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1	Adhesion of silver nanoparticle amendments to ceramic water filters Mikelonis, Anne Marie 17 September 2015 (has links) Silver nanoparticles (Ag NPs) are frequently added as a disinfectant to ceramic filters used for household drinking water treatment. To provide suspension phase particle stability, Ag NPs can be synthesized using a number of different molecules to cap the metal core. The goal of this doctoral work was to advance the fundamental understanding of how stabilizing agents influence the attachment and detachment of Ag NPs from ceramic water filters. To achieve this goal, deposition experiments onto Al₂O₃ membranes and clay-based ceramic filters were performed using Ag NPs stabilized by three different agents: citrate, polyvinylpyrrolidone (PVP), and branched polyethylenimine (BPEI). Laboratory and field- scale filtration experiments were also conducted to evaluate the removal of Ag NPs from ceramics under different water conditions -- the presence of hardness and natural organic matter (NOM). Citrate-stabilized Ag NPs were found to have the highest attachment densities, regardless of filter material. Differing attachment densities for the three types of Ag NPs were extensively explained using a combination of classic Derjaguin, Landau, Verwey and Overbeek (DLVO) theory, steric forces, and particle-particle interaction energy calculations. A multilevel statistical model was built to describe the removal of Ag NPs from ceramic water filters under different water conditions. The type of Ag NP was found to affect the initial release of Ag from the filters, while the interaction of the type of Ag NP and water were found to affect the rate of removal. Hardness and NOM prolonged the release of Ag from ceramic water filters. Ag nanoparticles Ceramic water filters Drinking water treatment
2	Vývoj a optimalizace systémů pro SERS na úrovni jedné molekuly / Development and optimization of systems for SERS on single molecule level Michlová, Magdalena January 2012 (has links) AABBSSTTRRAACCTT Dimers and small aggregates as well as compact aggregates of Ag nanoparticles (NPs) were assembled and chemically anchored to supporting surfaces. The supporting surfaces were either glass slides or SiO2 - coated Cu or Au grids for TEM, both chemically functionalized by 3-aminopropyltrimethoxysilane (APTMS). Compact aggregates of Ag NPs incorporating protoporphyrin IX (PPIX) molecules were prepared by adsorption of chlorides in the presence of PPIX. Dimers and small aggregates of Ag NPs were assembled by selected molecular linkers: 4,4'-diaminoazobenzene (DAAB), 4,4'-diaminoterphenyl (DATP) and 5,10,15,20-tetrakis(4-aminophenyl)porphine (TAPP). The most efficient strategy of dimers and small aggregates preparation has been their assembling by a three - step procedure involving (i) attachment of isolated Ag NPs to the NH2 groups of APTMS functionalized TEM grid, (ii) attachment of molecular linker (with two functional NH2 groups in para position) to Ag NPs by a one terminal NH2 group, and (iii) attachment of Ag NPs to the second, free terminal NH2 group of the linker. In this procedure, the control over the perpendicular orientation of the bifunctional linker and its attachment by one terminal group to Ag NP surface has been accomplished by functionalization of Ag NPs by adsorbed citrate...
3	Development of Filter-Based Surface Enhanced Raman Spectroscopic Assays for Rapid Detection of Chemical and Biological Contaminants in Water Gao, Siyue 07 November 2016 (has links) Surface enhanced Raman spectroscopy (SERS) has been widely applied for rapid and sensitive detection of various chemical and biological targets. Here, we incorporated a syringe filter system into the SERS method to detect pesticides, protein toxins and bacteria in water. For the detection of chemical and protein targets, silver nanoparticles (Ag NPs) were aggregated by sodium chloride (NaCl) to form nanoclusters that could be trapped in the pores of the filter membrane to from the SERS-active membrane. Then a coating of capture (e.g. aptamer) was integrated on the nanoparticle substrate if needed. Then samples were filtered through the membrane. After capturing the target, the membrane was taken out and air dried before measuring by a Raman instrument. The developed filter SERS method was able to detect fungicide ferbam as low as 2.5 ppb level and had a good quantitative capability, which could also be carried out on site using a portable Raman instrument. The aptamer integrated filter SERS was able to detect ricin b chain in water at 100 ppb level. The filter membrane was then applied to detect bacteria E.Coli with the integration of 4-mpba as a capture and indicator. With SERS mapping, we can detect E.Coli down to 101 CFU/ml and the viability of bacteria on the membrane could be confirmed by incubating the membrane on TS agar down to 102 CFU/ml. This study shows the filter based SERS methods improve the detection capability in water samples, with a great versatility for various types of assays. Ag Nanoparticles SERS filter-based method ferbam ricin bacteria Analytical Chemistry Environmental Chemistry
4	Příprava a charakterizace TiO2 nanotrubiček dekorovaných stříbrem pro biomedicínské účely / Fabrication and characterisation of silver decorated TiO2 nanotubes for biomedical applications Bílek, Ondřej January 2017 (has links) This diploma thesis summarizes knowledge from the fields of synthesis, characterization and application of titanium dioxide nanotubes and its combination with silver nanoparticles for biomedical purposes. Basic protocols of working with cell cultures and bacteria are also included. Experimental part of this diploma thesis focuses mainly on the synthesis of tubular structures made of titanium dioxide via anodic oxidation of 500nm titanium layer and their subsequent decoration with silver by electrodeposition. Last section of the experimental part is devoted to testing of antibacterial properties of the new material and examining the effect of different silver concentrations on the adhesion of MG-63 cells. All results are compared to reference samples consisting of titanium dioxide nanotubes without silver.
5	Multifunctional photocatalytic substrates and textiles constructed via Layer-by-Layer self-assembly of Ag and TiO2 nanoparticles / Substrats et textiles multifonctionnels construits par assemblage couche-par-couche de nanoparticules d’Ag et TiO2 Motay, Marvin 03 July 2018 (has links) Des films multicouches à base de nanoparticules de TiO2 et d’Ag ont été construits sur des substrats modèles et des textiles via la technique du Layer-by-Layer (LbL). Les films à base de nanoparticules de TiO2 construits sur substrats modèles ont montré un comportement photocatalytique non conventionnel pour la minéralisation de l’acide formique en phase gaz sous irradiation UV-A, et une minéralisation très importante a été obtenue avec un film possédant une unique couche de nanoparticule de TiO2. Ces films ont également montré des propriétés biocides sous irradiation UV-A. La mise en œuvre d’une méthode one-pot, combinant la synthèse photo-induite des nanoparticules d’Ag et dépôt de la couche de TiO2 par LbL, a permis la synthèse de nanoparticules d’Ag directement au sein des films et une exaltation très importante des propriétés photocatalytiques des films. Les méthodes de constructions ont été transférées avec succès sur textiles. Les films restent photocatalytiquement actifs et biocides sous irradiation UV-A après plusieurs cycles de lavages. / TiO2 and Ag nanoparticle multilayered films were constructed on model substrates and textiles via Layer-by-Layer (LbL) assembly. The TiO2 nanoparticle based films constructed on model substrates showed a non-conventional photocatalytic behaviour for gas phase formic acid mineralisation upon UV-A irradiation, and a high mineralisation was obtained for a single layer TiO2 nanoparticle film. These films also showed biocidal properties upon UV-A irradiation. The elaboration of a one-pot method, combining the photo-induced synthesis of Ag nanoparticles and the LbL deposition of TiO2 nanoparticle layer, allowed the direct synthesis of Ag nanoparticles within the films and a high enhancement of the film photocatalytic properties. The construction methods were successfully transfered on textile surfaces. The films were photocatalytically active and biocidal under UV-A irradiation after several washing treatment cycles. Auto-décontamination Layer-by-Layer TiO2 Nanoparticules d’Ag Bactérie Acide formique Textile Photocatalysis Auto-decontamination Layer-by-Layer TiO2 Ag nanoparticles Bacteria Formic acid Textile 541.3
6	Optical Investigation of Single Fluorophores and their Application as Sensitive Probes in Soft Matter Science Krause, Stefan 06 May 2015 (has links) (PDF) Im Mittelpunkt dieser Arbeit steht die Verwendung verschiedener Fluoreszenzfarbstoffe in Form photostabiler Perylenbisimide sowie etallischer Nanopartikel zur Untersuchung von Polymeren und nanoskopischen Flüssigkeitsfilmen. Einzelmoleküluntersuchungen zeigen, dass eine chemische Modifizierung der Farbstoffe durch löslichkeitserhöhende Seitengruppen, Molekülkonformationen mit stark variierenden Emissionswellenlängen je nach Seitengruppen-orientierung zur Folge hat. Zeitabhängige Fluoreszenzmessungen an einzelnen Molekülen ermöglichen eine direkte Beobachtung von Übergängen zwischen diesen molekularen Konformationen deren Dynamik vorwiegend durch die Eigenschaften der umgebenden Polymermatrix bestimmt wird. Die gewonnenen Ergebnisse lassen somit Rückschlüsse auf die nanoskopische Umgebung des Moleküls zu. Es werden diskrete Zustände innerhalb der Molekülumgebung sowie eine erhöhte Konformationsdynamik im Falle von alkylsubstituierten Perylenbisimiden beobachtet. Darüber hinaus werden die nanoskopischen Auswirkungen von makroskopischen, mechanischen Deformationen auf amorphe Polymerfilme mikrorheologisch mit Hilfe von stäbchenförmigen Perylenbisimiden studiert. Die gewonnenen Einzelmoleküldaten ermöglichen die Berechnung der lokalen, mikroskopischen Deformation sowie der Orientierung der Sondenmoleküle, welche gut mit einem Model für stäbchenförmige Objekte in einem uniaxial deformierten Kontinuum übereinstimmt. In weiteren Experimenten gelingt der Nachweis ultradünner Wasserfilme auf SiO2-Oberflächen durch Messung der Diffusion von Silbernanopartikeln. Die verwendeten Nanopartikel weisen hierbei eine monodisperse Größenverteilung im Bereich von einem Nanometer als Resultat ihrer Synthese in Y-Zeolith-Kristallen auf. Die Untersuchungen ergeben eine Filmdickenabhängigkeit des Diffusionsverhaltens sowie einen starken Einfluss durch Oberflächensilanisierung bzw. Hydroxylierung. Ag-Nanopartikel Einzelmolekülspektroskopie Fluoreszenz Perylenbisimid Polymerdynamik Polymerrheologie Ag-Nanoparticles Single Molecule Spectroscopy Fluorescence Perylendiimide Polymerdynamics Poylmerrheology ddc:500 ddc:530 ddc:539 Einzelmolekülspektroskopie Nanopartikel Rheologie Polymere
7	Introducing a wax-based temperature-time dependent threshold sensor Körbitz, René, Heinig, Andreas, Fischer, Wolf-Joachim 24 January 2025 (has links) Temperature monitoring is an important tool for a broad variety of sensitive goods to maintain their quality and integrity during supply chain operations. To balance cost and benefit, many applications use sensors that only monitor a specific reference temperature limit. These sensor elements should be lightweight, low cost, and ready for wireless readout. In this work, an innovative sensor concept is presented that can meet these requirements. It irreversibly changes its electrical resistance from low impedance to high impedance if a certain temperature value is violated. The sensor element uses wax as a temperature-dependent element. If its melting temperature is exceeded, the liquid wax starts to flow into a textile reservoir. The descending liquid level of the outflowing wax disrupts an inkjet-printed nanoparticle layer that electrically connects the sensor’s input and output contact. A fluidic resistance between wax and textile reservoir regulates the speed of wax flow. Thus, it is possible to set a time delay for triggering the sensor after the threshold temperature is reached. This article demonstrates the feasibility of the proposed sensor concept experimentally. Furthermore, the sensor element is connected to a custom-made radio frequency identification (RFID) tag, which allows wireless readout of the sensor state. From the authors’ point of view, the simple functional principle combined with the good scalability of the sensor concept offers a high potential for smart packaging applications. info:eu-repo/classification/ddc/620 ddc:620 info:eu-repo/classification/ddc/004 ddc:004
8	Hybrid mesoporous materials for the oxidative depolymerization of lignin into valuable molecules / Matériaux hybrides mésoporeux pour la dépolymérisation oxydante de la lignine en molécules à haute valeur ajoutée Nunes, Andreia 08 February 2016 (has links) La lignine est un des polymères naturels les plus abondants et le seul constituant de la biomasse basé sur des unités aromatiques et, à ce titre, représente une ressource renouvelable prometteuse pour la production durable de molécules organiques plus complexes. Les travaux de cette thèse portent sur le développement de matériaux catalytiques capables de transformer sélectivement la lignine en molécules fonctionnelles de base, hautement oxygénées, et l'étude de leur mise en oeuvre en condition alcaline oxydante en utilisant le peroxyde d'hydrogène comme donneur d'oxygène. Différentes familles de matériaux hybrides de type SBA-15 à base de titane, Au/titane, Ag/titane et Fe(TAML) ont tout d'abord été synthétisées et entièrement caractérisées. Des études catalytiques comparatives ont ensuite été réalisées afin d'évaluer leurs performances en termes de degré de dépolymérisation et distribution de produits. Le catalyseur présentant le plus fort potentiel, le matériau TiO2 supporté sur SBA-15, a ensuite été soumis à des études de réactivité plus poussées afin d'optimiser les différents paramètres réactionnels (température, temps de réaction et quantité d'oxydant) permettant d'atteindre en présence d'un excès d'oxydant jusqu'à 90 %pds de conversion de la lignine et à 80°C un rendement en bio-huile de 50%pds constituée principalement d'acides carboxyliques et molécules aromatiques potentiellement valorisables / Lignin is one of the most abundant natural polymers and the only biomass constituent based on aromatic units and as such represents a promising renewable resource for the sustainable production of complex organic molecules. This dissertation reports on the development of catalytic materials capable of selectively transform lignin into basic functional molecules with high oxygen content and the study of their performance under alkaline oxidative conditions, using hydrogen peroxide as oxygen donner. Different families of hybrid materials based on the SBA-15 scaffold were first synthesized by incorporation of titanium, Au/titanium, Ag/titanium and Fe-TAML and completely characterized. Comparative catalytic studies were then accomplished in order to evaluate their performance in terms of degree of depolymerization and product distribution. The catalyst with the highest potential, the TiO2 based SBA-15 material, was then submitted to further reactivity studies in order to optimize the different reaction parameters (temperature, reaction time and quantity of oxidant). In the presence of an excess of oxidant, conversions up to 90 wt. % were obtained, whereas a temperature of 80 °C allowed to obtain a yield in bio-oil of 50 wt. %, which is mainly composed of carboxylic acids and aromatic molecules with potential to be further valorized Lignine Oxydation alcaline Dépolymérisation Peroxyde d’hydrogène Matériaux hybrides SBA-15 Titane Au/Ag nanoparticules Lignin Alkaline oxidation Depolymerization Hydrogen peroxide Hybrid materials SBA-15 Titanium Au/Ag nanoparticles 541
9	Modification de nanotubes de TiO2 pour la production d’hydrogène par photodissociation de l’eau sous lumière solaire / Modification of TiO2 nanotubes for hydrogen production by water-splitting under solar light Gross, Pierre-Alexandre 21 November 2014 (has links) Ce travail de thèse traite de la production d’hydrogène par le procédé de photoélectrocatalyse en utilisant une photoanode à base de nanotubes de TiO2 verticalement alignés. L’utilisation du TiO2 étant limité pour des applications solaires en raison de son large gap, il est nécessaire de le modifier. Deux approches sont proposées pour modifier les nanotubes de TiO2 et leur permettre d’absorber la lumière visible. La première est une modification chimique du TiO2 par co-dopage cationique-anionique (Ta-N) ou (Nb-N). Les cations sont insérés durant la croissance des nanotubes grâce à une approche inédite, et l’azote est inséré durant le traitement thermique. Ceci a pour effet la formation d’orbitales hybrides qui entraîne une réduction du gap et une activité sous lumière visible, tout en permettant une stabilité de la structure. La seconde approche consiste à déposer des nanoparticules d’Ag sur la surface des nanotubes de TiO2. Grâce au contrôle de la morphologie des nanoparticules d’Ag, leur résonnance plasmonique permet de stimuler l’absorption du TiO2 et ainsi d’augmenter son rendement à la fois sous lumière UV et sous lumière visible. / This work is about the production of hydrogen by photoelectrocatalysis using a vertically aligned TiO2 nanotubes based photoanode. Utilization of TiO2 for solar applications is limited due to its large band gap, it has to be modified. Two approaches are proposed for the modification of the TiO2 nanotubes to make them absorb visible light. The first one is the chemical modification of the TiO2 by (Ta-N) or (Nb-N) cationic-anionic co-doping. Cations are inserted during the growth of the nanotubes by a novel approach, and nitrogen is inserted during heat treatment. This leads to the formation of hybrid orbitals resulting in a band gap reduction and of activity under visible light. The second approach consists of the deposition of Ag nanoparticles on the surface of the TiO2 nanotubes. Thanks to the control of the morphology of the Ag nanoparticles, their plasmonic resonance can enhance the absorption of TiO2 and thus increase its activity both under UV and visible light. Photoélectrocatalyse Photodissociation de l’eau Hydrogène Nanotubes de TiO2 Anodisation électrochimique Co-dopage Synthèse polyol Nanoparticules d’Ag Plasmons de surface Photoelectrocatalysis Water-splitting, hydrogen TiO2 nanotubes Electrochemical anodization Co-doping Polyol synthesis Ag nanoparticles Surface plasmons 541.3
10	Synthesis, Characterization, and Reactivity Studies of Au, Ag, and Pd Colloids Prepared by the Solvated Metal Atom Dispersion (SMAD) Method Jose, Deepa January 2009 (has links) (PDF) Surfactant bound stable colloids of Au, Ag, and Pd were prepared by the solvated Metal Atom Dispersion (SMAD) method, a method involving co-condensation of metal and solvent vapors on the walls of a reactor at 77 k. The as=prepared dodecanethiol-capped Au and Ag colloids consisting of polydisperse nanoparticles were transformed into colloids consisting of highly monodisperse nanoparticles by the digestive ripening process. In the case of Pd colloids, digestive ripening led to the formation of thiolate complexes. The [Pd(SC12H25)2]6 complex formed from the dodecanethiol-capped Pd nanoparticles was found to be a versatile precursor for the synthesis of a variety of Pd nanophases such as Pd(0), PdS, and Pd@PdO by soventless thermolysis. Co-digestive ripening of as-prepared dodecanethiol-capped Au or Ag colloids with Pd colloid resulted in Au@Pd and Ag@Pd core-shell nanoparticles, respectively; attempts to transform the core-shell structures into alloy phases even at high temperatures were unsuccessful. Phosphine-capped Au nanoparticles were also prepared by the SMAD method and refluxing of this colloid resulted in an Ostwald ripening process rather than the expected digestive ripening due to the labile nature of bound PPh3. The labile nature of the bound phosphine was studied using 31P NMR spectroscopy and utilized in the adsorption of CO. Palladium nanoparticles obtained from the SMAD Pd-butanone colloids and Pd@PdO nanoparticles prepared by the solventless thermolysis of Pd-dodecanethiolate complex were found to be good catalysts for the generation of H2 from AB via either hydrolysis and methanolysis. The active hydrogen atoms produced during the hydrolysis and methanolysis diffuse into the Pd lattice. It was also noticed that hydrogen atoms that were buried deep inside the Pd lattice cannot be removed completely by heating the sample even at 600°C. Wet chemical reduction method was employed for the synthesis of PVP capped, nearly monodisperse, spherical Ir nanoparticles which undergo a polymer driven self-assembly at 80°C to afford rectangular structures and interlinked particles. Inorganic Synthesis Gold (Au) Colloids Silver(Ag) Colloids Palladium (Pd) Colloids Nanoparticles - Synthesis Silver (Ag) Nanoparticles Palladium (Pd) Nanoparticles Gold (Au) Nanoparticles Colloidal Gold - Synthesis Colloidal Silver - Synthesis Colloidal Palladium - Synthesis Iridium Nanostructures Inorganic Chemistry

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