Étude de la faisabilité d'un procédé d’adsorption gaz-solide pour le traitement des NOx et CO en présence d'eau : application aux émissions de moteurs diesel en espaces confinés / Study of the feasibility of a gas-solid adsorption process for the treatment of NOx and CO in the presence of water : Application to diesel engines emissions in confined spaces

Delachaux, Florine

19 December 2018

Depuis 2012, les gaz d’échappement diesel sont considérés comme cancérigènes, ce qui représente un risque pour les travailleurs quotidiennement exposés à ces fumées. Cette étude s’intéresse plus particulièrement aux oxydes d’azotes (NOx) et au monoxyde de carbone (CO) présents dans l’échappement diesel. Actuellement, des solutions catalytiques permettent de réduire la concentration de sortie de ces composés mais elles ne sont pas viables pour les véhicules non routiers fonctionnant de façon discontinue et pour solutionner la problématique du « cold start ». La thèse s’est alors orientée vers l’adsorption sur des zéolithes. Dans un premier temps, sept zéolithes ont été choisies et l’étude de l’adsorption des corps purs en dynamique a montré qu’elles étaient peu efficaces dans la capture de NO et de CO mais qu’elles avaient de bonnes capacités d’adsorption vis à vis de NO2. L’étude plus poussée sur trois d’entre elles, Na Y, NH4 Y et H Y, a montré qu’en présence d’O2 et/ou de vapeur d’eau dans le flux gazeux, des réactions chimiques se produisent, conduisant notamment à la formation de NO2 et/ou de NO qui doivent alors être également adsorbé. Le rôle de la température d’adsorption a également été étudié sur la zéolithe Na Y. Son influence est importante à la fois sur la capacité d’adsorption et sur les cinétiques des réactions chimiques. Les capacités de rétention maximales des NOx sur la zéolithe Na Y sont obtenues à 30°C en présence d’O2 dans le flux gazeux et en absence totale d’eau. Afin d’améliorer la capture de NO et CO, il est possible d’estimer les capacités d’adsorption d’autres zéolithes en utilisant la modélisation moléculaire par Density Functional Theory (DFT) afin de calculer les chaleurs isostériques d’adsorption / Since 2012, diesel exhaust gases are considered to be carcinogenic, which is a risk to workers who are exposed to these fumes on a daily basis. This study focuses on nitrogen oxides (NOx) and carbon monoxide (CO) present in the diesel exhaust. Currently, catalytic solutions can reduce the outlet concentration of these compounds, but they are not viable for non road vehicles operating intermittently and to solve the problem of “cold start”. The thesis was then focuses on adsorption on zeolites. As a first step, seven zeolites were selected and the study of the adsorption of pure components in dynamics showed that they were ineffective in the uptake of NO and CO but they had good adsorption capacities for NO2. The further study on three of them, Na Y, NH4 Y and H Y, showed that in the presence of O2 and/or water vapor in the gaseous stream, chemical reactions occur, leading in particular to the formation of NO2 and/or NO which must then also be adsorbed. The role of adsorption temperature has also been studied on zeolite Na Y. Its influence is important on the adsorption capacity and on the kinetics of the chemical reactions. The maximum retention capacities of NOx on zeolite Na Y are obtained in presence of O2 in the gaseous mixture and in absence of water. In order to improve the uptake of NO and CO, it is possible to estimate the adsorption capacities of other zeolites by using molecular modeling by Density Functional Theory (DFT) to calculate the isosteric heats of adsorption

Diesel

Adsorption

Zéolithes

Fronts de percée

Co-adsorption

Vapeur d’eau

Température

Diesel

Adsorption

Zeolites

Breakthrough curves

Co-adsorption

Water vapor

Temperature

660.284 2

549.68

Studium struktury a interakce s molekulami plynů systémů Rh-Sn a Rh-SnO2 / Study of the structure and of interaction with gas molecules of Rh-Sn and Rh-SnO2

Janeček, Petr

January 2012

In this work we present the results of the analysis of the surface structures and absorption properties with respect to the CO and O2 molecules of the Sn/Rh and Rh/SnO2 model systems. In the part dedicated to the Sn structures on Rh surfaces with two different orientations - Rh(110) and Rh(111) - we have investigated the development of the core electron levels and valence band during the development of surface reconstructions and absorption of CO molecules. The surface reconstructions of the Sn/Rh(110) systems were studied for the first time. Difference in behaviour w.r.t. Sn/Rh(111) was observed and explanation offered. Finally, on in-situ prepared epitaxial SnO2 layers, the surface reconstruction (4×1) was observed. The CO adsorp- tion properties of Rh on polycrystalline and epitaxial SnO2 layers were also studied and difference in behaviour explained.

Studium nových katalytických materiálů pro palivové články s polymerní membránou / Study of new catalytic materials for proton exchange membrane fuel cells

Homola, Petr

January 2012

Title: Study of new catalytic materials for proton exchange membrane fuel cells Author: Petr Homola Department: Department of Surface and Plasma Science Supervisor: Prof. RNDr. Vladimír Matolín, DrSc. Abstract: Submitted thesis deals with study of thin layers based on platinum and cerium oxides in order to use them in fuel cells with polymer membrane (PEM- FC). A set of samples with different amount of platinum was prepared by means of magnetron sputtering. Samples were investigated by X - ray Photoelectron Spectroscopy (XPS) and results were confronted with sputtering parameters. It was found out that chemical state of platinum is related to its amount in thin layer. The less platinum was contained in thin layer, the less amount of Pt0 state was observed and amounts of Pt2+ and Pt4+ states increased. Furthermore the temperature stability of prepared layers in the interval from room temperature to 250 ◦ C was studied by means of XPS. The adsorption of carbon monoxide was measured by infrared absorption spectroscopy (IRAS). Increasing degree of adsorption on sample probably related to platinum reduction with increased tem- perature was observed. Measurements of other samples were devaluated by strong contamination with nickel carbonyls. Keywords: PEMFC, cerium oxide, magnetron sputtering, XPS, CO adsorption

Bridged Mesoporous Silsesquioxanes as Potential CO₂ Adsorbents

Esam, Odette, Zhou, Guannan, Vasiliev, Aleksey

01 June 2015

Abstract: Mesoporous amino-functionalized adsorbents for post-combustion CO2 capture were synthesized by grafting and sol–gel methods. The silsesquioxane obtained by polycondensation of bis[3-(trimethoxysilyl)-propyl]amine without a cross-linker had the highest amount of surface amino groups. Their content was 8.4 times higher than in the grafted material prepared with the same precursor. All obtained materials were tested in CO2 reversible adsorption from a gas stream. The bridged silsesquioxane adsorbent had the adsorption capacity 4.7 times higher than the grafted sample obtained from the same precursor. Porosity study of this material revealed wide pore size distribution with notable fraction of macropores. The nature of adsorbed species was determined from the FTIR spectrum after adsorption. It was found that CO2 formed carbamate and bicarbonate species on the surface.

CO adsorption 2

grafting

mesoporous structure

silsesquioxanes

sol–gel technique

Chemistry

Towards Mixed Molecular Layers for Dye-Sensitized Solar Cells : A Photoelectron Spectroscopy Study

Oscarsson, Johan

January 2016

The increasing demand for renewable energy has led to substantial research on different solar cell technologies. The dye-sensitized solar cell (DSC) is a technology utilizing dye molecules for light absorption. Dye molecules are adsorbed to a mesoporous semiconductor surface and after light absorption in the dye, charge separation occurs at this interface. Traditionally, DSCs have used layers of single dye species, but in recent efforts to enhance power conversion efficiency, more complex molecular layers have been designed to increase the light absorption. For example, the most efficient DSCs use a combination of two dye molecules, and such dye co-adsorption is studied in this thesis. A key to highly efficient DSCs is to understand the dye/semiconductor interface from a molecular perspective. One way of gaining this understanding is by using an element specific, surface sensitive technique, such as photoelectron spectroscopy (PES). In this thesis, PES is used to understand new complex dye/semiconductor interfaces. Dyes adsorbed to semiconductor surfaces are analyzed using PES in terms of geometric and electronic surface structure.  The investigations ultimately target the effects of co-adsorbing dyes with other dyes or co-adsorbents. PES shows that Ru dyes can adsorb in mixed configurations to TiO2. Co-adsorption with an organic dye affects the configuration of the Ru dyes. As a consequence, shifts in energy level alignment and increased dye coverage are observed. The dyes are affected at a molecular level in ways beneficial for solar cell performance. This is called collaborative sensitization and is also observed in todays most efficient DSC. Dye molecules are generally sensitive to high temperatures and the substantial decrease in power conversion efficiency after heat-treatment can be understood using PES. Furthermore, comparing two mesoscopic TiO2 morphologies used in DSCs show differences in trap state density in the band gap, explaining the photovoltage difference in DSCs comprising these morphologies. Using mixed molecular layers on NiO results in significant improvements of p-type DSC power conversion efficiency. PES shows that changed adsorption configuration contribute to this effect. This thesis shows that PES studies can be used to obtain insight into functional properties of complex DSC interfaces at a molecular level.

dye-sensitized solar cell

DSC

mesoscopic solar cell

photoelectron spectroscopy

PES

XPS

interface

TiO2

NiO

co-adsorption

co-adsorbent

collaborative sensitization

mixed molecular layers

Adsorção e oxidação eletrocatalítica do monóxido de carbono em superfícies de platina atomicamente bem-orientadas / Adsorption and electrocatalytic oxidation of carbon monoxide at atomically well ordered platinum surfaces

Farias, Manuel de Jesus Santiago

10 February 2011

O presente trabalho apresenta um estudo sistemático sobre a adsorção e a eletrooxidação do CO sobre eletrodos monocristalinos de platina. A partir da análise das intensidades das bandas integradas e das freqüências do Pt(111)-CO, apresenta-se uma interpretação dos efeitos de acoplamento dipolo-dipolo e de interconversão do COads.. Assim, sobre a Pt(111) os espectros de FTIR in situ mostram que o aumento na razão da intensidade das bandas integradas ACOB/ACOL e nas freqüências do νCOB quando θCO,total diminue é devido à redução do acoplamento dipolo-dipolo entre as moléculas do CO em diferentes sítios e, adicionalmente, à interconversão das formas inclinadas dos COL e COB para a forma do COB. No sentido de explicar esta interconversão, propomos um mechanism baseado nas interações dos orbitais de fronteiras do CO e do metal, associado com a retrodoação de elétrons. Nesse modelo, os deslocamentos das formas inclinadas do COL e do COB em direção à forma do COB são favoráveis provavelmente porque a retrodoação de elétrons, Ptd → CO2π* (LUMO), aumenta quando θCO,total diminui. Experimentos potenciostáticos sugerem que a cinética de nucleação e crescimento é o melhor modelo para descrever a eletrooxidação do CO. Propomos que no potencial de oxidação, ECO oxi. pode existir uma via muito rápida de formação do precursores oxigenados e que este pode lateralmente colidir com as ilhas de CO, impedindo que ocorra a dissipação das ilhas do COads. no potencial de oxidação, ECO oxi.. Apresentamos a evolução do crescimento e da oxidação de sub-monocamada de CO sobre monocristais de platina facetados. Em baixo grau de recobrimento do CO foi observado que a adsorção dessa molécula ocorre sem ocupação preferencial de sítios quinas ou terraças. Assim, sugerimos que a adsorção é um processo randômico e que depois que as moléculas do CO são adsorvidas estas não apresentam apreciáveis deslocamentos a partir de CO-(111) em direção aos sítios CO-(110). Isto significa que depois da adsorção, as moléculas do CO têm um longo tempo de residência ou que apresentam um coeficiente de difusão muito baixo. Mas, para alto grau de recobrimento por CO, os resultados mostram que é possível que laterais interações desempanham importantes papéis na distribuição de ocupação dos sítios e observamos que durante a eletrooxidação, são liberados simultaneamente sítios quinas e sítios terraços. Quanto à pré-oxidação, foi observado que quatro condições experimentais precisam ser satisfeitas para que ela ocorra sobre os monocristais de platina: (i) alto grau de recobrimento por CO; (ii) que a superfície onde oncorre a oxidação do CO tenha defeitos, como sítios quinas (110); (iii) que a camada do CO seja formada sob potenciais mais negativos do que o potencial de carga total zero do metal; (iv) e que exista pequena quantidade de CO dissolvido. As condições (i) e (ii) precisam ser satisfeitas simultaneamente para promover a pré-oxidação do CO; as condições (iii) e (iv) essencialmente contribuem correspondendo à condição (i). Observamos que a magnitude do pre-pico aumenta com o aumento do grau de recobrimento por CO. Então, isto pode ser indicativo que a pré-oxidação não tem relação com a difusão do CO em superfície porque o aumento do grau de recobrimento reduz a probabilidade de difusão em superfície. O modelo de ilhas comprimidas parece ser mais apropriado para descrever a pré-oxidação do CO. / This work presents a systematic study on the CO adsorption and its oxidation at platinum single crystal electrodes. From analysis of integrated band intensity and band frequency position of the Pt(111)-CO interface in acid, it is presented an interpretation of the dipole-dipole coupling effect and surface site inter-conversions of COads.. Thus, on Pt(111), in situ FTIR data show that the increase in both ratio integrated band intensity ACOB/ACOL and frequency of νCOB when θCO,total reduces it is indicative of reduce in dipole-dipole coupling interactions between CO molecules in different surface active sites and a mechanism where the tilted COL and COB in CO pressed adlayer displace or inter-convert in favor of increase of COB concentration. In order to explain that CO interconversion, we propose a mechanism based in frontier molecular orbitals of CO and the orbitals of the metal associated with the electron back bond donation. Thus, the displacement of tilted COL and COB on the surface towards COB is more stable because probably the back bond electron donation, Ptd → CO2π* (LUMO), increase when θCO,total diminishes. Potentiostatic experiments suggest that the nucleation and growth is the better model to describe the CO oxidation. It is proposed here that close to ECO oxi. might there is a fast pathway toward formation of oxygenated species and it might reach the CO islands by side and this hinder the dissipation of COads. islands at ECO oxi.. We report also time evolution studies of low CO adsorption coverage and oxidative stripping on stepped platinum surfaces. In low CO coverage, it was observed that there is no preferential site occupancy for CO adsorption on step or terrace. It is proposed that CO adsorption onto these surfaces is a random process, and after CO adsorption there is no appreciable shift from CO-(111) to CO-(110) sites. This implies that after adsorption, CO molecules either have a very long residence time, or that the diffusion coefficient is much lower than previously thought. But, in high CO coverage, the results show that it is possible that the lateral interaction might play important role in CO site occupancy and it was observed that during the CO electrooxidation the sites released included both terrace (111) and step (110) orientations. Among the CO oxidation a clear CO preoxidation process also occurs. It was observed four experimental conditions which were verified to be fulfilled to promote CO pre-oxidation on platinum single crystal: (i) the CO coverage is should be higher than minimum threshold; (ii) the surface where CO oxidation take place should have defects, such as (110) steps; (ii) the CO monolayer should be formed at potentials below the potential of zero total charge; (iv) and in a small amount of dissolved CO should be present in the electrolyte solution. In both conditions (i) and (ii) are necessary to take place simultaneously to promote CO pre-oxidation, (iii) and (iv) essentially contribute in fulfilling condition (i). It was verified that the magnitude of pre-peak increases with the amount of CO coverage. Thus, this might indicate that the CO pre-oxidation is not having relationship with the CO diffusion on the surface, because the increase of CO coverage diminishes surface diffusion. A picture model of compressed CO islands seems the most to describe CO pre-oxidation.

Adsorção do CO

CO adsorption

CO pre-oxidation

Electrocatalysis

Eletrocatálise

Langmuir-Hinshelwood mecanism

Mecanismo Langmuir-Hinshelwood

Nucleação e crescimento

Nucleation and growth

Pré-oxidação do CO

Stepped surfaces

Stepped surfaces

Μελέτη του ρυθμού έκχυσης ηλεκτρονίων σε ευαισθητοποιημένα υμένια TiO2 για χρήση σε νανοκρυσταλλικά φωτοβολταϊκά στοιχεία

Σεϊντής, Κωνσταντίνος

30 April 2014

Τα φωτοβολταϊκά στοιχεία με ευαισθητοποίηση χρωστικής (Dye Sensitized Solar Cells, DSSCs) κίνησαν το ενδιαφέρον της επιστημονικής κοινότητας ύστερα από την πρωτότυπη δημοσίευση του 1991 των Grätzel και O' Regan. Προτάθηκαν ως μία φθηνή εναλλακτική λύση σε σύγκριση με τα συμβατικά ηλιακά στοιχεία από άμορφο πυρίτιο (amorphous silicon). Οι κύριοι παράγοντες που οδήγησαν την επιστημονική κοινότητα να στραφεί προς αυτή την κατεύθυνση ήταν η ευκολία σύνθεσης των χρωστικών με σχετικά απλές χημικές διαδικασίες και η λειτουργία των νέων αυτών φωτοβολταϊκών στοιχείων υπό συνθήκες διάχυτου φωτός. Γενικά, ένα τέτοιο φωτοβολταϊκό στοιχείο αποτελείται από μία φωτοάνοδο (photoanode), ένα πορώδες υπόστρωμα από ημιαγώγιμο οξείδιο μετάλλου (metal oxide semiconducting film), μία χρωστική που χρησιμοποιείται ως φωτοευαισθητοποιητής (sensitizer), έναν ηλεκτρολύτη (electrolyte) και ένα αντιηλεκτρόδιο (counter electrode), το οποίο, συνήθως, επικαλύπτεται με ένα λεπτό στρώμα από πλατίνα (Pt). Η κύρια διεργασία που λαμβάνει μέρος σε ένα DSSC, μετά από την απορρόφηση φωτός, είναι μία διεπιφανειακή μεταφορά φορτίου (interfacial electron transfer IET) από την ηλεκτρονιακά διεγερμένη στάθμη της χρωστικής προς τη ζώνη αγωγιμότητας του ημιαγωγού. Η χρονική της διάρκεια είναι της τάξεως των μερικών εκατοντάδων fs και κατατάσσεται στα υπερταχέα φαινόμενα. Ο όρος που έχει επικρατήσει, για τη διεργασία αυτή στα DSSCs, είναι έκχυση ηλεκτρονίων (electron injection) και χρησιμοποιείται στην παρούσα διπλωματική εργασία. Η τεχνική της φασματοσκοπίας φθορισμού χρονικής ανάλυσης με παλμούς διάρκειας μερικών δεκάδων fs, αποτελεί μία από τις πιο αξιόπιστες και άμεσες τεχνικές για την καλύτερη δυνατή καταγραφή υπερταχέων φαινομένων, όπως η έκχυση ηλεκτρονίων. Σκοπός της παρούσας διπλωματικής εργασίας είναι η μελέτη της έκχυσης ηλεκτρονίων με τη χρήση δύο νέων οργανικών χρωστικών, της μορφής D-π-A, ως φωτοευαισθητοποιητές σε DSSCs με την τεχνική αυτή.Στο πρώτο κεφάλαιο πραγματοποιείται μία γενική επισκόπηση των βασικών αρχών που διέπουν τα φωτοβολταϊκά στοιχεία με ευαισθητοποίηση χρωστικής. Αρχικά, γίνεται αναφορά στα μέρη που αποτελούν ένα τέτοιο φωτοβολταϊκό στοιχείο και ακολούθως στα υλικά και στις διεργασίες οι οποίες συμμετέχουν σε ένα ολοκληρωμένο DSSC.Στο δεύτερο κεφάλαιο επιχειρείται, στο πρώτο σκέλος, μία γενική ανασκόπηση της θεωρίας του Markus για τη μεταφορά των ηλεκτρονίων (Markus Theory). Έπειτα, πραγματοποιείται μία αναλυτική επισκόπηση της δυναμικής και κινηματικής των διεργασιών που συντελούνται στα DSSCs. Συνεχίζοντας στο τρίτο κεφάλαιο, παρουσιάζονται πληροφορίες σχετικές με τα υποστρώματα και τις χρωστικές που χρησιμοποιούνται στα DSSCs. Το κεφάλαιο επικεντρώνεται στην περιγραφή των υποστρωμάτων TiO2 και ΖnO, τα οποία αποτελούν τα κύρια υποστρώματα που χρησιμοποιούνται στα DSSCs. Στο δεύτερο σκέλος του κεφαλαίου, πραγματοποιείται αναφορά στις ιδιότητες που οφείλουν να πληρούν οι χρωστικές, για τη χρήση τους στα DSSCs, καθώς και εκτενής ανασκόπηση των χρωστικών, οι οποίες έχουν χρησιμοποιηθεί, μέχρι σήμερα, ως φωτοευαισθητοποιητές. Στο τέταρτο κεφάλαιο παρουσιάζονται οι μηχανισμοί που συμμετέχουν κατά την αποδιέγερση ενός οργανικού μορίου και οι χρονικές κλίμακες, που αυτοί εμφανίζονται (διάγραμμα Jablonski). Επίσης, γίνεται αναφορά στις πληροφορίες που εξάγονται από τα φάσματα σταθερής κατάστασης (steady state spectra) και χρονικής ανάλυσης (time-resolved spectra), καθώς και η μεταξύ τους σύγκριση. Στο πέμπτο κεφάλαιο πραγματοποιείται μία αναλυτική περιγραφή της πειραματικής διάταξης, η οποία χρησιμοποιήθηκε για την εξαγωγή των πειραματικών δεδομένων. Τέλος, στα τελευταία δύο κεφάλαια (πέμπτο και έκτο) περιγράφεται, στο πρώτο, ο φωτοφυσικός χαρακτηρισμός των δύο νέων οργανικών χρωστικών, ΜΖ-173 και ΜΖ-175, της δομής D-π-Α, σε διάλυμα THF και σε στερεό υπόστρωμα TiO2 αντίστοιχα, το οποίο χρησιμοποιήθηκε ως το υπόστρωμα προσρόφησης των χρωστικών. Ακολούθως, μελετήθηκε η δυναμική και η απόδοση της έκχυσης των ηλεκτρονίων από τις χρωστικές αυτές προς το ημιαγώγιμο υπόστρωμα TiO2, με χρήση της τεχνικής της φασματοσκοπίας χρονικής ανάλυσης φθορισμού με παλμούς διάρκειας μερικών δεκάδων fs (femtosecond time resolved fluorescence spectroscopy). Ως δείγμα αναφοράς, για την εύρεση της απόδοσης της έκχυσης των ηλεκτρονίων στη ζώνη αγωγιμότητας του ημιαγωγού, χρησιμοποιήθηκε νανοκρυσταλλικό υπόστρωμα Al2O3. Τέλος, πραγματοποιήθηκε η μελέτη της δυναμικής της έκχυσης των ηλεκτρονίων με τη χρήση του μορίου CDCA, ως συνπροσροφητή στην επιφάνεια των υποστρωμάτων TiO2 και Al2O3, μαζί με χρωστική ΜΖ-173, σε διάφορες συγκεντρώσεις. Αυτή η μελέτη έγινε με σκοπό τη μείωση της συσσωμάτωσης των μορίων της χρωστικής, αφού το μόριο CDCA έχει την ιδιότητα, λόγω της δομής του, να κρατά σε απόσταση τα μόρια της χρωστικής. / Dye-sensitized solar cells (DSSCs) have attracted great scientific interest after the first demonstration of Grätzel and O’Regan in 1991. They were proposed as low cost alternatives to the conventional amorphous silicon solar cells. The key factors which led the scientific community to this direction are the simplicity of their fabrication procedures with mild chemical processes and their operation under ambient conditions of diffused light. Generally, a DSSC consists of a photoanode, a nanostructured metal oxide semiconducting film, a dye sensitizer, an electrolyte and a counter electrode which is usually coated with Pt. The fundamental process that takes place in a DSSC, after the absorption of a photon by the dye, is an interfacial electron transfer (IET) from the dye’s electronically excited state to the semiconductor’s conduction band (CB), taking place within a few hundred femtoseconds. The term which is generally used for this process in DSSCs is electron injection. Ultrafast fluorescence upconversion spectroscopy is one of the most precise and direct techniques for the study and interpretation of such phenomena. The main subject of this master thesis is the presentation of two novel synthesized organic dyes with D-π-A structure and their study as photosensitizers for DSSCs. It is focused on the photophycical properties of these two dyes in solution and on titanium dioxide (TiO2) substrate, which is used as the metal oxide semiconducting film, and especially on the dynamics of electron injection process from the dye’s excited state to the conduction band of the TiO2 with the aforementioned technique. Finally, the electron injection dynamics of one of dyes with coadsorption of co-adsorbers also investigated. This type of molecules can decrease the amount of aggregates penetrating among the dye molecules but on the same time they cause a decrease of the total amount of the adsorbed dye molecules.

Έκχυση ηλεκτρονίων

621.312 44

Dye sensitized solar cells

DSSCs

Time resolved fluorescence spectroscopy

Electron injection

Co-adsorption

Modified oxygen and hydrogen transport in Zr-based oxides

Anghel, Clara

January 2006

Most metals and alloys in the presence of oxygen and moisture will instantaneously react and form a thin (2-5 nm) surface oxide layer. For further reaction to occur, oxygen ions and/or metal cations often diffuse through the already formed oxide layer. The corrosion resistance of a metal in aggressive environments at high temperatures depends on the properties of the surface oxide scale. Zirconium-based alloys represent the main structural materials used in water-cooled nuclear reactors. For these materials, the formation of a thin, adherent oxide scale with long-term stability in high temperature water/steam under irradiation conditions, is crucial. In this thesis, the transport of oxygen and hydrogen through Zr-based oxide scales at relevant temperatures for the nuclear industry is investigated using isotopic gas mixtures and isotope-monitoring techniques such as Gas Phase Analysis and Secondary Ion Mass Spectrometry. Porosity development in the oxide scales generates easy diffusion pathways for molecules across the oxide layer during oxidation. A considerable contribution of molecular oxygen to total oxygen transport in zirconia has been observed at temperatures up to 800°C. A novel method for evaluation of the gas diffusion, gas concentration and effective pore size of oxide scales is presented in this thesis. Effective pore sizes in the nanometer range were found for pretransition oxides on Zircaloy-2. A mechanism for densification of oxide scales by obtaining a better balance between inward oxygen and outward metal transport is suggested. Outward Zr transport can be influenced by the presence of hydrogen in the oxide and/or metal substrate. Inward oxygen transport can be promoted by oxygen dissociating elements such as Fe-containing second phase particles. The results suggest furthermore that a proper choice of the second-phase particles composition and size distribution can lead to the formation of dense oxides, which are characterized by low oxygen and hydrogen uptake rates during oxidation. Hydrogen uptake in Zr-based materials during oxidation in high temperature water/steam can generate degradation due to the formation of brittle hydrides in the metal substrate. A promising method for the suppression of hydrogen uptake has been developed and is presented in this thesis. / QC 20100629

Zirconia

Zirconium

Zircaloy

hydrogen and oxygen diffusion

SPP

oxygen dissociating elements

oxidation

dissociation

hydration

CO adsorption

molecular transport

porosity.

Materials science

Teknisk materialvetenskap

Adsorção e oxidação eletrocatalítica do monóxido de carbono em superfícies de platina atomicamente bem-orientadas / Adsorption and electrocatalytic oxidation of carbon monoxide at atomically well ordered platinum surfaces

Manuel de Jesus Santiago Farias

10 February 2011

O presente trabalho apresenta um estudo sistemático sobre a adsorção e a eletrooxidação do CO sobre eletrodos monocristalinos de platina. A partir da análise das intensidades das bandas integradas e das freqüências do Pt(111)-CO, apresenta-se uma interpretação dos efeitos de acoplamento dipolo-dipolo e de interconversão do COads.. Assim, sobre a Pt(111) os espectros de FTIR in situ mostram que o aumento na razão da intensidade das bandas integradas ACOB/ACOL e nas freqüências do νCOB quando θCO,total diminue é devido à redução do acoplamento dipolo-dipolo entre as moléculas do CO em diferentes sítios e, adicionalmente, à interconversão das formas inclinadas dos COL e COB para a forma do COB. No sentido de explicar esta interconversão, propomos um mechanism baseado nas interações dos orbitais de fronteiras do CO e do metal, associado com a retrodoação de elétrons. Nesse modelo, os deslocamentos das formas inclinadas do COL e do COB em direção à forma do COB são favoráveis provavelmente porque a retrodoação de elétrons, Ptd → CO2π* (LUMO), aumenta quando θCO,total diminui. Experimentos potenciostáticos sugerem que a cinética de nucleação e crescimento é o melhor modelo para descrever a eletrooxidação do CO. Propomos que no potencial de oxidação, ECO oxi. pode existir uma via muito rápida de formação do precursores oxigenados e que este pode lateralmente colidir com as ilhas de CO, impedindo que ocorra a dissipação das ilhas do COads. no potencial de oxidação, ECO oxi.. Apresentamos a evolução do crescimento e da oxidação de sub-monocamada de CO sobre monocristais de platina facetados. Em baixo grau de recobrimento do CO foi observado que a adsorção dessa molécula ocorre sem ocupação preferencial de sítios quinas ou terraças. Assim, sugerimos que a adsorção é um processo randômico e que depois que as moléculas do CO são adsorvidas estas não apresentam apreciáveis deslocamentos a partir de CO-(111) em direção aos sítios CO-(110). Isto significa que depois da adsorção, as moléculas do CO têm um longo tempo de residência ou que apresentam um coeficiente de difusão muito baixo. Mas, para alto grau de recobrimento por CO, os resultados mostram que é possível que laterais interações desempanham importantes papéis na distribuição de ocupação dos sítios e observamos que durante a eletrooxidação, são liberados simultaneamente sítios quinas e sítios terraços. Quanto à pré-oxidação, foi observado que quatro condições experimentais precisam ser satisfeitas para que ela ocorra sobre os monocristais de platina: (i) alto grau de recobrimento por CO; (ii) que a superfície onde oncorre a oxidação do CO tenha defeitos, como sítios quinas (110); (iii) que a camada do CO seja formada sob potenciais mais negativos do que o potencial de carga total zero do metal; (iv) e que exista pequena quantidade de CO dissolvido. As condições (i) e (ii) precisam ser satisfeitas simultaneamente para promover a pré-oxidação do CO; as condições (iii) e (iv) essencialmente contribuem correspondendo à condição (i). Observamos que a magnitude do pre-pico aumenta com o aumento do grau de recobrimento por CO. Então, isto pode ser indicativo que a pré-oxidação não tem relação com a difusão do CO em superfície porque o aumento do grau de recobrimento reduz a probabilidade de difusão em superfície. O modelo de ilhas comprimidas parece ser mais apropriado para descrever a pré-oxidação do CO. / This work presents a systematic study on the CO adsorption and its oxidation at platinum single crystal electrodes. From analysis of integrated band intensity and band frequency position of the Pt(111)-CO interface in acid, it is presented an interpretation of the dipole-dipole coupling effect and surface site inter-conversions of COads.. Thus, on Pt(111), in situ FTIR data show that the increase in both ratio integrated band intensity ACOB/ACOL and frequency of νCOB when θCO,total reduces it is indicative of reduce in dipole-dipole coupling interactions between CO molecules in different surface active sites and a mechanism where the tilted COL and COB in CO pressed adlayer displace or inter-convert in favor of increase of COB concentration. In order to explain that CO interconversion, we propose a mechanism based in frontier molecular orbitals of CO and the orbitals of the metal associated with the electron back bond donation. Thus, the displacement of tilted COL and COB on the surface towards COB is more stable because probably the back bond electron donation, Ptd → CO2π* (LUMO), increase when θCO,total diminishes. Potentiostatic experiments suggest that the nucleation and growth is the better model to describe the CO oxidation. It is proposed here that close to ECO oxi. might there is a fast pathway toward formation of oxygenated species and it might reach the CO islands by side and this hinder the dissipation of COads. islands at ECO oxi.. We report also time evolution studies of low CO adsorption coverage and oxidative stripping on stepped platinum surfaces. In low CO coverage, it was observed that there is no preferential site occupancy for CO adsorption on step or terrace. It is proposed that CO adsorption onto these surfaces is a random process, and after CO adsorption there is no appreciable shift from CO-(111) to CO-(110) sites. This implies that after adsorption, CO molecules either have a very long residence time, or that the diffusion coefficient is much lower than previously thought. But, in high CO coverage, the results show that it is possible that the lateral interaction might play important role in CO site occupancy and it was observed that during the CO electrooxidation the sites released included both terrace (111) and step (110) orientations. Among the CO oxidation a clear CO preoxidation process also occurs. It was observed four experimental conditions which were verified to be fulfilled to promote CO pre-oxidation on platinum single crystal: (i) the CO coverage is should be higher than minimum threshold; (ii) the surface where CO oxidation take place should have defects, such as (110) steps; (ii) the CO monolayer should be formed at potentials below the potential of zero total charge; (iv) and in a small amount of dissolved CO should be present in the electrolyte solution. In both conditions (i) and (ii) are necessary to take place simultaneously to promote CO pre-oxidation, (iii) and (iv) essentially contribute in fulfilling condition (i). It was verified that the magnitude of pre-peak increases with the amount of CO coverage. Thus, this might indicate that the CO pre-oxidation is not having relationship with the CO diffusion on the surface, because the increase of CO coverage diminishes surface diffusion. A picture model of compressed CO islands seems the most to describe CO pre-oxidation.

Adsorção do CO

Eletrocatálise

Mecanismo Langmuir-Hinshelwood

Nucleação e crescimento

Pré-oxidação do CO

Stepped surfaces

CO adsorption

CO pre-oxidation

Electrocatalysis

Langmuir-Hinshelwood mecanism

Nucleation and growth

Stepped surfaces

Platine sur silice : exemples réussis de synthèse par voie organométallique pour la catalyse hétérogène : validation par l'adsorption et la réactivité du CO / Platinum on silica : Successful examples of organometallic syntheses for heterogeneous catalysis : confirmation by CO adsorption and reactivity

Garnier, Anaïs

25 November 2013

Chimie organométallique résonne avec catalyse homogène, et chimie des surfaces avec catalyse hétérogène. Mais la frontière établie entre ces deux domaines est en réalité très mince. Leur rapprochement aboutit dans les années 1990 au développement d’une nouvelle science : la chimie organométallique de surface, qui souligne leur complémentarité. L’objectif de cette science, dans laquelle s’inscrit ce travail de thèse, est de créer des catalyseurs hétérogènes à partir de composés organométalliques. Notre objectif est d’apporter une contribution à la compréhension de la formation de nanoparticules de platine - métal incontournable en catalyse hétérogène - sur des supports de silice amorphe, et ce grâce à la chimie organométallique. Au cours de ce travail, une palette de catalyseurs Pt/SiO2 a été préparée à partir de trois précurseurs de platine : le composé classique H2PtIVCl6.xH2O et deux composés organométalliques PtII(η 4-C8H12)Cl2 et Pt0(η 2-C7H10)3 , et de trois supports : une silice commerciale (Davison), une silice mésoporeuse SBA-15 synthétisée au laboratoire et unesilice naturelle, la diatomite. De plus, l’étude du catalyseur de référence au platine « EuroPt-1 » a permis de développer une méthodologie de suivi operando par Spectroscopie Infrarouge à Transformée de Fourier par Réflexion Diffuse (DRIFTS) de l’adsorption du monoxyde de carbone (CO) sur les différents sites d’une nanoparticule de platine. En conclusion, les catalyseurs préparés à partir de Pt0(η 2-C7H10)3 s’avèrent être plus actifs qu’EuroPt-1 pour la réaction d’oxydation du CO, ce qui démontre le potentiel d’utilisation des composés organométalliques dans le domaine de la catalyse hétérogène. / Organometallic chemistry resonates with homogeneous catalysis, and surface chemistry with heterogeneous catalysis. But the frontier between these two fields is very thin. In the 90’s, these fields approached each other and led to the development of a new science: organometallic surface chemistry, which underlines their complementarity. The goal of this science, with which this work is associated, is to create heterogeneous catalysts from organometallic compounds. Our goal is to contribute to the understanding of platinum nanoparticle formation - platinum being an important metal in heterogeneous catalysis - onto amorphous silica supports, thanks to organometallic chemistry. During this work, various Pt/SiO2 catalysts were prepared fromthree platinum precursors: the classical one, H2PtIVCl6.xH2O and two organometallic compounds PtII(η 4-C8H12)Cl2 et Pt0(η2-C7H10)3, and involved three supports: a commercial silica (Davison), a mesoporous silica SBA-15 synthesized in the laboratory, and a natural silica, the diatomite. Moreover, the study of the standard platinum reference catalyst “EuroPt-1” lead to the development of a methodology of operando Diffuse Reflectance Infrared Fourier Transform Spectroscopy (DRIFTS) of carbon monoxide (CO) adsorption on the different sites of a platinum nanoparticle. Catalysts prepared from Pt0(η 2-C7H10)3 are more active than EuroPt-1 for the CO oxidation reaction, and this work shows the potential of organometallic precursors in the domain of heterogeneous catalysis.

Nanoparticules de platine

Supports siliciques

EuroPt-1

Spectroscopie IR operando

Déconvolution IR

Désommation IR

Modes d’adsorption du CO

Oxydation du CO

Organometallic platinum precursors

Platinum nanoparticles

Silica supports

EuroPt-1

Operando IR spectroscopy

IR de-convolution

IR fitting

CO adsorption modes

CO oxidation

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