilize GNRs to make nanoscale devices, spatial organization is required. We characterize the self-assembly of GNRs observed on a TEM grid. The drying process is accompanied by complex hydrodynamic and thermodynamic events, which create rich range of patterns observed. Being anisotropic in shape, the rods can form liquid crystal (LC) assemblies above a certain concentration. We observed LC phase of GNRs by resorting to an evaporation of aqueous NR solution. The convective flow caused by the solvent evaporation carries NRs from the bulk solution to solid-liquid-air interface, which makes the solution locally very concentrated driving the phase transition of NRs. We calculate the order parameter from various assemblies observed, and compare the observed phase behavior to the one expected on the basis of theory.
13

Ground state depletion microscopy for imaging the interactions between gold nanoparticles and fluorescent molecules

Blythe, Karole Lynn 27 February 2013 (has links)
Ground state depletion with individual molecule return (GSDIM) super-resolution microscopy is used to interrogate the location of individual fluorescence bursts from two different nanoparticle-fluorophore systems. The first system consists of fluorophore-labeled DNA molecules on gold nanowire surfaces. In this system carboxytetramethyl rhodamine-labeled double-stranded DNA molecules were bound to the surface of gold nanowires via gold-thiol linkages. The second system focuses on mesoporous silica coated nanorods with dye embedded into the silica coating. The dye molecule, Rhodamine 6G, was incorporated into the silica shell during the nanorod coating procedure. Individual fluorescence bursts were spatially localized using point spread function fitting and used to reconstruct the image of the underlying nanowire or nanorod. / text
14

Biossensores eletroquímicos para fins ambientais e medicinais / Electrochemical biosensors to medical and environmental applications

Laís Ribovski 19 February 2015 (has links)
Embora exista considerável progresso na área de biossensores, ainda é primordial aprimorar muitos desses dispositivos. Este trabalho tem por objetivo contribuir para o contínuo crescimento dos biossensores a base de enzimas e de moléculas de DNA, sendo dois biossensores eletroquímicos descritos. O primeiro trata-se de um biossensor enzimático utilizando tirosinase (Tyr) imobilizada por intermédio de cistamina (CYS) e glutaraldeído (GA) para a detecção de compostos fenólicos. Eletrodos de carbono impressos (SPCE) foram modificados com nanobastões de ouro (AuNRs) em filme de poli(amido amina) (PAMAM) geração 4 para o favorecimento da transferência direta de elétrons (DET) entre o eletrodo e o sítio ativo da enzima. Para caracterizar os AuNRs e AuNRs-PAMAM, espectroscopia de absorção no UV-Visível, espalhamento de luz dinâmico (DLS) e microscopia eletrônica de varredura (SEM) foram empregadas. As etapas do biossensor foram estudadas por voltametria cíclica e linear, amperometria e microscopia de força atômica (AFM) na presença de dois analitos: catecol (CAT) e dopamina (DA). A faixa linear para CAT foi de 2,8 a 30,3 μmol L-1 com um limite de detecção (LD) de 1,0μmol L-1 enquanto para a DA, a faixa linear foi de 27,8 a 448,7 μmol L-1 e LD de 10,0 μmol L-1. Além de apresentar ótima resposta frente a possíveis interferentes, o sensor também mostrou excelente desempenho em amostras reais, que atrelados aos testes de repetibilidade e reprodutibilidade mostram a estabilidade e acurácia do biossensor. O segundo sensor, trata-se de um sensor de DNA impedimétrico em eletrodo de ouro para a detecção da mutação c.68_69del relacionada à predisposição ao câncer de mama. A imobilização da sequência de captura (SH-ssDNA) no eletrodo ocorreu pela ligação ouro-enxofre (Au-S) e o modelo de hibridização escolhido foi a hibridização direta. O genossensor distinguiu eficientemente entre as sequências alvo (tarDNA) e não-complementar (ncsDNA), apresentando faixa linear de 1,0 a 200,0 nmol L-1 e LD de 0,14 nmol L-1. Os resultados sugerem que ambos biossensores têm potencial e que as estratégias propostas são promissoras para o desenvolvimento de outros biossensores. / Despite a considerable progress in the area of biosensors, it is still crucial to improve most of these sensors. This study aims to contribute to the ongoing growth of enzyme- and DNA-based biosensors, being described two electrochemical biosensors. The first one is an enzyme-based biosensor with immobilized Tyrosinase (Tyr), through cystamine (CYS) and glutaraldehyde (GA), for detection of phenolic compounds. Screen-printed carbon electrodes (SPCE) were modified by gold nanorods (AuNRs) stabilized with poly(amide amine) PAMAM generation 4 to facilitate direct electron transfer (DET) between electrode and enzyme active site. AuNRs and AuNRs-PAMAM were characterized using UV-Visible absorption spectroscopy, dynamic light scattering (DLS) e scanning electron microscopy (SEM). Biosensor stages were studied by cyclic and linear voltametry, amperommetry and atomic force microscopy (AFM) and tested agains two analytes: catechol (CAT) and dopamine (DA). Detection limit (LD) for CAT is 1 μmol L-1 and linear range from 2.8 to 30.3 μmol L-1, for DA, LD is 10.0 μmol L-1 and linear range 27.8 to 448.7 μmol L-1. Besides, the biosensor shows great response in the presence of interferents, it also had an excellent performance in real samples that along with repeatability and reproducibility tests indicate stability and accuracy of the biosensor. The second sensor is an impedimetric DNA sensor prepared on gold electrode to detect c.68_69del mutation related to breast cancer predisposition. Capture sequence (HS-ssDNA) immobilization occurred due to gold-sulfur bond (Au-S) and direct hybridization was the chosen hybridization model. The genosensor was able to distinguishing between target sequence (tarDNA) and non-complementary sequence (ncsDNA) and linear range and LD were found to be 1.0 to 200.0 nmol L-1 and 0.14 nmol L-1, respectively. Results suggest both biosensors have potential and proposed strategies are promising for other biosensors development.
15

Plasmon-Mediated Photothermal Phenomena and Nanofabrication of Applicable Devices

Marquez Soto, Daniela Trinidad January 2017 (has links)
This thesis studies the different ways in which the localized plasmon heating effect of gold nanostructures -activated by plasmon excitation via visible and/or NIR irradiation- can be used to obtain different outcomes following the nanofabrication of applicable devices. Both spatial and temporal control were obtained for each one of the systems developed upon the incorporation of plasmonic gold nanostructures. Spatial control was enabled in hybrid mesoporous drug delivery systems fabricated in this thesis through the localized surface plasmon heating effect that allowed the modification of the dynamics of diffusion of the cargo being delivered, thus giving rise to different rates of release that can be controlled by plasmon excitation. At the same time, the plasmon heating effect proved to be capable of controlling the start of the release by dismantling thermo-responsive gates previously incorporated, thus enabling also a wavelength-controlled feature that enhances the versatility of these systems. Spatial control was also conferred to the photo-patterning applications presented in this dissertation by influencing the degree of motility of gold nanorods (AuNRs) embedded in polymer matrices allowing them to self-assemble when the longitudinal plasmon of the incorporated nanostructures was excited; the patterns generated were quite robust and persisted for extended periods of time. Finally, the feature of spatial heating control was also conferred to catalysis. The Friedel-Crafts alkylation of anisole by benzyl chloride using spherical gold nanoparticles (AuNPs) supported on Nb2O5-based catalysts was performed at bulk temperatures below those necessary for the reaction to occur when using bare or modified Nb2O5; this was the result of the combination of bulk and localized plasmon heating produced -both- via plasmon excitation. This also demonstrates the possibility of using plasmon excitation as an alternative heat source in this type of reactions. By combining the plasmonic properties of metallic nanostructures with those granted by mesoporous materials, polymer matrices and Nb2O5-based materials it was possible to obtain light-activated systems endowed also with temporal control and wavelength control while preserving the original properties of each systems' components. Overall, the content of this thesis describes in detail the practical aspects of combining gold nanostructures with different materials and the rationale behind the development of systems with customized and controllable properties.
16

Engineering Gold Nanorod-Based Plasmonic Nanocrystals for Optical Applications

Huang, Jianfeng 09 1900 (has links)
Plasmonic nanocrystals have a unique ability to support localized surface plasmon resonances and exhibit rich and intriguing optical properties. Engineering plasmonic nanocrystals can maximize their potentials for specific applications. In this dissertation, we developed three unprecedented Au nanorod-based plasmonic nanocrystals through rational design of the crystal shape and/or composition, and successfully demonstrated their applications in light condensation, photothermal conversion, and surface-enhanced Raman spectroscopy (SERS). The “Au nanorod-Au nanosphere dimer” nanocrystal was synthesized via the ligand-induced asymmetric growth of a Au nanosphere on a Au nanorod. This dimeric nanostructure features an extraordinary broadband optical absorption in the range of 400‒1400nm, and it proved to be an ideal black-body material for light condensation and an efficient solar-light harvester for photothermal conversion. The “Au nanorod (core) @ AuAg alloy (shell)” nanocrystal was built through the epitaxial growth of homogeneously alloyed AuAg shells on Au nanorods by precisely controlled synthesis. The resulting core-shell structured, bimetallic nanorods integrate the merits of the AuAg alloy with the advantages of anisotropic nanorods, exhibiting strong, stable and tunable surface plasmon resonances that are essential for SERS applications in a corrosive environment. The “high-index faceted Au nanorod (core) @ AuPd alloy (shell)” nanocrystal was produced via site-specific epitaxial growth of AuPd alloyed horns at the ends of Au nanorods. The AuPd alloyed horns are bound with high-index side facets, while the Au nanorod concentrates an intensive electric field at each end. This unique configuration unites highly active catalytic sites with strong SERS sites into a single entity and was demonstrated to be ideal for in situ monitoring of Pd-catalyzed reactions by SERS. The synthetic strategies developed here are promising towards the fabrication of novel plasmonic nanocrystals with fascinating properties for nanoplasmonics and nanophotonics.
17

Large Gold Nanorods Cytotoxicity in Human Red Blood Cells

Poluparthi, Aparna Kranthi January 2018 (has links)
No description available.
18

Analytical-based Methods for Studying the Interaction of Human Red Blood Cells with Noble Metal Nanoparticles

Alla, Praveen Kumar 25 May 2022 (has links)
No description available.
19

Truly Non Invasive Glucose Optical Sensor Based On Metal Nanoparticles Generation

Garcia, Marisol 01 January 2006 (has links)
Diabetes is a disease that causes many complications in human normal function. This disease represents the sixth-leading cause of death in USA. Prevention of diabetes-related complications can be accomplished through tight control of glucose levels in blood. In the last decades many different glucose sensors have been developed, however, none of them are really non invasive. Herein, we present the study of the application of gold and silver nanoparticles with different shapes and aspect ratios to detect glucose traces in human fluids such as tears and sweat. This is to our knowledge the first truly non invasive glucose optical sensor, with extraordinary limit of detection and selectivity. The best proven nanoparticles for this application were gold nanospheres. Gold nanospheres were synthesized using chloroauric acid tri-hydrated (HAuCl4.3H2O) in solution, in the presence of glucose and ammonia hydroxide. The higher the glucose concentration, the higher the number of nanoparticles generated, thus the higher the extinction efficiency of the solution. The linear dependence of the extinction efficiency of the gold nanoparticles solution with glucose concentration makes of this new sensor suitable for direct applications in biomedical sensing. Our approach is based on the well known Tollens test.
20

LIQUID CRYSTALLINE NANOCOMPOSITES: FROM ACHIRAL TO CHIRAL SYSTEMS

Gutierrez Cuevas, Karla Guadalupe, Gutierrez 31 July 2017 (has links)
No description available.

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