Investigations Of Graphene, Noble Metal Nanoparticles And Related Nanomaterials

Das, Barun

12 1900

The thesis consists of four parts of which part 1 presents a brief overview of nanomaterials. Parts 2, 3 and 4 contain results of investigations of graphene, nanofilms of noble metal nanoparticles and ZnO nanostructures respectively. Investigations of graphene are described in Part 2 which consists of six chapters. In Chapter 2.1, changes in the electronic structure and properties of graphene induced by molecular charge-transfer have been discussed. Chapter 2.2 deals with the results of a study of the interaction of metal and metal oxide nanoparticles with graphene. Electrical and dielectric properties of graphene-polymer composites are presented in Chapter 2.3. Chapter 2.4 presents photo-thermal effects observed in laser-induced chemical transformations in graphene and other nanocarbons system. Chapter 2.5 describes the mechanical properties of polymer matrix composites reinforced by fewlayer graphene investigated by nano-indentation. The extraordinary synergy found in the mechanical properties of polymer matrix composites reinforced with two nanocarbons of different dimensionalities constitute the subject matter of Chapter 2.6. Investigations of noble metal nanoparticles have been described in Part 3. In Chapter 3.1, ferromagnetism exhibited by nanoparticles of noble metals is discussed in detail while Chapter 3.2 deals with surface-enhanced Raman scattering (SERS) of molecules adsorbed on nanocrystalline Au and Ag films formed at the organic–aqueous interface. Factors affecting laser-excited photoluminescence from ZnO nanostructures are examined in great detail in Part 4.

Nanomaterials

Graphene

Noble Metal Nanoparticles

Carbon Nanostructures

Inorganic Nanostructures

ZnO Nanostructures

Carbon Nanotubes

Semiconductor Nanoparticles

Graphene-polymer Composites

Polymer Matrix Composites

Nanocarbons

ZnO Nanostructures

Nanotechnology

Synthesis and characterization of catalysts for the total oxidation of chlorinated volatile organic compounds

El Assal, Z. (Zouhair)

30 November 2018

Abstract The harmful emissions of chlorinated volatile organic compounds (CVOCs) originate only from man-made sources. CVOCs are used in a variety of applications from pharmaceuticals production to decaffeination of coffee. Currently, CVOC emissions are limited by strict legislation. For these reasons, efficient CVOC abatement technologies are required. Catalytic oxidation is very promising option for this purpose, since catalysts can be tailored to each case to maximize the efficiency and minimize the formation of unwanted products, such as dioxins or Cl2. The goal of this thesis was to study the role of the physico-chemical properties of catalysts in dichloromethane (DCM) oxidation. To reach the aim, several catalytic materials were prepared and characterized, and their performance was tested in total oxidation of DCM. The catalytic materials used were powders of four single metal oxides (γ-Al2O3, TiO2, CeO2, MgO), three mixed oxides (Al2O3-xSiO2) washcoated on a cordierite monolith and four active phases (Pt, Cu, V, Mn). At first, support properties were studied. It was found that the DCM conversion and HCl production are dependent on support acidity when the studied single oxides are considered. The best DCM conversions and HCl yields were observed with the support having the highest total acidity (γ-Al2O3). Further, the quality of the by-products formed was dependent on the type of the acid sites present on the support surface. Secondly, the impregnation of the active compound was observed to improve the selectivity of the material. From the tested active phases, Pt presented the best performance, but also V2O5 and CuO showed almost equal performances. Especially CuO supported on γ-Al2O3, that had less formation of by-products and is less toxic than V-containing oxides, seems to be a promising alternative to Pt. Concerning stability, no deactivation was observed after 55h of testing of Pt/Al2O3. Furthermore, in the used reaction conditions, the formation of CuCl2 is not thermodynamically favoured. Finally, the good characteristics of the powder form catalysts were successfully transferred to the monolith. The performance of the Pt/90Al2O3-10SiO2 catalyst in DCM oxidation was improved when the channel density was increased due to an increase in geometric surface area and mechanical integrity factor, and a decrease in open fraction area and thermal integrity factor. / Tiivistelmä Haitallisten kloorattujen orgaanisten yhdisteiden (CVOC) päästöt ovat ihmisten aiheuttamia. CVOC-yhdisteitä käytetään mm. liuottimina lääkeaineiden valmistuksessa ja kofeiinin poistossa. Nykyisin CVOC-päästöjä rajoitetaan tiukalla lainsäädännöllä. Näistä syistä tehokas CVOC-yhdisteiden käsittelymenetelmä on tarpeen. Katalyyttinen hapetus on hyvä vaihtoehto tähän tarkoitukseen, koska katalyytit voidaan räätälöidä niin, että puhdistuksen tehokkuus saadaan maksimoitua samalla kun ei-haluttujen tuotteiden, kuten dioksiinit ja kloorikaasu, muodostuminen voidaan minimoida. Tämän väitöskirjatyön tavoitteena oli selvittää katalyyttien fysikaalis-kemiallisten ominaisuuksien yhteyksiä dikloorimetaanin (DCM) hapetukseen. Tavoitteen saavuttamiseksi valmistettiin useita katalyyttejä, jotka karakterisoitiin ja testattiin DCM:n kokonaishapetuksessa. Työssä tutkittiin neljää jauhemaista metallioksidia (γ-Al2O3, TiO2, CeO2 ja MgO), kolmea metallioksidiseosta (Al2O3-xSiO2), jotka pinnoitettiin kordieriittimonoliitille, sekä neljää aktiivista ainetta: Pt, Cu, V and Mn. Aluksi työssä keskityttiin tukiaineiden ominaisuuksiin. Työn tulokset osoittivat, että DCM:n konversio ja HCl:n tuotanto ovat riippuvaisia tukiaineen happamuudesta. Paras tulos saavutettiin alumiinioksidilla, jolla oli korkein kokonaishappamuus. Lisäksi havaittiin, että sivutuotteiden laatu riippuu tukiaineen pinnalla olevien happopaikkojen tyypistä. Aktiivisen aineen impregnointi tukiaineeseen paransi materiaalin selektiivisyyttä. Tutkituista aineista Pt osoittautui parhaimmaksi, mutta myös V2O5 ja CuO olivat lähes yhtä hyviä. Erityisesti CuO-katalyytti, joka tuotti vähemmän sivutuotteita ja joka on materiaalina vähemmän haitallinen kuin V2O5, osoittautui lupaavaksi jalometallikatalyyttien korvaajaksi. Materiaalien stabiilisuuteen liittyen Pt/Al2O3-katalyytin toiminnassa ei havaittu muutoksia 55 tunnin testauksen jälkeen. Lisäksi CuCl2:n muodostuminen ei mallinnuksen mukaan ole termodynaamisesti todennäköistä tutkituissa reaktio-olosuhteissa. Jauhemaisen katalyytin hyvät ominaisuudet pystyttiin pinnoituksessa siirtämään monoliittirakenteiseen katalyyttiin. Pt/90Al2O3-10SiO2 -katalyytin aktiivisuus DCM:n hapetuksessa tehostui, kun monoliitin aukkoluku kasvoi aiheutuen suuremmasta geometrisestä pinta-alasta ja mekaanisesta eheystekijästä sekä pienemmästä avoimen pinnan osuudesta ja termisestä eheystekijästä.

acidity

catalytic oxidation

dichloromethane

monolith

noble metal catalyst

transition metal oxide catalyst

dikloorimetaani

happamuus

jalometallikatalyytti

katalyyttinen hapetus

monoliitti

siirtymämetallioksidikatalyytti

CVOC

DCM

Réponse optique d’agrégats d’argent : excitations plasmoniques et effets de l’environnement / Optical Response of Silver Cluster : Plasmonic Excitations and Effects of the Surrounding Medium

Schira, Romain

05 October 2018

Les réponses optiques d'agrégats de métaux nobles sont caractérisées par une absorption intense, situées dans le domaine UV-Visible, et appelée plasmon de surface localisé. Pour des particules de plusieurs nanomètres de diamètre, le phénomène de plasmon peut être interprété par des modèles semi-classiques ou classiques comme la théorie de Mie, mais ces modèles trouvent leur limite lorsque la taille du système diminue. La théorie de la fonctionnelle de la densité dépendante du temps (TDDFT) est une approche entièrement quantique qui permet d'appréhender le phénomène de plasmon en reproduisant la réponse optique de petits agrégats d'argent, composés de quelques atomes à quelques centaines d'atomes. Dans ce contexte, nous avons réalisé des calculs TDDFT avec une fonctionnelle de type Range-Separated-Hybrid (RSH) sur des agrégats contenant entre 8 et 147 atomes d'argent. Les spectres obtenus sont en excellent accord avec les données expérimentales et les réponses optiques calculées perme ttent de retrouver les prédictions du modèle en couches. Nous présentons des outils permettant d'identifier et de caractériser les excitations plasmoniques dans le formalisme de la TDDFT. Les effets de l'environnement sur la réponse optique des agrégats sont également étudiés, avec notamment la présentation d'une méthodologie permettant de reproduire les spectres mesurés sur des agrégats d'argent piégés dans des matrices de gaz rare. Les effets de l'oxydation et les effets induits par une matrice de silice sur la réponse optique des agrégats sont également étudiés / Optical responses of noble metal clusters are characterized by a strong absorption in the UV-Visible range called localized surface plasmon. For clusters of several nanometers, the plasmon phenomenon can be interpreted by semi-classical or classical model, as the Mie theory, but those models can not describe the optical response of small-size clusters. The time dependent density functional theory (TDDFT) is a quantum method that allow to understand the plasmon phenomenon by reproducing the optical response of small silver cluster, made of a few tens or hundreds atoms. In this context, we performed TDDFT calculation using Range-Separated Hybrid (RSH) functionals over cluster containing between 8 and 147 silver atoms. The obtained spectra are in excellent agreement with the experimental ones and the calculated optical response allows to recover the shell model prediction. We present some tools that allow to identify and characterize plasmonic excitations within the TDDFT framework. The effect of the surrounding medium over the optical response of clusters are studied, in particular we will present a methodology that allow to reproduce spectra measured over clusters trapped in rare gas matrix. The effects of the oxidation and the effects induced by a silica matrix over the optical response of clusters are also studied

DFT

TDDFT

Agrégat

Argent

Métaux nobles

UV-Visible

Plasmon

Excitations plasmoniques

DFT

TDDFT

Cluster

Silver

Noble metal

UV-Visible

Plasmon

Plasmonic excitations

530

Propriétés optiques et spectroscopie non-linéaire de nanoparticules individuelles / Optical properties and non-lineaire spectroscopy of single nanoparticle

Baida, Hatim

02 July 2010

Ce travail porte sur l’étude expérimentale de la réponse optique linéaire et non-linéaire de nanoparticules métalliques individuelles. Pour cela une technique optique originale en champ lointain, basée sur la modulation spatiale de l’échantillon, a été mise en place et combinée avec une technique pompe-sonde résolue en temps à l'échelle femtoseconde. Dans un premier temps nous nous sommes intéressés à la caractérisation optique de nanoparticules modèles formées par une nanosphère d’argent encapsulée dans une couronne de silice. Nous avons mis en évidence la conséquence principale du confinement quantique électronique sur la réponse optique des nanoparticules : l'élargissement de leur résonance plasmon de surface avec la réduction de la taille (proportionnel à l’inverse du rayon, pour des nanosphères). Cette étude détaillée n’avait jamais été réalisée, car elle nécessite des mesures sur des nanoparticules uniques (pour s'affranchir des effets d’élargissement inhomogène de la résonance dus aux dispersions en taille, géométrie et environnement) et de taille connue. Ceci a été possible grâce à la mesure quantitative de leur section efficace d'extinction et/ou à la corrélation directe de l'image optique du nano-objet avec son image par microscopie électronique. La deuxième partie de ce travail a été consacrée à l'étude de la réponse optique linéaire et non-linéaire résolue en temps de nanobâtonnets d’or. Ces systèmes sont particulièrement intéressants car leurs propriétés optiques peuvent être contrôlées en modifiant leur géométrie (rapport d’aspect en particulier). Leur spectre d'extinction et sa dépendance en polarisation ont tout d'abord été étudiés au niveau de l'objet individuel. La comparaison de cette réponse optique linéaire avec des modèles théoriques a permis d'obtenir des informations sur leur orientation et géométrie. La réponse optique non-linéaire ultrarapide du même nanobâtonnet a ensuite été mesurée par une technique pompe-sonde femtoseconde à très haute sensibilité. La nanoparticule étudiée étant totalement caractérisée optiquement, une mesure quantitative de sa non-linéarité a ainsi pu être réalisée, et son origine physique déterminée à partir d'un modèle théorique. / This work focuses on the experimental study of linear and nonlinear optical responses of single metal nanoparticles. For this, an original far field optical technique, based on the spatial modulation of the sample, was set-up and combined with a femtosecond time-resolved pump-probe technique. We have first investigated the optical properties of model nanoparticles, formed by a silver nanosphere coated with a silica shell. We have highlighted the main consequence of electronic quantum confinement on the optical response of a nanoparticle: the broadening of its localized surface plasmon resonance with size reduction (proportional to the inverse of the radius, for nanospheres). This detailed study had never been realized, because it requires measurements on single nanoparticles (to eliminate the influence of inhomogeneous effects on the resonance due to size, geometry and environment dispersions) and of known size. This was possible thanks to the quantitative measurement of extinction cross-section and / or correlation of the optical image of the nano-object with its electron microscopy image. The second part of this work has been devoted to the study of the linear and time-resolved non-linear optical responses of gold nanorods. These systems are particularly interesting because their optical properties can be controlled by changing their geometry (in particular their aspect ratio). First, the extinction spectrum and its polarization dependence have been studied on individual objects. Comparison of the linear optical response with theoretical models provides information on orientation and geometry of the nanorod. The ultrafast nonlinear optical response of the nanorod was then measured with a high sensitivity femtosecond pump-probe technique. The investigated nanoparticles being fully characterized optically, a quantitative measurement of their non-linearity could be achieved, and its physical origin determined using a theoretical model.

Nanoparticule unique

Métaux nobles

Spectroscopie Pompe-sonde

Laser femtoseconde

Interaction électron-réseaux

Single nanoparticule

Noble metals

Pump-Probe spectroscopy

Femtosecond lasers

Electron-Lattice interaction

535

Selective Hydrogenation of Butadiene over Non-noble Bimetallic Catalysts / Catalyseurs bimétalliques à base de métaux non nobles pour l'hydrogénation sélective du Butadiène

Wang, Zhao

26 June 2017

Ce travail porte sur la préparation et la caractérisation de catalyseurs bimétalliques Cu-Zn, Ni-Zn et Fe-Zn supportés sur TiO2 avec des rapports atomiques variables et sur l'étude de leurs propriétés catalytiques pour l'hydrogénation sélective d'hydrocarbures polyinsaturés. Les méthodes de co-dépôt-précipitation à l'urée (DPu) et co-dépôt-précipitation à pH fixe (DP8) ont été utilisées pour la préparation des matériaux. Les ions métalliques se déposent séquentiellement sur la surface de TiO2 (selon la séquence CuII < ZnII ?FeII <NiII) durant la méthode DPu, alors qu'ils se déposent simultanément en utilisant la méthode DP8. Après réduction de l'échantillon à une température appropriée (350°C pour Cu-Zn, 450°C pour Ni-Zn et 500°C pour Fe-Zn), les analyses par DRX et STEM-HAADF couplé à EDS ont montré que des nanoparticules bimétalliques étaient formées pour les systèmes Cu-Zn/TiO2 (alliage Cu3Zn1 ou Cu0.9Zn0.1) et Ni-Zn/TiO2 (alliage Ni1Zn1 ou Ni4Zn1) avec une taille moyenne de particule inférieure à 5 nm. Seul du fer métallique a été détecté par DRX dans le cas de Fe-Zn/TiO2. Zn est inactif pour l'hydrogénation sélective du butadiène et agit comme un modificateur des catalyseurs monométalliques dont l'activité suit la séquence: Cu < Fe < Ni. L'ajout de Zn diminue légèrement l'activité, influence la sélectivité en butènes, mais augmente fortement la stabilité des catalyseurs. Cette plus grande stabilité des catalyseurs bimétalliques a été attribuée à la formation d'une quantité inférieure de dépôt carboné pendant la réaction, ceci résultant de la modification de la taille des ensembles de surface du métal actif par alliage avec Zn. / This work investigates the preparation and characterization of titania-supported non-noble bimetallic Cu-Zn, Ni-Zn and Fe-Zn catalysts with various atomic ratios and their catalytic properties for the selective hydrogenation of polyunsaturated hydrocarbons. Co-deposition-precipitation with urea (DPu) and co-deposition-precipitation at fixed pH (DP8) methods were employed for the samples preparation. The metal ions were sequentially deposited onto the TiO2 surface (the sequence of pH for ions deposition being CuII < ZnII ≈FeII < NiII) during the DPu, while they were simultaneously deposited using DP8 method. After sample reduction at proper temperature (350 °C for Cu-Zn, 450 °C for Ni-Zn and 500 °C for Fe-Zn), XRD and STEM-HAADF coupled with EDS showed that bimetallic nanoparticles were formed in Cu-Zn/TiO2 (Cu3Zn1 or Cu0.9Zn0.1 alloy) and Ni-Zn systems (Ni1Zn1 or Ni4Zn1 alloy) with average particle size smaller than 5 nm. Only metallic Fe was detected by XRD in Fe-Zn/TiO2. Zn is inactive for butadiene selective hydrogenation, and acts as a modifier of the monometallic catalysts whose activity follows the sequence: Cu < Fe < Ni. The addition of Zn slightly decreases the activity and influences the selectivity to butenes, but provides much more stable catalysts. The higher stability of the bimetallic catalysts was ascribed to the formation of lower amount of carbonaceous species during the reaction, resulting from the change in the size of the active metal surface ensembles by alloying with Zn.

Catalyseurs bimétallique non nobles

Cu-Zn

Ni-Zn

Fe-Zn

Dépôt - précipitation à l'urée

Hydrogénation sélective du butadiène

Non-noble bimetallic catalysts

Selective butadiene hydrogenation

Cu-Zn

540

Život ve vzpomínkách (Prezentace starobylosti a urozenosti Buquoyů, Czerninů z Chudenic a Schwarzenbergů) / Life in memories (Presentation of the ancietry and the nobility of the Buquoys, the Czernins of Chudenice and the Schwarzenbergs)

RUDOVÁ, Hana

January 2009

During the ``long{\crqq} 19th century, when the principle of nobility as such was in great danger, aristocrats wanted to demonstrate the importance of their family. To do so, they used various forms of the presentation: the appearance of rural residences, building family tombs and participation in exhibitions with historical themes. This thesis takes an interest in the forms of presentation of the nobility by three South-Bohemian noble families {--} Buquoys, Czernins of Chudenice and Schwarzenbergs. It focuses not only on the building activity of aristocrats and the visual representation of the ancientry and the nobility but also on the literary work of archivists and other forms of the presentation. In the 19th century the manors were redone in style of historicism, however, an important role was played by the proprietors themselves, their (artistic) hobbies and ideas about history. In some cases this thesis also uncovers the inspirations and motives that led (the members of the South-Bohemian aristocracy) to such demanding reconstructions.

Determinação do nível de Fermi relativo em ligas metálicas (Au-Pd) com a implantação de átomos de Ar / Determination of relative Fermi energy in metallic alloys (Au-Pd) with the implantation of atoms Ar

Moreira, William de Oliveira

07 August 2010

Orientador: Richard Landers / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-15T20:58:16Z (GMT). No. of bitstreams: 1 Moreira_WilliamdeOliveira_M.pdf: 9448249 bytes, checksum: 3dd42234cee158f2636fa903c68e5819 (MD5) Previous issue date: 2010 / Abstract: The Fermi Energy of a metal or a metal alloy is an important parameter for defining the energy levels associated with the material. Usually all other energy levels are defined relative to it. Notwithstanding the experimental determination of the absolute Fermi Energy (EF ) of a system is almost impossible. On the other hand to measure important phenomena such as charge transfer between the elements of a metal alloy, knowledge of changes of the EF are necessary. In this study we explore the use of chemical shifts derived from X-ray excited photoelectrons and Auger electrons to map changes in the relative EF as a function of concentration for the solid solution AuxPd1-x. First observing the Auger shifts of the Au, analogously to Nascente et al. [4] and then looking at the shifts of the Ar2p line of Ar atoms implanted with low energy into the alloys. Due to the inert nature of Ar atoms it is predicted that these shifts should be related to the changes in the FE of the alloy determined by shifts of the Au XAES lines. It is shown that both methods produce equivalent results, validating the prediction, and possibly indicating that the use of shifts from Ar implanted into a more general class of alloys could be a useful tool for detecting changes in EF in alloys / Mestrado / Física da Matéria Condensada / Mestre em Física

Nível de Fermi relativo

Argônio

Paládio

Ouro

Ligas metálicas

Gases nobres

XPS

Relative Fermi energy

Argon

Palladium

Gold

Metallic alloys

Noble gases

XPS

Catalisadores à  base de metais não nobres formados por carbeto de tungstênio/carbono com estruturas FeNx e N/C para reação de redução do oxigênio / Catalysts based on non-noble metals formed by tungsten carbide/carbon with FeNx and N/C structures for oxygen reduction reaction

Ulisses Alves do Rêgo

13 July 2018

Este trabalho teve como objetivo investigar eletrocatalisadores de baixo custo à base de carbeto de tungstênio, carbono e ferro submetidos a diferentes processos de nitretação quanto à atividade catalítica para reação de redução do oxigênio (RRO) nos eletrólitos ácido e alcalino. Os catalisadores foram divididos em três séries distintas, a primeira compreendendo aqueles onde houve variação da carga de carbeto de tungstênio em relação ao suporte de carbono, que foram impregnados com o complexo Fe2+(2,4,6-Tris(2-piridil)-1,3,5-Triazina)2, [Fe(TPTZ)2]2+ e tratados em duas temperaturas diferentes, 700 e 800 oC em atmosfera de nitrogênio. Na segunda série foi mantida constante a carga de carbeto de tungstênio (30% de W/C, m/m) sendo que esta mescla foi preparada usando carbonos dopados previamente com três fontes distintas de nitrogênio (HNO3, NH3 e HNO3/NH3); isto foi seguido pela incorporação do complexo Fe[TPTZ]2+ e pelos mesmos tratamentos térmicos acima mencionados. Na terceira série, os eletrocatalisadores foram preparados com três tipos de carbonos (Vulcan, Ketjenblack e Monarch), aos quais foi incorporado o complexo Fe[TPTZ]2+, seguido pelo tratamento térmico a 800 °C em atmosfera de nitrogênio e então por dopagem com amônia a 950 °C. As três séries de eletrocatalisadores sintetizados neste trabalho foram cuidadosamente caracterizadas por espectroscopia infra-vermelho e UV-Visível, difratometria de raio-x, microscopia eletrônica de transmissão, energia dispersiva de raios-x, espectroscipia Raman, espectroscopia fotoeletrônica de raios-x. As investigações eletroquímicas foram realizadas por voltametria cíclica (VC) e pelo levantamento de curvas de polarização de estado estacionário para a RRO, usando a técnica de eletrodo de disco/anel rotatório, com materiais catalíticos formando filmes finos depositados no eletrodo de disco. Nas três séries de catalisadores foram desenvolvidos materiais com bom desempenho para a RRO. Nos estudos da primeira série de catalisadores, notou-se que o material mais ativo foi aquele formado por WC-FeNx/C com 30 % de W/C e 5% de Fe pirolisado a 800 °C. Na segunda série foi observado que os desempenhos dos catalisadores variaram de acordo com o tipo de protocolo de nitretação, presença de ferro e temperatura de tratamento térmico. Em eletrólito alcalino, os eletrocatalisadores apresentaram maiores desempenhos, que resultaram bastante próximos em relação ao do catalisador de Pt dispersa em carbono usado como referência. Na terceira série de eletrocatalisadores investigados, verificou-se que o melhor desempenho obtido foi com o catalisador com carbono Monarch com amônia, cuja atividade catalítica resultou superior à dos demais, devido ao maior número de estruturas ativas FeNx e N/C formadas pelo tratamento com amônia. Os resultados nos meios ácido e alcalino para a primeira e segunda séries de eletrocatalisadores sugerem a ocorrência de um mecanismo indireto (2e- + 2e-), ou seja, em meio ácido (alcalino) primeiro o O2 reduz para H2O2 (HO2 ) e depois de H2O2 (HO2 ) para H2O. Os sítios predominantemente envolvidos na catálise da reação são WC e FeNx em meio ácido e WC e N/C em meio alcalino. Finalmente, para a terceira série de eletrocatalisadores o mecanismo reacional em meio ácido envolve um mecanismo direto de 4e-, com participação importante dos sítios ativos de Fe-N2. / This work aims to investigate low cost electrocatalysts based on tungsten carbide, carbon and iron submitted to different nitriding processes for the catalytic activity for the oxygen reduction reaction (ORR) in acid and alkaline electrolytes. The catalysts were divided into three distinct series, the first one comprising those with different tungsten carbide loads with respect to the carbon support, which were impregnated with the Fe2+ (2,4,6-Tris (2-pyridyl) - 1,3,5-triazine)2, [Fe (TPTZ)]2+, complex and treated at two different temperatures, 700 and 800 oC in nitrogen atmosphere. In the second series, the tungsten carbide load (30% W/C, m/m) was kept constant but this mixture was prepared using previously doped carbons using three different sources of nitrogen (HNO3, NH3 and HNO3/NH3); this was followed by the incorporation of the Fe[TPTZ]2+ complex and by the same heat treatments as mentioned above. In the third series, the electrocatalysts were prepared with three carbon types (Vulcan, Ketjenblack and Monarch), to which the Fe[TPTZ]2+ complex was added, followed by heat treatment at 800 °C under nitrogen and then by nitriding using a flow of ammonia at 950 °C. The three series of electrocatalysts synthesized in this work were carefully characterized by infra-red and UV-Visible spectroscopy, x-ray diffraction, transmission electron microscopy, x-ray energy dispersive, Raman spectroscopy, x-ray photoelectron spectroscopy. The electrochemical investigations were performed by cyclic voltammetry (CV) and by measurements of steady-state polarization curves for ORR using rotating ring-disc electrode technique, with catalytic materials forming thin films deposited on the disc. In the three catalyst series, materials with good performance for the ORR were developed. In the studies of the first series of catalysts, it was seen that the most active material was that formed by WC-FeNx/C with 30%W/C and 5% Fe pyrolyzed at 800 ° C. In the second series it was observed that the performances of the catalysts varied according to the type of nitriding protocol, presence of iron and temperature of heat treatment. The electrocatalysts showed higher performances in alkaline electrolyte, which were very close to that of a reference Pt/C catalyst. In the third series of electrocatalysts, the best performance was obtained with the Monarch carbon catalyst heat-treated with ammonia, whose catalytic activity was higher than all others, due to the greater number of FeNx and N/C active structures formed by the treatment with ammonia. The results in acidic and alkaline conditions for the first and second series of electrocatalysts suggest the occurrence of an indirect ORR mechanism (2e- + 2e-), that is, in acid (alkaline) media first O2 is reduced to H2O2 (HO2) followed by the reduction of H2O2 (HO2). The active sites predominantly involved in the reaction electrocatalysis are WC and FeNx in acid media and WC e N/C in alcaline media. Finally, for the third series of electrocatalysts, the acidic reaction involves a direct 4e- mechanism, having important participation of the Fe-N2 active sites.

carbetos de tungstênio

catalisadores de metais não-nobres

eletrocatalisadores híbridos

reação de redução de oxigênio

hybrid electrocatalysts

non-noble metal catalysts

oxygen reduction reaction

tungsten carbides

Réponse optique de nano-objets uniques d’argent : couplage plasmonique et photo-oxydation / Optical response of single silver nano-objects : plasmonic coupling and photo-oxidation

Grillet, Nadia

04 July 2011

La réponse optique de nanostructures métalliques est caractérisée par une amplification locale du champ électromagnétique appelée Résonance Plasmon de Surface (RPS) reliée à leur nature et leur morphologie. Pour étudier la réponse optique d’une nanoparticule unique, un dispositif ultra-sensible de spectroscopie à modulation spatiale utilisant une source de lumière blanche a été développé : il permet de mesurer la section efficace d’extinction absolue de nano-objets uniques sur un large domaine spectral (300-900 nm). Des images de microscopie électronique à transmission peuvent être obtenues indépendamment sur les mêmes objets. On a ainsi une corrélation directe entre la morphologie des nanoparticules et leur signature optique. Ce travail de thèse a permis d’une part de mettre en évidence les paramètres qui entrent en jeu dans le processus de vieillissement de nanoparticules uniques d’argent sous éclairement. En particulier, l’étude de nanocubes d’argent révèle une « sphérisation » et une photo-oxydation au cours du temps due à la partie UV du spectre. D’autre part, des mesures réalisées sur des doublets de nanocubes d’argent en interaction ont montré l’importance de la morphologie à l’interface entre les deux nanoparticules sur le couplage plasmonique. Pour une excitation lumineuse longitudinale, on observe, outre le décalage de la RPS vers les basses énergies lorsque la distance interparticule diminue, un dédoublement de cette bande de résonance. Des calculs théoriques réalisés avec la méthode DDA ont permis de corréler ce phénomène de dédoublement à des variations de courbure de surface dans la zone interparticule liées principalement au rognage des arêtes des cubes / The optical properties of noble metal nanoparticles are known to be dominated by the localized surface plasmon resonance (SPR) which is highly sensitive to the size of the particles, their shape, their environment, and eventually their chemical composition in the case of mixed systems. In order to study the optical response of a single supported metallic nanoparticle, a high sensitive spectroscopic setup using a white lamp (300-900 nm) has been developed in a transmission measurement configuration. This technique, the Spatial Modulation Spectroscopy, aims to detect the overall extinction of light by a nanoparticle. Moreover, the coupling of this technique with the direct observation of the particles by Transmission Electron Microscopy allows to get an unambiguous description of their optical response in relation with their exact morphology. In this work, the optical response of single silver nano-objects has been correlated with their morphology and their structure at a sub-nanometer scale. Time evolution of the optical response of single silver nanocubes under illumination was first investigated. We observed a “spherization” and a photo-oxidation due to the UV part of the light. Moreover, we studied pairs of cubic silver nanoantennas that showed a huge sensitivity of their optical response with the interparticle distance and their morphology. Indeed, the SPR is red-shifted with decreasing interparticle distance. One can also observe a striking splitting of the resonance for very low interparticle distances. Preliminary DDA calculations seem to show that the radius of curvature at the corners and edges of both cubes plays a key role in the splitting of the resonance

Nanoparticules uniques

Métaux nobles

Propriétés optiques

Photo-oxydation

Couplage plasmonique

Effets de forme

Single nanoparticle

Noble metal

Optical properties

Photo-oxidation

Plasmonic coupling

Shape effects

535.2

Réponse optique de nano-objets uniques anisotropes : de l’or aux métaux de transition / Optical response of single anisotropic nano-objects : from gold to transition metals

Manchon, Delphine

12 October 2012

La réponse optique de nanoparticules (NPs) de métaux nobles est dominée par une résonance géante diterésonance de plasmon de surface (RPS), très sensible à la taille, la morphologie et l’environnement diélectriquedes NPs. Elle est étudiée sur des NPs individuelles grâce à un dispositif de Spectroscopie à Modulation Spatiale(SMS) permettant d’accéder à leur section efficace d’extinction absolue sur un large domaine spectral (300-900nm) en corrélation avec leur morphologie observée indépendamment par microscopie électronique àtransmission (MET) ou à balayage (MEB).Mon travail de thèse a d’abord consisté à développer un nouveau dispositif afin de mesurer l’extinction et de ladiffusion d’un même nano-objet unique, donnant ainsi accès à des mesures quantitatives de la section efficace dediffusion moyennant une connaissance a priori du diagramme angulaire de répartition de la lumière diffusée.La seconde partie concerne des études optiques (expérimentales et théoriques) et structurales (MET ou MEB) denano-objets exotiques. Tout d’abord, une étude systématique réalisée sur un grand nombre de bipyramides d’orélaborées par voie chimique a montré que leur RPS, située dans le rouge, est extrêmement sensible à leurmorphologie et à leur environnement, ce qui en fait des candidats de choix pour des capteurs biologiques. Parailleurs, l‘émergence d’une RPS induite par couplage plasmonique a été mis en évidence sur des nano-antennesnanolithographiées à base de métaux de transition (Pd, Pt, Cr). Ces résultats ouvrent des perspectivesd’applications nouvelles en élargissant la plasmonique à des métaux aux propriétés chimiques très variées(photo-catalyse, magnéto-optique). / The optical response of noble metal nanoparticles (NPs) are known to be dominated by the Localized SurfacePlasmon Resonance (LSPR), which is highly sensitive to the size of the NPs, their shape and their environment.This optical response can be studied on single nanoparticles thanks to a highly sensitive setup based on theSpatial Modulation Spectroscopy (SMS) which gives access to their absolute extinction cross-section on a widespectral range (300–900 nm). Moreover, the morphology of the same objects studied in optics is characterized bya direct observation in Transmission or Scanning Electron Microscopy (TEM or SEM).In this work, a new setup allowing the measurement of both the extinction and the scattering of a single nanoobjecthas been developed. This technique allows a quantitative measurement of the scattering cross-sectionprovided the angular distribution of the scattered light by the NP is known.The second part is related to experimental and theoretical optical studies and morphological observationsthrough TEM and SEM of exotic nano-objects. First, a systematic study performed on a large number of goldbipyramids, chemically elaborated, has shown that the LSPR located in the red is highly sensitive to theirmorphology and to the environment. Thus, these objects can likely be used as biological sensors. In addition,emergence of a resonance induced by plasmon coupling has been evidenced on lithographed nano-antennasbased on transition metal (Pd, Pt, Cr) for which no LSPR is usually expected. This opens up prospects for novelapplications by extending the field of plasmonics to metals of various chemical properties (photocatalysis,magneto-optics).

Nanoparticules uniques

Métaux nobles

Métaux de transition

Propriétés optiques

Objets anisotropes

Couplage plasmonique

Single nanoparticle

Noble metals

Transition metals

Optical properties

Anisotropic nano-objects

Plasmon coupling

535