Obtenção de eletrocatalisadores via spray pirólise para geração de H2 por eletrólise catalisada de águas naturais via energia solar

Reolon, Raquel Pereira

January 2013

Este trabalho investigou a obtenção de filmes de óxido de cobalto por spray pirólise e sua caracterização para emprego como eletrocatalisador na geração de H2 por eletrólise de águas naturais via energia solar. A função desse eletrocatalisador é reduzir os sobrepotenciais necessários para eletrolisar a água e a decompor em hidrogênio e oxigênio. Para tanto, soluções precursoras de nitrato de cobalto hexahidratado foram depositadas por spray pirólise sobre uma camada de óxido de estanho dopado com flúor (FTO, em inglês) sobre um vidro sodocálcico, a diferentes concentrações e parâmetros de processo. Foram variadas a temperatura do substrato (de 190°C a 300°C), a distância entre o bico aspersor e o substrato (150 mm a 270mm). Os filmes de óxido de cobalto obtidos foram caracterizados quanto à sua cristalinidade por difração de raio-x, e quanto a sua morfologia por microscopia eletrônica de varredura. Os resultados mostraram uma forte influência da temperatura do substrato, relacionada com a natureza do solvente e do substrato, na obtenção de filmes contínuos e com aderência. Para avaliar seu desempenho na eletrólise da água, os filmes de óxido de cobalto obtidos foram ensaiados em uma célula eletroquímica, utilizando três águas distintas: água destilada, água do lago Guaíba (Porto Alegre-RS, Brasil) e do mar (Cidreira-RS, Brasil). Foi avaliada a sua eficiência na geração de hidrogênio e oxigênio, utilizando um voltâmetro de Hoffmann, pelo qual se obtinha o volume de gases gerados na eletrólise. A energia necessária para a separação da água foi fornecida por uma célula fotovoltaica exposta à radiação solar. Da mesma forma, foi avaliada sua atividade catalítica em função do tempo de eletrólise. Os resultados indicaram que os filmes eletrocatalisadores de óxido de cobalto obtidos por spray pirólise mostraram-se capazes de catalisar a eletrólise da água, baixando o sobrepotencial necessário, para todas as águas investigadas. A viabilidade de acoplar tal sistema de eletrólise de águas naturais a painéis fotovoltaicos mostrou-se viável e de grande interesse. Esta comprovação de geração de hidrogênio através de águas naturais define um curso para a implantação em larga escala de energia solar através de um mecanismo para o seu armazenamento como combustível. / This study investigated the obtaining of cobalt oxide films by spray pyrolysis and its characterization as electrocatalyst for use in the generation of H2 by electrolysis of natural water via solar energy. The function of this electrocatalyst is to reduce overpotentials needed to electrolyze water and decompose into hydrogen and oxygen. To this end, precursor solutions of cobalt nitrate hexahydrate were deposited by spray pyrolysis on a layer of fluorine-doped tin oxide (FTO) onto a soda lime glass at different concentrations and process parameters. The substrate temperature (190°C to 300 °C), the distance between the spray nozzle and the substrate (150 mm to 270mm) were varied. The films of cobalt oxide obtained were characterized for their crystallinity by x -ray diffraction, and by their morphology by scanning electron microscopy. The results showed a strong influence on the temperature of the substrate, linked to the nature of the solvent and substrate to obtain continuous films and adhesion. To assess their performance in the electrolysis of water, the films of cobalt oxide obtained were tested in an electrochemical cell using three different water: distilled water, lake water Guaiba (Porto Alegre - RS, Brazil) and the sea (Cidreira- RS, Brazil). We evaluated its effectiveness in the generation of hydrogen and oxygen, using a voltmeter Hoffmann, which was obtained by the volume of gas generated in the electrolysis. The energy required for water separation was supplied by a photovoltaic cell exposed to solar radiation. Similarly, we assessed the efficiency loss due to the electrolysis. The results indicated that the electrocatalyst cobalt oxide films obtained by spray pyrolysis were capable of catalyzing the electrolysis of water, lowering the overpotential required for all waters investigated. The feasibility of such a system of coupled natural water electrolysis photovoltaic panels proved to be feasible and of great interest. This proof of hydrogen generation through natural waters sets a course for the large-scale deployment of solar energy through a mechanism for storage as fuel.

Óxido de cobalto

Eletrólise da água

Produção de hidrogênio

Energia solar

Eletrocatálise

Pirólise

Cobalt oxide

Spray pyrolysis

Eletrocataliasador

Water electrolysis

H2 generation

Solar energy

Obtenção de eletrocatalisadores via spray pirólise para geração de H2 por eletrólise catalisada de águas naturais via energia solar

Reolon, Raquel Pereira

January 2013

Este trabalho investigou a obtenção de filmes de óxido de cobalto por spray pirólise e sua caracterização para emprego como eletrocatalisador na geração de H2 por eletrólise de águas naturais via energia solar. A função desse eletrocatalisador é reduzir os sobrepotenciais necessários para eletrolisar a água e a decompor em hidrogênio e oxigênio. Para tanto, soluções precursoras de nitrato de cobalto hexahidratado foram depositadas por spray pirólise sobre uma camada de óxido de estanho dopado com flúor (FTO, em inglês) sobre um vidro sodocálcico, a diferentes concentrações e parâmetros de processo. Foram variadas a temperatura do substrato (de 190°C a 300°C), a distância entre o bico aspersor e o substrato (150 mm a 270mm). Os filmes de óxido de cobalto obtidos foram caracterizados quanto à sua cristalinidade por difração de raio-x, e quanto a sua morfologia por microscopia eletrônica de varredura. Os resultados mostraram uma forte influência da temperatura do substrato, relacionada com a natureza do solvente e do substrato, na obtenção de filmes contínuos e com aderência. Para avaliar seu desempenho na eletrólise da água, os filmes de óxido de cobalto obtidos foram ensaiados em uma célula eletroquímica, utilizando três águas distintas: água destilada, água do lago Guaíba (Porto Alegre-RS, Brasil) e do mar (Cidreira-RS, Brasil). Foi avaliada a sua eficiência na geração de hidrogênio e oxigênio, utilizando um voltâmetro de Hoffmann, pelo qual se obtinha o volume de gases gerados na eletrólise. A energia necessária para a separação da água foi fornecida por uma célula fotovoltaica exposta à radiação solar. Da mesma forma, foi avaliada sua atividade catalítica em função do tempo de eletrólise. Os resultados indicaram que os filmes eletrocatalisadores de óxido de cobalto obtidos por spray pirólise mostraram-se capazes de catalisar a eletrólise da água, baixando o sobrepotencial necessário, para todas as águas investigadas. A viabilidade de acoplar tal sistema de eletrólise de águas naturais a painéis fotovoltaicos mostrou-se viável e de grande interesse. Esta comprovação de geração de hidrogênio através de águas naturais define um curso para a implantação em larga escala de energia solar através de um mecanismo para o seu armazenamento como combustível. / This study investigated the obtaining of cobalt oxide films by spray pyrolysis and its characterization as electrocatalyst for use in the generation of H2 by electrolysis of natural water via solar energy. The function of this electrocatalyst is to reduce overpotentials needed to electrolyze water and decompose into hydrogen and oxygen. To this end, precursor solutions of cobalt nitrate hexahydrate were deposited by spray pyrolysis on a layer of fluorine-doped tin oxide (FTO) onto a soda lime glass at different concentrations and process parameters. The substrate temperature (190°C to 300 °C), the distance between the spray nozzle and the substrate (150 mm to 270mm) were varied. The films of cobalt oxide obtained were characterized for their crystallinity by x -ray diffraction, and by their morphology by scanning electron microscopy. The results showed a strong influence on the temperature of the substrate, linked to the nature of the solvent and substrate to obtain continuous films and adhesion. To assess their performance in the electrolysis of water, the films of cobalt oxide obtained were tested in an electrochemical cell using three different water: distilled water, lake water Guaiba (Porto Alegre - RS, Brazil) and the sea (Cidreira- RS, Brazil). We evaluated its effectiveness in the generation of hydrogen and oxygen, using a voltmeter Hoffmann, which was obtained by the volume of gas generated in the electrolysis. The energy required for water separation was supplied by a photovoltaic cell exposed to solar radiation. Similarly, we assessed the efficiency loss due to the electrolysis. The results indicated that the electrocatalyst cobalt oxide films obtained by spray pyrolysis were capable of catalyzing the electrolysis of water, lowering the overpotential required for all waters investigated. The feasibility of such a system of coupled natural water electrolysis photovoltaic panels proved to be feasible and of great interest. This proof of hydrogen generation through natural waters sets a course for the large-scale deployment of solar energy through a mechanism for storage as fuel.

Óxido de cobalto

Eletrólise da água

Produção de hidrogênio

Energia solar

Eletrocatálise

Pirólise

Cobalt oxide

Spray pyrolysis

Eletrocataliasador

Water electrolysis

H2 generation

Solar energy

Vysoce uspořádané tenké vrstvy oxidu kobaltu pro modelovou katalýzu / Highly ordered cobalt oxide thin films for model catalysis

Ronovský, Michal

January 2020

Hydrogen processing is becoming increasingly important not only in the production of electricity but also during its accumulation. One of the energy storage options are liquid organic hydrogen carriers (LOHC). The main drawback of LOHC is the need for a large amount of thermal energy to release molecular hydrogen. We can bypass this issue using heterogeneous catalysis by transferring hydrogen from LOHC to acetone and using the produced 2-propanol (IPA) in the fuel cell. This innovative strategy of getting electri- cal energy from LOHC can be potentially energetically neutral. In this work, we studied highly ordered Co3O4(111) model catalysts for IPA oxidation in the as-prepared state and enhanced with platinum (Pt) nanoparticles. Catalysts were prepared by Physical Vapour Deposition (PVD) and further investigated by means of Low Energy Electron Diffrac- tion (LEED), X-ray Photoelectron Spectroscopy (XPS), Scanning Tunneling Microscopy (STM) and Temperature Programmed Desorption (TPD). The nucleation process of Pt on the as-prepared Co3O4(111) surface was studied by depositing low amounts 0.04 and 0.13 monolayer (ML) of Pt, that create clusters as small as 2 or 3 atoms with no need for a special nucleation site. We have identified the formation of Pt-induced defects in the atomically flat cobalt oxide...

Vysoce uspořádané tenké vrstvy oxidu kobaltu pro modelovou katalýzu / Highly ordered cobalt oxide thin films for model catalysis

Ronovský, Michal

January 2020

Hydrogen processing is becoming increasingly important not only in the production of electricity but also during its accumulation. One of the energy storage options are liquid organic hydrogen carriers (LOHC). The main drawback of LOHC is the need for a large amount of thermal energy to release molecular hydrogen. We can bypass this issue using heterogeneous catalysis by transferring hydrogen from LOHC to acetone and using the produced 2-propanol (IPA) in the fuel cell. This innovative strategy of getting electri- cal energy from LOHC can be potentially energetically neutral. In this work, we studied highly ordered Co3O4(111) model catalysts for IPA oxidation in the as-prepared state and enhanced with platinum (Pt) nanoparticles. Catalysts were prepared by Physical Vapour Deposition (PVD) and further investigated by means of Low Energy Electron Diffrac- tion (LEED), X-ray Photoelectron Spectroscopy (XPS), Scanning Tunneling Microscopy (STM) and Temperature Programmed Desorption (TPD). The nucleation process of Pt on the as-prepared Co3O4(111) surface was studied by depositing low amounts 0.04 and 0.13 monolayer (ML) of Pt, that create clusters as small as 2 or 3 atoms with no need for a special nucleation site. We have identified the formation of Pt-induced defects in the atomically flat cobalt oxide...

The Development of Appropriate Brine Electrolysers for Disinfection of Rural water supplies

Siguba, Maxhobandile

January 2005

>Magister Scientiae - MSc / A comparative study of electrolysers using different anodic materials for the electrolysis of brine (sodium chloride) for the production of sodium hypochlorite as a source of A comparative study of electrolysers using different anodic materials for the electrolysis of brine (sodium chloride) for the production of sodium hypochlorite as a source of available chlorine for disinfection of rural water supplies has been undertaken. The electrolyser design used was tubular in form, having two chambers i.e. anode inside and cathode outside, separated by a tubular inorganic ceramic membrane. The anode was made of titanium rod coated with a thin layer of platinum and a further coat of metal oxide. The cathode was made of stainless steel wire. available chlorine for disinfection of rural water supplies has been undertaken. The electrolyser design used was tubular in form, having two chambers i.e. anode inside and cathode outside, separated by a tubular inorganic ceramic membrane. The anode was made of titanium rod coated with a thin layer of platinum and a further coat of metal oxide. The cathode was made of stainless steel wire. An assessment of these electrolysers was undertaken by studying the effects of some variable parameters i.e. current, voltage and sodium chloride concentration. The flow rate was kept unchanged at 50ml/h anolyte and 140ml/h catholyte since it was found to be optimum flow rate for chlorine generation. Figures of merit of the electrolysers were calculated on the basis of three sets of measurements. Analytical methods used for the determination of sodium hypochlorite concentration were iodometric and N, N-Diethyl-p- Phenylenediamine (DPD) titration methods. The DPD titration method was used to determine the chlorine concentration of less than 1mg/L, while the iodometric titration method was used to determine chlorine concentration of ImgIL and above. Sodium chlorate present in the hypochlorite solution was also determined using a spectrophotometric method. The cobalt oxide electrolyser has been shown to be superior as compared to the ruthenium dioxide and manganese dioxide electrolysers in terms of hypochlorite generation. Sodium chlorate was present but at concentration levels not hazardous for use in dosing water for drinking purposes. Analysis of hydroxyl radicals was undertaken since there were claims that these are produced during brine electrolysis. Hydroxyl radical analysis was not successful, since sodium hypochlorite and hypochlorous acid interfere using the analytical method described in this study.

Acid constant

Current efficiency

Dimensionally stable anodes (DSA)

Dimethyl sulfoxide (DMSO)

Cobalt oxide titanium anodes (COTA)

Ferrous Ammonium Sulphate (FAS)

[pt] ESTUDO DA PIRÓLISE LENTA DA MADEIRA RECICLADA E AVALIAÇÃO DO EFEITO OXIDANTE DE NANOPARTÍCULAS DE FE2COO4 E CO3O4 / [en] STUDY OF THE THERMAL BEHAVIOR OF RECYCLED WOOD UNDER SLOW PYROLYSIS AND EVALUATION OF THE OXIDATIVE EFFECT OF FE2COO4 AND CO3O4 NANOPARTICLES

ANA CAROLINA MARQUES DOURADO

25 October 2019

[pt] A demanda energética mundial está em constante crescimento e tal cenário faz aumentar a preocupação com os impactos ambientais, muitos deles decorrentes da exploração de combustíveis fósseis e sua utilização desmedida. Neste contexto, o estudo da pirólise da biomassa apresenta uma alternativa para a produção direta de calor que pode vir a ser utilizado em usinas termoelétricas sustentáveis. Uma investigação foi realizada abordando o tema da reciclagem de madeira sobre a possibilidade de aproveitá-la a biomassa principal deste processo. Este trabalho apresenta a caracterização da madeira reciclada bem como da madeira de eucalipto para poder averiguar a similaridade química entre as duas biomassas. Para tanto foram realizadas análises de espectroscopia de infravermelhos (FTIR) e difração de raios-X (DRX), além de análises de microscopia eletrônica de varredura com espectroscopia por dispersão de energia (MEV/EDS). Com o auxílio da técnica de termogravimetria (TG) foram realizados experimentos de pirólise lenta da madeira reciclada, a partir dos quais foram identificados eventos térmicos, caracterizados por perdas de massa. Para verificar um possível efeito oxidante dos óxidos Fe2CoO4 e Co3O4, realizou-se também pirólise lenta da mistura da madeira reciclada com cada um dos óxidos, tendo sido identificados eventos térmicos que não estavam presentes nos experimentos com a madeira pura. Os principais eventos foram avaliados cineticamente por métodos model-free que permitem a determinação da energia de ativação sem a necessidade de assumir uma ordem de reação. Foram utilizados os métodos de Kissinger (KS) e Kissinger-Akahira-Sunose (KAS), empregando os dados de experimentos realizados no TG com cinco taxas de aquecimento diferentes até 1100 graus Celsius. Para o evento térmico de maior importância, entre 200 e 390 graus Celsius tanto na madeira pura quanto na mistura, o ajuste de ambos o métodos foi satisfatório e está de acordo com a literatura. / [en] World s energy demand is constantly growing, and this scenario raises the concern about environmental impacts, many of them resulting from the constant manipulation of fossil fuels and their excessive use. In this context, the study of biomass pyrolysis presents an alternative for the direct production of heat that can be used in sustainable thermoeletric plants. To this end, a research has been carried out on the possibility of taking advantage of recycled wood as the main biomass of this process, an investigation that has been carried out along with a company in the field of wood recycling. This work presents the characterization of a recylced and a typical Brazilian eucalyptus wood with the purpose of proving their chemical similarity. Therefore, analysis of Scanning Electron Microscopy with Energy Dispersive Spectroscopy (SEM/EDS), X-ray diffraction (XRD) and Fourier-transform infrared spectroscopy (FTIR) was performed. Thermogravimetric (TG) experiments were carried out with slow pyrolysis of recycled wood and eucalyptus wood, from wich were identified thermal events, characterized by mass losses. To verify a possible oxidative effect of the compounds Fe2CoO4 and Co3O4, slow pyrolysis of a mixture of the recycled wood with each of the oxides was also performed, and thermal events that were not present in the experiments with the pure wood were identified. The main thermal events were kinetic investigated with model-free methods wich allows the determination of the activation energy without the need of a reaction order pre-stipulated. In this workk were tested the Kissinger (KS) and Kissinger-Akahira-Sunose (KAS) model-free methods and the TG data of five different heating rate were collected until 1100 Celsius degrees. For the most relevant thermal event, wich occurs from 200 to 390 Celsius degrees (for recycled wood and its mixture with the oxides) the adjustment of both methods was fine and accordance with literature.

[pt] FERRITA DE COBALTO

[pt] OXIDO DE COBALTO

[pt] PIROLISE LENTA

[pt] ANALISE TERMOGRAVIMETRICA

[pt] MADEIRA RECICLADA

[en] COBALT FERRITE

[en] COBALT OXIDE

[en] SLOW PIROLYSIS

[en] THERMOGRAVIMETRIC ANALYSIS

[en] RECYCLED WOOD

Metal oxide porous single crystals and other nanomaterials : an HRTEM study

Dickinson, Calum

January 2007

Three-dimensional porous single crystals (PSCs) are a recent development in the growing world of mesoporous material. The mesoporosity allows for the material to retain their nanoproperties whilst being bulk in size. The current work concentrates on chromium oxide and cobalt oxide PSCs formed in the templates SBA-15 and KIT-6. HRTEM is the main technique used in this investigation, looking at the morphology and single crystallinity of these materials. A growth mechanism for the PSC material is proposed based on HRTEM observations. XRD studies revealed that the confinement effect, caused by the mesopores, reduces the temperature for both cobalt and chromium oxide crystallisation, as well as a different intermediate route from the metal nitrates. The properties of chromium oxide PSC are also investigated magnetically and catalytically. Some metal oxides in different templates are also presented, despite no PSC forming. HRTEM work on other nanomaterials, based on collaboration, is also presented.

548

Electrodes pour supercondensateurs à base d’oxydes de cobalt conducteurs / Supercapacitor electrodes based on conductive cobalt oxides

Godillot, Gérôme

16 October 2012

Les travaux de recherche actuels menés dans le domaine des supercondensateurs s’orientent vers l’augmentation des densités d’énergie, notamment via le développement de supercondensateurs hybrides "oxydes de métaux de transition / carbones activés". Dans ce contexte, les présents travaux avaient pour objectif d’évaluer les propriétés d’oxydes de cobalt nanométriques en tant que matériaux d’électrode positive pour supercondensateur hybride.Ces oxydes de cobalt, de structure spinelle, sont préparés par précipitation de nitrate de cobalt en milieu basique (T < 90 °C). Ils possèdent une formule chimique du type HxLiyCo3-δO4•zH2O et présentent une bonne conductivité électronique grâce à la présence d’ions H+, Li+ et Co4+. Les analyses par DRX, ATG, RMN et les mesures de conductivité électroniques ont mis en évidence une réorganisation de la structure spinelle de ces matériaux sous l’effet d’un traitement thermique, conduisant à une augmentation du rapport Co4+/Co3+ ainsi qu’à une amélioration des propriétés de transport électrique. L’association d’une conductivité électronique élevée et d’une forte surface spécifique confère à ces oxydes des performances prometteuses en tant que matériaux d’électrode.L’étude des propriétés électrochimiques a montré la présence de deux modes de stockage des charges, l’un électrostatique (double couche électrochimique) et l’autre faradique via l’oxydation et la réduction du cobalt. Elle a également permis de déterminer la signature électrochimique de ces oxydes (capacité, fenêtre de potentiels), prérequis indispensable à leur intégration dans une cellule complète. Finalement, un supercondensateur hybride "oxyde de cobalt / carbone activé" a été assemblé et équilibré, donnant lieu à des performances attractives (61,6 F/g sur 1,60 V). / Investigations on supercapacitors are focusing on increasing energy densities, in particular with the development of hybrid supercapacitors "metal oxides / activated carbons". In this field, the present work aims at evaluating nanometric cobalt oxides as positive electrode material for hybrid supercapacitors.These oxides, with spinel structure, are synthesized by precipitation of cobalt nitrate in a basic medium (T < 90 °C). They exhibit formulae such as HxLiyCo3-δO4•zH2O and good electronic properties thanks to the presence of H+, Li+ and Co4+ ions. XRD, TGA, NMR analysis as well as electronic measurements have highlighted a structural reorganization of the spinel structure under thermal treatment, resulting in increase of the Co4+/Co3+ ratio and an enhancement of the electronic transport properties. The high electronic conductivity together with a huge specific surface area imparts these oxides promising performances as electrode material.The study of the electrochemical properties underlines two charge storage mechanisms, one electrostatic (electrochemical double layer) and the other one faradic through the oxidation and the reduction of cobalt. The electrochemical signature (capacity, potential window) of these oxides was also determined in order to develop a complete cell. Finally, a hybrid supercapacitor "cobalt oxide / activated carbon" was assembled and balanced, revealing attractive performances (61,6 F/g over 1,60 V).

Supercondensateurs hybrides

Matériau d’électrode

Nanomatériau

Oxyde de cobalt

Spinelle

Co3O4

Diffraction des rayons X

RMN du 7Li et du 1H

Conductivité électronique

Hybrid supercapacitors

Electrode material

Nanomaterial

Cobalt oxide

Spinel

Co3O4

X-ray diffraction

7Li and 1H NMR

Electronic properties

621.312 42

Advanced metal graphene composite electrodes for a new generation of electrochemical energy storage devices / Développement d'électrodes composites métal-graphène pour de nouveaux dispositifs de stockage électrochimique de l’énergie

Adán Mas, Alberto

02 October 2018

Actuellement, les supercondensateurs sont au centre de beaucoup de recherches. Ils offrent une solution potentielle pour le stockage réversible de l´énergie que ce soit pour le domaine spatial, aéronautique ou encore le transport (véhicules hybrides). Un axe de recherche important, visant à augmenter les densités d'énergie et de puissance, est consacré aux systèmes oxydes de métaux de transition /charbon actif (C) asymétriques. Les systèmes à base de RuO2 présentent les capacités les plus élevées, supérieures à 700 F/g, mais leur coût et leur toxicité limitent leur application aux petits appareils électroniques. Des oxydes moins coûteux tels que les oxydes de cobalt (notamment Co3O4), MnO2, V2O5, Fe3O4, NiO, Ni(OH)2, ainsi que des polymères conducteurs électroniques, ont été étudiés de manière approfondie au cours des dernières décennies jusqu’à être utilisés, pour certains, dans des dispositifs commerciaux. Mais aucun système n’a été aussi étudié que le C / MnO2. En effet, il a été démontré que ce dernier est particulièrement intéressant car il peut fonctionner dans des milieux aqueux à des tensions pouvant aller jusqu’à 2V tout en gardant une bonne stabilité électrochimique durant le vieillissement. Néanmoins, les performances du système, en particulier en termes de densité de puissance, sont limitées à cause de la mauvaise conductivité électronique du MnO2. Il est possible de surmonter ce problème en ajoutant à l’oxyde de manganèse, des matériaux conducteurs à base de carbone (noir de carbone, nanotubes de carbone…) ou encore, en développant des stratégies de greffage ou de décoration plus élaborées. La combinaison d’oxydes avec des espèces carbonées est très largement rapportée dans la littérature alors que le mélange d’oxydes de différente nature l’est beaucoup moins. Nous proposons dans ce projet de synthétiser et de développer des matériaux originaux améliorant, par un effet synergique, les propriétés intéressantes du manganèse, du cobalt et de l'oxyde / hydroxyde de nickel. Les inconvénients de chaque composant étant compensés par les bonnes propriétés complémentaires des autres. Nous cherchons à réunir en un seul matériau (ou composite), le bon comportement pseudocapacitif du manganèse, la bonne conductivité électronique associée aux oxydes de cobalt, la grande capacité de l'hydroxyde de nickel ainsi que les propriétés de conduction du carbone. Ce projet de doctorat vise à concevoir et à fabriquer de nouvelles classes d'électrodes composites hybrides basées sur des assemblages de graphène (pour la capacitance renforcée à double couche) et d'oxydes poreux de métaux de transition (pour une capacité faradique supplémentaire due à de multiples processus rédox réversibles). Les avantages combinés du graphène et des oxydes de métaux de transition permettront aux supercondensateurs à haute densité d'énergie de travailler dans des électrolytes aqueux respectueux de l'environnement ce qui est, aujourd’hui, un besoin reconnu. / Supercapacitors are the focus of much research at the present time. They offer a potential solution for reversible energy storage in the fields of space, aircrafts or transportation (hybrid vehicles). An important research line, aiming at increasing both energy and power densities, is devoted to asymmetric transition metal oxides / activated carbon (C) systems. RuO2-based devices exhibit the highest capacitance, more than 700 F/g, but their cost limits the applications to small electronic devices. Less expensive oxides such as cobalt oxides (especially Co3O4), MnO2, V2O5, Fe3O4, NiO, Ni(OH)2, as well as electrically conducting polymers, have been extensively studied in the past decades, or used in commercial devices; they EACH exhibit each drawbacks and advantages with regard to applications. But no system has been investigated as much as the C/MnO2 one, which is particularly interesting because it can work in aqueous media at tensions up to 2 V, and high stability in ageing has been demonstrated. Nevertheless, the performances of the system, especially in terms of power density, are limited by the poor electronic conductivity of MnO2. This problem is usually solved by simply mixing conductive carbon materials (carbon black, CNTs…) with MnO2 or by developing more elaborated grafting or decoration strategies. The combination of oxide and carbonaceous species is widely reported in the literature, whereas combining oxides with different natures is less frequently encountered. We propose in this project to synthesize and develop original materials enhancing, through a synergistic effect, the interesting properties of manganese, cobalt and nickel oxide/hydroxide, the drawbacks of each component being overbalanced by the good complementary properties of the other components. We aim at gathering in one single material (or composite), the good pseudocapacitive behavior of manganese, the good electronic conductivity associated to cobalt oxides, the high capacity of nickel hydroxide, as well as the enhanced conduction properties of carbon. The present PhD project aims at designing and manufacturing new classes of hybrid composite electrodes based on assemblies of graphene (for enhanced double layer capacitance) and porous transition metals oxides (for additional faradaic capacitance due to multiple reversible redox processes) directly applied on metallic current collectors. The combined advantages of graphene with those of transition metals oxides will enable supercapacitors with high energy density, working in environmentally friendly aqueous electrolytes, which are an acknowledged need. / A procura crescente de energia em setores distintos, como residencial, transporte e industrial, bem como a proliferação de fontes renováveis de produção de energia, exigem novos e mais eficientes dispositivos de armazenamento de energia. Consequentemente, tem-se observado um interesse crescente na produção e engenharia de materiais para armazenamento de energia. Muito dos esforços de R&D estão centrados no desenvolvimento de materiais nanoestruturados que possam responder aos requisitos da aplicação, tais como densidade de energia, densidade de potência e estabilidade face à ciclagem do dispositivo. Presentemente são muitos os materiais investigados como potenciais candidatos para elétrodos para dispositivos de armazenamento de energia por via eletroquímia, nomeadamente baterias, condensadores, pseudocondensadores ou supercondensadores. O objetivo do presente trabalho é produzir e estudar novos materiais com uma resposta eletroquímica intermédia entre um elétrodo típico de supercondensador e um elétrodo típico de bateria, também conhecidos como elétrodos híbridos. Por essa razão, selecionaram-se hidróxidos e óxidos de níquel e cobalto devido à sua elevada atividade eletroquímica e baixo custo. Estes materiais foram combinados com derivados de grafeno, que exibem alta condutividade e elevada área superficial ativa. Portanto, este trabalho foca a síntese e caracterização fisico química e eletroquímica de hidróxidos e óxidos de níquel-cobalto nanoestruturados e sua combinação com óxido de grafeno reduzido para aplicações de armazenamento de energia. A síntese foi efectuada por duas vias distintas: eletrodeposição e exfoliação. A eletrodeposição é usada para obter hidróxidos e óxidos de níquel-cobalto em combinação com óxido de grafeno reduzido. Os resultados evidenciam um efeito sinérgico quando o óxido de grafeno reduzido é combinado com o (hidr)óxido de níquel- cobalto, isto é, um aumento na capacidade, condutividade e estabilidade do compósito quando comparado com o (hidr)óxido de níquel-cobalto. Neste trabalho é dada especial atenção à espectroscopia de impedância eletroquímica que foi utilizada para avaliar os fenômenos que ocorrem durante a carga e descarga contínua e compreender os processos que ocorrem no material ativo e que resultam na sua degradação. O hidróxido de níquel-cobalto é também preparado por exfoliação, em meio aquoso, por meio da intercalação de lactato, enquanto o tetra-butilamónio é utilizado na exfoliação do óxido de níquel-cobalto. A resposta eletroquímica é avaliada em diferentes eletrólitos após reconstrução. Os resultados revelam a influência das espécies intercaladas durante o processo de exfoliação: quando a exfoliação é realizada para fins de armazenamento de energia, as espécies intercaladas e a força da interação com o material ativo devem ser consideradas de antemão para evitar o bloqueio superficial ou inibição da interação elétrodo-eletrólito. Os resultados mostraram que a exfoliação é uma rota promissora para aumentar a área de superfície ativa dos materiais, um parâmetro crítico no desempenho eletroquímico dos materiais dos eletrodos. Nesta dissertação é também estudado o mecanismo de carga-descarga do hidróxido de níquel-cobalto, que ainda não está completamente entendido. Assim, compreender esse mecanismo é um passo crítico para otimizar a morfologia e o desempenho do material e para projetar futuros dispositivos de armazenamento de energia. Para esclarecer os processos que ocorrem durante a carga, aplica-se o modelo de Mott-Schottky foi aplicado parade modo a avaliar a variação da conductividade do material e da sua capacidade na interface elétrodo-eletrólito. [...]

Stockage de l'énergie

Électrodéposition

Exfoliation

Graphène

Hydroxyde de nickel-cobalt

Oxyde de nickel-cobalt

Energy Storage

Electrodeposition

Exfoliation

Graphene

Nickel-cobalt hydroxide

Nickel-cobalt oxide

Hidróxido de níquel-cobalto

Óxido de níquel-cobalto

Grafeno

Electrodeposição

Exfoliação

Armazenamento de energia

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Applications of multinuclear solid-state NMR spectroscopy to the characterisation of industrial catalysts

Rankin, Andrew Gordon McLaughlin

January 2018

This thesis describes applications of advanced multinuclear solid-state nuclear magnetic resonance (NMR) experiments to the characterisation of industrially-relevant catalyst materials. Experiments on γ-Al₂O₃ introduce the use of solid-state NMR spectroscopy for the investigation of disordered solids. The existence of Al(V) sites on the surface of this material is demonstrated, showing that removal of adsorbed H₂O may facilitate a rearrangement effect in γ-Al₂O₃ that promotes the formation of these Al environments. A range of aluminium oxide-based supported metal catalysts has been investigated. Studies of these systems by ¹H and ²⁷Al solid-state NMR spectroscopy indicate that a metal-support interaction (MSI) exists between surface cobalt oxide crystallites and the γ-Al₂O₃ support, and is strongest for materials containing small, well dispersed Co oxide crystallites. It is shown that the hygroscopic nature of γ-Al₂O₃ allows the extent of the MSI to be visualised by ¹H MAS NMR, by observing the extent of the proton-metal oxide interaction resulting from the presence of adventitious adsorbed H₂O. The surface/bulk chemistry of Co spinel aluminate materials is also investigated. ¹H, ²⁹Si, ²⁷Al and ¹⁷O solid-state NMR techniques are used to gain insight into the structural nature of silicated alumina catalysts. The combination of isotopic enrichment and dynamic nuclear polarisation (DNP) surface-enhanced NMR spectroscopy can provide a definitive and fully quantitative description of the surface structure of Si-γ-Al₂O₃ (1.5 wt% Si), and the role of adventitious surface water is highlighted. Analysis of silicated aluminas prepared by “sequential grafting” and “single shot” approaches shows that silica growth on γ-Al₂O₃ follows two distinct morphologies. ¹⁷O gas exchange enrichment is also shown to be successful in facilitating ¹⁷O solid-state NMR studies of these materials. It is demonstrated that double (²⁹Si and ¹⁷O) enrichment of Si-γ-Al₂O₃ (1.5 wt% Si) can facilitate access to ²⁹Si-¹⁷O 2D correlation experiments, even at low silica loading. An exploratory investigation of Ti-alumina model catalysts has also been carried out using ¹H, ²⁷Al and ¹⁷O solid-state NMR spectroscopy. These studies indicate that Ti-γ-Al₂O₃ and Ti-Al M50 may be structurally distinct materials.