Mononuclear Ruthenium Complexes that Catalyze Water to Dioxgen Oxidation

Tong, Lianpeng

January 2012

The theme of this thesis is the development of mononuclear Ru-based complexes that are capable of catalyzing the water oxidation (or O2-evolving) reaction, e.g. 2 H2O → O2 + 4 H+ + 4 e−. Several families of mononuclear Ru water oxidation catalysts were designed and prepared. They feature with anionic ancillary ligands that contain carboxylate or phenolate donors. The properties of the catalysts were investigated in various aspects including coordination geometry, electrochemical behavior, and ligand exchange. All catalysts showed outstanding catalytic activity towards water oxidation in the presence of cerium(IV) ammonium nitrate as a sacrificial oxidant. High-valent Ru intermediates involved in the reactions were characterized both experimentally and theoretically. The kinetics of catalytic water oxidation was examined based on one catalyst and a prevailing catalytic pathway was proposed. The catalytic cycle involved a sequence of oxidation steps from RuII−OH2 to RuV=O species and O−O bond formation via water-nucleophilic-attack to the RuV=O intermediate. By comparing properties and catalytic performance of Ru catalysts herein with that of previously reported examples, the effect of anionic ancillary ligands was clearly elucidated in the context of catalytic water oxidation. Aiming to further application in an envisaged artificial photosynthesis device, visible light-driven water oxidation was conducted and achieved primarily in a homogeneous three-component system containing catalyst, photosensitizer, and sacrificial electron acceptor. Moreover, one model Ru catalyst was successfully immobilized on ordinary glass carbon surface through a facile and widely applicable method. / <p>QC 20121112</p>

Ruthenium complex

Homogeneous catalysis

Water oxidation

O2 evolution

anionic ligand

Molecular catalyst

Electrocatalysis

Kinetics

Artificial photosynthesis

Light-driven

Immobilization of catalyst

Functional nanostructured hydrothermal carbons for sustainable technologies : heteroatom doping and superheated vapor

Wohlgemuth, Stephanie-Angelika

January 2012

The underlying motivation for the work carried out for this thesis was the growing need for more sustainable technologies. The aim was to synthesize a “palette” of functional nanomaterials using the established technique of hydrothermal carbonization (HTC). The incredible diversity of HTC was demonstrated together with small but steady advances in how HTC can be manipulated to tailor material properties for specific applications. Two main strategies were used to modify the materials obtained by HTC of glucose, a model precursor representing biomass. The first approach was the introduction of heteroatoms, or “doping” of the carbon framework. Sulfur was for the first time introduced as a dopant in hydrothermal carbon. The synthesis of sulfur and sulfur/nitrogen doped microspheres was presented whereby it was shown that the binding state of sulfur could be influenced by varying the type of sulfur source. Pyrolysis may additionally be used to tune the heteroatom binding states which move to more stable motifs with increasing pyrolysis temperature. Importantly, the presence of aromatic binding states in the as synthesized hydrothermal carbon allows for higher heteroatom retention levels after pyrolysis and hence more efficient use of dopant sources. In this regard, HTC may be considered as an “intermediate” step in the formation of conductive heteroatom doped carbon. To assess the novel hydrothermal carbons in terms of their potential for electrochemical applications, materials with defined nano-architectures and high surface areas were synthesized via templated, as well as template-free routes. Sulfur and/or nitrogen doped carbon hollow spheres (CHS) were synthesized using a polystyrene hard templating approach and doped carbon aerogels (CA) were synthesized using either the albumin directed or borax-mediated hydrothermal carbonization of glucose. Electrochemical testing showed that S/N dual doped CHS and aerogels derived via the albumin approach exhibited superior catalytic performance compared to solely nitrogen or sulfur doped counterparts in the oxygen reduction reaction (ORR) relevant to fuel cells. Using the borax mediated aerogel formation, nitrogen content and surface area could be tuned and a carbon aerogel was engineered to maximize electrochemical performance. The obtained sample exhibited drastically improved current densities compared to a platinum catalyst (but lower onset potential), as well as excellent long term stability. In the second approach HTC was carried out at elevated temperatures (550 °C) and pressure (50 bar), corresponding to the superheated vapor regime (htHTC). It was demonstrated that the carbon materials obtained via htHTC are distinct from those obtained via ltHTC and subsequent pyrolysis at 550 °C. No difference in htHTC-derived material properties could be observed between pentoses and hexoses. The material obtained from a polysaccharide exhibited a slightly lower degree of carbonization but was otherwise similar to the monosaccharide derived samples. It was shown that in addition to thermally induced carbonization at 550 °C, the SHV environment exhibits a catalytic effect on the carbonization process. The resulting materials are chemically inert (i.e. they contain a negligible amount of reactive functional groups) and possess low surface area and electronic conductivity which distinguishes them from carbon obtained from pyrolysis. Compared to the materials presented in the previous chapters on chemical modifications of hydrothermal carbon, this makes them ill-suited candidates for electronic applications like lithium ion batteries or electrocatalysts. However, htHTC derived materials could be interesting for applications that require chemical inertness but do not require specific electronic properties. The final section of this thesis therefore revisited the latex hard templating approach to synthesize carbon hollow spheres using htHTC. However, by using htHTC it was possible to carry out template removal in situ because the second heating step at 550 °C was above the polystyrene latex decomposition temperature. Preliminary tests showed that the CHS could be dispersed in an aqueous polystyrene latex without monomer penetrating into the hollow sphere voids. This leaves the stagnant air inside the CHS intact which in turn is promising for their application in heat and sound insulating coatings. Overall the work carried out in this thesis represents a noteworthy development in demonstrating the great potential of sustainable carbon materials. / Das Ziel der vorgelegten Arbeit war es, mit Hilfe der Hydrothermalen Carbonisierung (HTC) eine Palette an verschiedenen Materialien herzustellen, deren physikalische und chemische Eigenschaften auf spezifische Anwendungen zugeschnitten werden können. Die Motivation hierfür stellt die Notwendigkeit, Alternativen zu Materialien zu finden, die auf fossilen Brennstoffen basieren. Dabei stellen vor allem nachhaltige Energien eine der größten Herausforderungen der Zukunft dar. HTC ist ein mildes, nachhaltiges Syntheseverfahren welches prinzipiell die Nutzung von biologischen Rohstoffen (z. B. landwirtschaftlichen Abfallprodukten) für die Herstellung von wertvollen, Kohlenstoff-basierten Materialien erlaubt. Es wurden zwei verschiedene Ansätze verwendet, um hydrothermalen Kohlenstoff zu modifizieren. Zum einen wurde HTC unter „normalen“ Bedingungen ausgeführt, d. h. bei 180 °C und einem Druck von etwa 10 bar. Der Zucker Glukose diente in allen Fällen als Kohlenstoff Vorläufer. Durch Zugabe von stickstoff und /oder schwefelhaltigen Additiven konnte dotierte Hydrothermalkohle hergestellt werden. Dotierte Kohlenstoffe sind bereits für ihre positiven Eigenschaften, wie verbesserte Leitfähigkeit oder erhöhte Stabilität, bekannt. Zusätzlich zu Stickstoff dotierter Hydrothermalkohle, die bereits von anderen Gruppen hergestellt werden konnte, wurde in dieser Arbeit zum ersten Mal Schwefel in Hydrothermalkohle eingebaut. Außerdem wurden verschiedene Ansätze verwendet, um Oberfläche und definierte Morphologie der dotierten Materialien zu erzeugen, welche wichtig für elektrochemische Anwendungen sind. Schwefel- und/oder stickstoffdotierte Kohlenstoff Nanohohlkugeln sowie Kohlenstoff Aerogele konnten hergestellt werden. Mit Hilfe von einem zusätzlichen Pyrolyseschritt (d. h. Erhitzen unter Schutzgas) konnte die Leitfähigkeit der Materialien hergestellt werden, die daraufhin als Nichtmetall-Katalysatoren für Wasserstoff-Brennstoffzellen getestet wurden. Im zweiten Ansatz wurde HTC unter extremen Bedingungen ausgeführt, d. h. bei 550 °C und einem Druck von ca. 50 bar, welches im Wasser Phasendiagram dem Bereich des Heißdampfes entspricht. Es konnte gezeigt werden, dass die so erhaltene Hydrothermalkohle ungewöhnliche Eigenschaften besitzt. So hat die Hochtemperatur-Hydrothermalkohle zwar einen hohen Kohlenstoffgehalt (mehr als 90 Massenprozent), enthält aber auch viele Wasserstoffatome und ist dadurch schlecht leitfähig. Da damit elektrochemische Anwendungen so gut wie ausgeschlossen sind, wurde die Hochtemperatur-Hydrothermalkohle für Anwendungen vorgesehen, welche chemische Stabilität aber keine Leitfähigkeit voraussetzen. So wurden beispielsweise Hochtemperatur-Kohlenstoff-Nanohohlkugeln synthetisiert, die großes Potential als schall- und wärmeisolierende Additive für Beschichtungen darstellen. Insgesamt konnten erfolgreich verschiedenste Materialien mit Hilfe von HTC hergestellt werden. Es ist zu erwarten, dass sie in Zukunft zu nachhaltigen Technologien und damit zu einem weiteren Schritt weg von fossilen Brennstoffen beitragen werden.

Hydrothermale Karbonisierung

Heteroatom-Dotierung

Aerogele

Hohlkugeln

Elektrokatalyse

Hydrothermal Carbonization

Heteroatom Doping

Aerogels

Hollow Spheres

Electrocatalysis

Chemistry and allied sciences

Studies of conducting polymer- modified electrodes and their application for electroanalysis / Elektrodų, modifikuotų laidžiais polimerais, tyrimas ir taikymas elektroanalizės tikslams

Barzdžiuvienė, Kristina

30 December 2010

The main purpose of this work - to investigate patterns of electrochemical oxidation of ascorbic acid on polyaniline and poly(N-methylaniline) modified electrodes, in order to develop ascorbate-sensitive sensors. A detailed study of various factors affecting the aniline and N-methylaniline electrochemical polymerization and the resulting properties of PANI and PNMA layers was carried out for this purpose. Comparative study of modified electrodes in solutions of different acidity was performed and it was shown that PNMA had a better redox activity in slightly acidic and neutral solutions compared to polyaniline. The nature of amperometric response of modified electrodes to ascorbate was investigated and autocatalytic mechanism of ascorbate electrooxidation on PANI modified electrode was suggested. Using PANI and PNMA modified electrodes, prototypes of amperometric ascorbate sensors have been developed and their comparative studies were carried out. / Darbo tikslas - ištirti askorbo rūgšties elektrocheminės oksidacijos ant elektrodų, modifikuotų polianilinu ir poli(N-metilanilinu), dėsningumus, siekiant sukurti jautrius askorbatui jutiklius. Ištirta įvairių faktorių įtaka anilino ir N-metilanilino elektrocheminei polimerizacijai bei gautų PANI ir PNMA sluoksnių savybėms. Atlikti palyginamieji modifikuotų elektrodų tyrimai skirtingo pH tirpaluose ir parodyta, kad PNMA lyginant su polianilinu pasižymi geresniu aktyvumu silpnai rūgščiuose ir neutraliuose tirpaluose. Ištirtas modifikuotų elektrodų amperometrinio atsako į askorbatą pobūdis, ir pasiūlytas autokatalizinis askorbato elektrooksidacijos mechanizmas ant PANI modifikuoto elektrodo. Panaudojus PANI ir PNMA modifikuotus elektrodus, sukurti amperometrinių askorbato jutiklių prototipai ir atlikti jų palyginamieji tyrimai.

Chemistry

Ascorbate sensor

Polyaniline

Poly(N-methylaniline)

Electrocatalysis

Electroanalysis

Askorbato jutiklis

Polianilinas

Poli(N-metilanilinas)

Elektrokatalizė

Elektroanalizė

Estudo da reação de oxidação do metanol sobre fases intermetálicas ordenadas Pt-M com a técnica de espectroscopia de impedância eletroquímica

Perez, Letícia [UNESP]

30 April 2010

Made available in DSpace on 2014-06-11T19:23:29Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-04-30Bitstream added on 2014-06-13T19:09:17Z : No. of bitstreams: 1 perez_l_me_bauru.pdf: 2493638 bytes, checksum: 26329bfa30a60d575a769d58ce9d9493 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A oxidação do metanol apresenta problemas acentuadamente complexos que ainda não foram satisfatoriamente solucionados. Possui um mecanismo duplo caminho, ou seja, diretamente a CO2 ou pelo caminho alternativo via intermediários. Também como intermediário/produto da reação ocorre a formação de CO que é usualmente identificado como o agente bloqueador da superfície eletródica devido à sua adsorção irreversível. Baseado em um estudo recente da reação de oxidação do metanol sobre Pt por espectroscopia de impedância eletroquímica (EIE), este trabalho teve por objetivo aplicar a técnica de EIE no estudo da eletrocatálise da reação de oxidação do metanol sobre fases intermetálicas ordenadas de PtMn, PtSb e PtSn em meio ácido, visto que os metais Mn, Sb e Sn por apresentarem característica oxifílica, podem formar mais facilmente espécies OH que promovem a oxidação de intermediários fortemente adsorvidos nos sítios ativos da superfície eletródica. Os intermetálicos também apresentam maior distância entre os sítios da platina o que pode favorecer uma configuração de adsorção vertical da molécula de CO que é mais fácil de oxidar quando comparado a uma configuração em ponte. Uma análise prévia da atividade catalítica desses materiais para a reação de oxidação do metanol foi realizada empregando-se as técnicas de voltametria cíclica cronoamperometria. Os resultados obtidos mostraram que o processo de oxidação do metanal utilizando os intermetálicos apresentou um deslocamento para valores menos positivos do potencial de início de oxidação, necessitando de uma menor demanda energética para que o processo de oxidação ocorra sobre a superfície destes intermetálicos. A oxidação do metanol apresentou densidade de corrente de corrente de pico superior para esses materiais quando comparado... / Methanol oxidation reaction congregates very complex constraints that were not conveniently solved so far. This reaction usually follows a dual pathway, i.e. direct oxidation to CO2 or through an alternative path via stable intermediates. CO is the most commom identified intermediate of the reaction and surface blocking agent due to its irreversible adsorption characteristic. The here in research is based on recent study performed with the methanol oxidation reaction on Platinum by employing the Electrochemical Impedance Spectroscopy (EIS) technique. The aim of the research was to investigate the methanol oxidation reaction on PtMn, PtSb and PtSn ordered intermetallic surfaces, in acid medium, by means of the EIS technique. These materials were selected to the study since they have oxophilic metals (Mn, Sb and Sn) that could provide OH species on the electrode surface at electrode potentials less positive than polycrystalline Platinum under the same experimental conditions. Moreover, these surfaces also exhibits a larger Pt-Pt distance in comparison to polycrystalline Platinum that inhibits the stable bridge configuration adsorption of CO. The electrochemical data obtained have demonstrated that ehe methanol oxidation reaction on the studied surfaces presented a less positive onset potential as compared to Pt. The materials also have exhibited a higher maxima current densities and lower susceptibility for CO blocking than Pt. EIS spectra obtained fot the reaction taking place on Pt, PtSb and PtSn have presented an inductive component that is characteristic of stable intermediate adsorption process. Steady state measurements have pointed to a change in the mechanism of the reaction probably due to the action of surface oxygenated species. Furthemore, the EIS technique has been proved o be a powerful tool to investigate... (Complete abstract click electronic access below)

Eletrocatálise

Metanol

Oxidação

Espectroscopia de impedancia

Intermetallic

Electrocatalysis

Platinum

Methanol

Oxidation

Surface structure and electronic properties of carbon supported PdAu nanoparticles and their catalytic behavior toward the oxygen reduction reaction /

Gallo, Irã Borges Coutinho.

January 2018

Orientador: Hebe de las Mercedes Villullas / Banca: Rodrigo Fernando Costa Marques / Banca: Leandro Martins / Banca: Elisabete Inacio Santiago / Banca: Joelma Perez / Abstract: Carbon supported PdAu nanoparticles with different Au contents (20-50% in atoms) were synthesized using a procedure carried out in a liquid two-phase system. As-prepared materials presented similar average particle diameter (~3nm) with narrow distribution over the carbon support, as shown by Transmission Electronic Microscopy (TEM). The combined data from X-ray Diffraction (XRD) and X-ray Photoelectron Spectroscopy (XPS) suggest that nanoparticles had Pd-enriched surfaces and Au-rich interiors. Cyclic Voltammetry (CVs) studies in H2SO4 further reinforced these findings, confirming that the nanoparticle surfaces were enriched with Pd. Moreover, XPS results show that increasing the Au content of PdAu alloys leads to varying amounts of surface-like and bulk-like Pd oxide, with a significant increase of metallic Pd. This result is consistent with data of X-ray Absorption Spectroscopy (XAS) around Pd L3 edge, which revealed that Au promotes an increase in the electronic occupancy of the Pd 4d band. Therefore, this whole set of characterizations suggests that the presence of Au in PdAu nanoalloys decreases the Pd affinity for oxygen, giving Pd a more noble-like character. In addition, the influence of ligand and ensemble effects on electrochemical surface processes, such as oxide formation/reduction, CO oxidation and hydrogen adsorption were also investigated. This was also a necessary step in order to determine the best technique to measure the Electrochemical Active Area (EAA) of... (Complete abstract click electronic access below) / Resumo: Nanopartículas de PdAu suportadas em carbono com diferentes frações de Au (20-50% em átomos) foram sintetizadas em um sistema líquido de duas fases. As nanopartículas preparadas apresentaram diâmetro médio próximo a 3 nm, com uma distribuição homogênea sobre o suporte de carbono, o que foi demonstrado por microscopia eletrônica de transmissão (TEM). O conjunto dos dados coletados por difração de raios X (XRD) e por espetroscopia de fotoelétrons excitados por raios X (XPS) demonstrou que o interior das nanopartículas é enriquecido por Au, enquanto a superfície é mais rica em Pd. A análise por XPS também demonstrou que o aumento da fração de Au nas ligas de PdAu leva a uma variação na fração de diferentes espécies de óxidos de Pd e um aumento na quantidade total de Pd metálico. Este resultado é consistente com aquele obtido por espectroscopia de absorção de raios-X (XAS), realizada na borda L3 do Pd, a qual revelou que o Au promove um preenchimento eletrônico na banda 4d do Pd. Ou seja, a presença do Au parece diminuir a afinidade do Pd pelo oxigênio. Ademais, foram estudados a influência de efeitos eletrônicos e do arranjo superficial de átomos sobre os processos eletroquímicos de formação/redução de óxidos, oxidação de CO adsorvido e adsorção de hidrogênio. Estes estudos também permitiram a determinação da área eletroquímica ativa de Pd. Por meio de todas estas caracterizações foi possível traçar correlações entre a composição no cerne das nanopartículas de PdAu e suas propri... (Resumo completo, clicar acesso eletrônico abaixo) / Doutor

Bimetalic catalysts.

Palladium.

Gold.

Oxygen reduction reation.

Electrocatalysis.

Nanoparticles.

Fuel cell.

Paládio.

Ouro.

Eletrocatálise.

Nanopartículas.

Células à combustível.

Estudo da eletrocatálise da reação de oxidação de etanol sobre fases intermetálicas ordenadas Pt-M (M = Mn,Mo, Pb, Sb e Sn) /

Scachetti, Tatiane Pereira.

January 2007

Orientador: Antonio Carlos Dias Ângelo / Banca: Hamilton Brandão Varela de Albuquerque / Banca: Aguinaldo Robinson de Souza / O Programa de Pós-Graduação em Ciência e Tecnologia de Materiais, PosMat, tem caráter institucional e integra as atividades de pesquisa em materiais de diversos campi da Unesp / Resumo: Fases intermetálicas ordenadas de platina e de alguns metais de transição, Pt-M (M = Mn, Mo, Pb, Sb e Sn), são propostas como materiais eletrocatalisadores para serem utilizadas em células a combustível de oxidação direta de etanol pela possibilidade de unir, nestes materiais, a excelente capacidade de adsorção dos combustíveis orgânicos pelos sítios de platina e a menor susceptibilidade de bloqueio dos sítios dos metais de transição por intermediários e produtos de reação. O procedimento experimental usado na obtenção das fases intermetálicas ordenadas foi a fusão dos metais puros em um forno a arco voltaico, sob atmosfera de argônio, pesados em proporção estequiométrica 1:1, com posterior re-fusão dos materiais em um forno de indução térmica e tratamento térmico por 24h na temperatura de estabilização da fase. Os materiais obtidos foram caracterizados pelas técnicas de Difração de Raios-X (DRX), Microscopia Eletrônica de Varredura com Energia Dispersiva de Fluorescência de Raios-X (MEV-EDX) e Espectroscopia Fotoeletrônica de Raios-X (XPS), cujos resultados indicaram que a metodologia utilizada levou a obtenção de materiais com excelentes características de compactação e homogeneidade, não apresentando segregação de fases e variação desprezível de composição. A avaliação da atividade eletrocatalítica destes materiais para a reação do etanol foi realizada empregando... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Ordered intermetallic platinum phases with several transition metals, Pt-M (M = Mn, Mo, Pb, Sb e Sn), have been proposed as electrocatalytic materials to be used in direct ethanol fuel cells, as they combine an excellent capacity to adsorb organic fuels at the platinum sites with the low susceptibility to being poisoned by intermediates and reaction products at the transition-metal sites. The experimental procedure used to obtain the ordered intermetallic phases was the melting of the pure metals weighed in 1:1 molar stoichiometric proportion in an electric-arc furnace, under an argon atmosphere, afterwards the materials were re-melted in a thermal induction furnace and annealed for 24h at the temperature at which the desired phase is stable. The phases thus produced were characterized by X-Ray Diffraction (XRD), Scanning Electron Microscopy with surface analysis by Energy-Dispersive X-ray Spectrometry (SEM-EDX), Scanning Tunneling Microscopy (STM) and X-ray Photoelectron Spectroscopy (XPS) and these results showed that the methodology used was succeeded in obtaining ordered intermetallic platinum phases with a high level of homogeneity, no detectable phase segregation and no significant composition variation. The evaluation of the electrocatalytic activity of these materials for the ethanol oxidation reaction was performed by cyclic voltammetry and chronoamperometry techniques... (Complete abstract click electronic access below) / Mestre

Compostos intermetalicos.

Álcool.

Platina.

Oxidação.

Eletrocatálise.

Intermetallic phase. eng

Electrocatalysis. eng

Platinum. eng

Ethanol. eng

Oxidation. eng

Estudo da reação de oxidação do metanol sobre fases intermetálicas ordenadas Pt-M com a técnica de espectroscopia de impedância eletroquímica /

Perez, Letícia.

January 2010

Orientador: Antonio Carlos Dias Ângelo / Banca: Joelma Perez / Banca: Mauro Coelho dos Santos / Resumo: A oxidação do metanol apresenta problemas acentuadamente complexos que ainda não foram satisfatoriamente solucionados. Possui um mecanismo duplo caminho, ou seja, diretamente a CO2 ou pelo caminho alternativo via intermediários. Também como intermediário/produto da reação ocorre a formação de CO que é usualmente identificado como o agente bloqueador da superfície eletródica devido à sua adsorção irreversível. Baseado em um estudo recente da reação de oxidação do metanol sobre Pt por espectroscopia de impedância eletroquímica (EIE), este trabalho teve por objetivo aplicar a técnica de EIE no estudo da eletrocatálise da reação de oxidação do metanol sobre fases intermetálicas ordenadas de PtMn, PtSb e PtSn em meio ácido, visto que os metais Mn, Sb e Sn por apresentarem característica oxifílica, podem formar mais facilmente espécies OH que promovem a oxidação de intermediários fortemente adsorvidos nos sítios ativos da superfície eletródica. Os intermetálicos também apresentam maior distância entre os sítios da platina o que pode favorecer uma configuração de adsorção vertical da molécula de CO que é mais fácil de oxidar quando comparado a uma configuração em ponte. Uma análise prévia da atividade catalítica desses materiais para a reação de oxidação do metanol foi realizada empregando-se as técnicas de voltametria cíclica cronoamperometria. Os resultados obtidos mostraram que o processo de oxidação do metanal utilizando os intermetálicos apresentou um deslocamento para valores menos positivos do potencial de início de oxidação, necessitando de uma menor demanda energética para que o processo de oxidação ocorra sobre a superfície destes intermetálicos. A oxidação do metanol apresentou densidade de corrente de corrente de pico superior para esses materiais quando comparado... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Methanol oxidation reaction congregates very complex constraints that were not conveniently solved so far. This reaction usually follows a dual pathway, i.e. direct oxidation to CO2 or through an alternative path via stable intermediates. CO is the most commom identified intermediate of the reaction and surface blocking agent due to its irreversible adsorption characteristic. The here in research is based on recent study performed with the methanol oxidation reaction on Platinum by employing the Electrochemical Impedance Spectroscopy (EIS) technique. The aim of the research was to investigate the methanol oxidation reaction on PtMn, PtSb and PtSn ordered intermetallic surfaces, in acid medium, by means of the EIS technique. These materials were selected to the study since they have oxophilic metals (Mn, Sb and Sn) that could provide OH species on the electrode surface at electrode potentials less positive than polycrystalline Platinum under the same experimental conditions. Moreover, these surfaces also exhibits a larger Pt-Pt distance in comparison to polycrystalline Platinum that inhibits the stable bridge configuration adsorption of CO. The electrochemical data obtained have demonstrated that ehe methanol oxidation reaction on the studied surfaces presented a less positive onset potential as compared to Pt. The materials also have exhibited a higher maxima current densities and lower susceptibility for CO blocking than Pt. EIS spectra obtained fot the reaction taking place on Pt, PtSb and PtSn have presented an inductive component that is characteristic of stable intermediate adsorption process. Steady state measurements have pointed to a change in the mechanism of the reaction probably due to the action of surface oxygenated species. Furthemore, the EIS technique has been proved o be a powerful tool to investigate... (Complete abstract click electronic access below) / Mestre

Eletrocatálise.

Metanol.

Oxidação.

Espectroscopia de impedancia.

Intermetallic. eng

Electrocatalysis. eng

Platinum. eng

Methanol. eng

Oxidation. eng

Développement d'un procédé d'élimination de l'Arsenic en milieu aqueux, associant électrocatalyse et filtration / Electrocatalytic oxidation of arsenic coupled with liquid-phase polymer-based retention : analysis and extraction of trace arsenic

Rivera Zambrano, Juan Francisco

03 December 2012

Ce mémoire est essentiellement consacré à la synthèse électrochimique et à la caractérisation structurale de matériaux composites d'électrode nanostructurés du type polymère fonctionnalisé contenant une dispersion homogène de nanoparticules d'oxydes de ruthénium ou d'iridium, ainsi qu'à l'étude de leurs propriétés électrocatalytiques vis-à-vis de l'oxydation en milieu aqueux de l'arsenic(III) en arsenic(V). La combinaison de l'oxydation électrocatalytique de l'arsenic(III) avec la technique d'ultrafiltration LPR (Liquid phase Polymer-assisted Retention) nous a permis de confirmer tout l'intérêt de cette approche combinée pour éliminer l'arsenic. Dans ce processus, les matériaux nanocomposites à base d'oxyde d'iridium ont montré les propriétés les plus intéressantes, car ils sont capables de catalyser l'oxydation de l'arsénite en milieu neutre et à des potentiels peu positifs. Enfin, les matériaux d'électrode nanostructurés à base d'oxyde d'iridium sont également efficaces pour l'oxydation catalytique à 4 électrons de l'eau en dioxygène et présentent donc un fort intérêt potentiel dans le contexte de la réaction de dissociation de l'eau. Mots clés : oxyde de ruthénium, oxyde d'iridium, nanocomposite, électrocatalyse, arsenic, ultrafiltration, oxydation de l'eau / This work deals with the electrochemical synthesis and structural characterisation of composite nano-structured functionalized polymer electrodes containing a homogeneous dispersion of ruthenium oxide or iridium oxide nanoparticles, and the study of their electrocatalytic properties towards arsenic (III) oxidation to arsenic (V) in aqueous medium. The combination of electrocatalytic oxidation of arsenic (III) with the ultrafiltration technique LPR (Liquid Phase Polymer-assisted Retention) allowed us to confirm the usefulness of this combined approach for arsenic removal. In this process, the nanocomposite materials based on iridium oxide showed the most interesting properties because they are capable of catalyzing the oxidation of arsenite in neutral and slightly positive potential. Finally, the iridium oxide nanostructured electrodes are also effective for the catalytic water oxidation of 4-electrons in oxygen and thus have the potential to be used in the context of the dissociation reaction of water. Keywords: ruthenium oxide, iridium oxide, nanocomposite, electrocatalysis, arsenic, ultrafiltration, water oxidation.

Electrocatalyse

Nanocomposites polymère-metal

Ultrafiltration

Arsenic

Complexation

Environnement

Electrocatalysis

Polymer-metal nanocomposites

Ultrafiltration

Arsenic

Complexation

Environmental studies

Systèmes moléculaires photocatalytiques pour la réduction des protons en hydrogène en milieux aqueux, associant des catalyseurs de rhodium et de cobalt à des photosensibilisateurs de ruthénium / Design of photoactivable moleculars systems for solar energy conversion

Stoll, Thibaut

26 November 2012

Ce mémoire de thèse est consacré à la mise au point, l'optimisation et l'étude de différentssystèmes moléculaires photocatalytiques de réduction des protons aussi bien en solvant organique,qu'en solvant purement aqueux. Des complexes polypyridiniques de rhodium et de cobalt ont, tout d'abord, été étudiés par électrochimie en solvant, organique en présence d'une source de protons afin d'évaluer leurs potentiels catalytiques. Ils ont ensuite été associés au complexe ruthenium(II)-trisbipyrine, utilisé comme photosensibilisateur, et à un donneur d'électron sacrificiel, la triéthanolamine ou l'ascorbate de sodium pour constituer un système photocatalytique de réduction des protons en dihydrogène (H2). La production de H2 a été évaluée par chromatographie en phase gazeuse et le mécanisme de libération de l'hydrogène a été étudié par spectroscopie d'absorption transitoire. Nous avons pu mettre en évidence que le système [Ru(bpy)3]2+/[Rh(dmbpy)2Cl2]+/NaHA/H2A est parmi les plus actifs jamais décrits pour la réduction des protons dans l'eau pure avec plus de 1000 cycles catalytiques pour le catalyseur. Par la suite, le catalyseur [Rh(dmbpy)2Cl2]+ et le photosensibilisateur ont été reliées par liaison covalente et l'effet de cette association sur l'activité photocatalytique du système a été étudié. Nous avons pu démontrer que le lien covalent non conjugué permet non seulement de conserver les propriétés rédox des deux sous-unités mais également d'augmenter la stabilité et donc l'efficacité du système de manière significative. La dernière partie de ce manuscrit est consacrée à la synthèse, la caractérisation et à l'utilisation en photocatalyse d'un catalyseur macrocyclique de cobalt en association avec [Ru(bpy)3]2+. Ce catalyseur s'est avéré très prometteur puisque les performances mesurées sont supérieures, à condition catalytique équivalente, à celles du complexe [Rh(dmbpy)2Cl2]+. / This thesis is focussed on the development, optimisation and study of different molecular photocatalytic systems for the reduction of protons, in both organic solvents and pure water. Several polypyridine complexes of rhodium and cobalt have been studied by electrochemistry in organic solvents, in the presence of a source of protons, in order to evaluate their catalytic performance for the reduction of protons. They have been studied in the presence of [Ru(bpy)3]2+, which is used as a photosensitiser, and a sacrificial electron donor, either triethanolamine or sodiumascorbate, to construct a photocatalytic system for the reduction of protons to dihydrogen. The production of H2 has been quantified by gas chromatography, and the mechanism of formation of hydrogen has been studied by transient absorption spectroscopy. We have shown that the system [Ru(bpy)3]2+/[Rh(dmbpy)2Cl2]+/NaHA/H2A is amongst the most efficient yet described for the reduction of protons to hydrogen in pure water, with more than 1000 catalytic cycles per molecule of catalyst observed. Furthermore, the [Rh(dmbpy)2Cl2]+ catalyst and the [Ru(bpy)3]2+ photosensitiser have been joined by an alkyl bridge and the effect of this on the photocatalytic activity of the system has beenstudied. We have demonstrated that the non-conjugated covalent link allows not only maintenance ofthe redox properties of both sub-units, but also significantly increases the stability and the efficiency of the system.The final part of this thesis is devoted to the synthesis, characterisation and use of a macrocyclic cobalt complex as a catalyst for photocatalysis of the reduction of protons, in the presence of both [Ru(bpy)3]2+ and sodium ascorbate. This catalyst shows promising activity; its performance is better than that of [Rh(dmbpy)2Cl2]+ under the same catalytic conditions.

Electrochimie

Etudes physico-chimiques

Photocatalyse moléculaire

Electrocatalyse moléculaire

Chimie de coordination

Electrochemistry

Physico-chemicals studies

Molecular photocatalysis

Molecular electrocatalysis

Coordination chemistry

Efeito da adição de praseodímio em catalisadores de Pt e PtSn/C para eletro-oxidação de etanol / Effect of praseodymium addition in Pt and PtSn/C catalysts for electro-oxidation of ethanol

Patricia Gon Corradini

06 December 2012

O efeito da presença do praseodímio em catalisadores de Pt/C e PtSn/C para eletro-oxidação de etanol foi estudado neste trabalho. Os principais objetivos foram estudar alterações na rota sintética da metodologia do ácido fórmico, visando catalisadores com propriedades físico-químicas que aumentem a eficiência frente a reação de oxidação de etanol; entender o motivo das variações na atividade catalítica; e avaliar a estabilidade dos catalisadores nas condições de operação da célula. A atmosfera de síntese dos catalisadores de PtPr/C influencia fortemente as atividades catalíticas destes materiais. Os catalisadores sintetizados em atmosfera de CO apresentaram antecipação do potencial de pico de oxidação de CO e maior área ativa em relação aos materiais sintetizados em atmosfera de hidrogênio. A mudança de atmosfera para gás CO promoveu mudanças físicas como a redução do tamanho médio de cristalito e tamanho médio de partícula. A adição de praseodímio promove a oxidação do etanol em menores potenciais que a platina, por favorecer o mecanismo bifuncional. A adição de estanho ao catalisador PtPr/C teve um efeito benéfico na atividade catalítica. Os dados DRX não indicam alto grau de liga Pt-Sn, mas mesmo em forma de óxido, o estanho apresentou um efeito eletrônico, como informado pelos dados de XAS. A interação de Pt-Sn promove a dissociação da água para formar Sn-OHad próximo a espécies de monóxido de carbono adsorvidas na Pt, facilitando a rápida oxidação de etanol. Os testes de estabilidade indicaram que os catalisadores PtSnPr/C apresentam grande variação da área ativa com sucessivas ciclagens. Apesar da dissolução de espécies de estanho, a adição de praseodímio contribuiu para elevar a estabilidade dos catalisadores sintetizados. / The effect of praseodymium presence in Pt/C and PtSn/C catalysts for ethanol electro-oxidation was investigated. The main objectives were the evaluation of a modified formic acid synthesis method for the preparation of PtPr/C and PtSnPr/C catalysts with enhanced activity for the ethanol oxidation reaction and stability at the cell operating conditions. The synthesis atmosphere of PtPr/C catalysts highly influences the catalytic activity of these materials. The catalysts synthesized in CO atmosphere showed a lower onset potential for CO oxidation and a higher active surface area than those synthesized in a hydrogen atmosphere. The CO atmosphere promoted physical changes such as reduction of crystallite size and particle size. Addition of praseodymium to Pt/C catalyst improved the activity for ethanol oxidation by the bifunctional mechanism. Tin addition to the PtPr/C catalyst had a beneficial effect on catalytic activity. XRD data no indicated Pt-Sn alloy, but even in oxide form, tin presented an electronic effect, as reported by XAS data. The interaction of Pt with Sn promotes the dissociation of water to form Sn-OHadsorbed close to carbon monoxide adsorbed on the Pt, and it facilitates a fast ethanol oxidation. Stability tests showed a change in the active area of the PtSnPr/C catalysts after repetitive potential cycling. Although the tin species dissolution, the praseodymium addition increased the catalysts stability.

célula a combustível

eletrocatálise

estanho

oxidação de etanol

platina

terras raras

electrocatalysis

ethanol oxidation

fuel cells

platinum

rare earths

tin