Synthèse et caractérisation de catalyseurs acido-basiques par greffage covalent sur supports carbonés. Application dans le domaine de la valorisation de molécules bio-sourcées / Synthesis and characterization of acid-base catalysts by covalent grafting on carbonaceous supports. Application in the field of upgrading of bio-sourced molecules

Xu, Minrui

07 November 2019

Les applications de catalyseurs homogènes sont généralement limitées dans les processus chimiques industriels en raison des déchets massifs et de la séparation du catalyseur avec les matières premières et les produits au cours des processus de production industrielle. En conséquence, l'hétérogénéisation de catalyseurs homogènes sur des supports solides a souvent été étudiée et s'est révélée plus prometteuse pour les applications industrielles. Néanmoins, non seulement la synthèse complexe du catalyseur, mais également les faibles charges de sites actifs et les faibles rendements qui en résultent contribuent au coût élevé des catalyseurs supportés. Pour remédier à la déficience de la catalyse sur support, les scientifiques ont travaillé sur la fonctionnalisation directe du support solide via la construction de liaisons covalentes. Parmi les approches de fonctionnalisation à l'étude, la chimie du diazonium développée par Griess devient de plus en plus populaire et attrayante puisque cette méthode prometteuse permet de greffer différentes motifs organiques sur divers supports solides. Au cours des dernières années, la fonctionnalisation des matériaux carbonés a été largement développée car le carbone est un matériau peu coûteux et largement disponible. Dans ce travail, la fonctionnalisation spontanée de matériaux carbonés (Darco KB-G; Norit SX2 et Vulcan XC72) a conduit à des solides basiques ou acides en greffant respectivement différents groupements aminophényle (phénylimidazole; N, N, diméthylaniline, aniline, phénylmorpholine) pour les solides basiques et le groupe phényle sulfonique pour les solides acides, via la chimie du diazonium.Les solides fonctionnalisés ont été caractérisés par différentes techniques (analyse élémentaire, adsorption-désorption de N2, ATG, MEB, FT-IR, XPS et Spectroscopie de Raman) et utilisés dans différentes réactions modèles pour valoriser des molécules plateformes bio-ressourcées, en particulier le furfural. Par exemple, la condensation de Knœvenagel entre le furfural et le malononitrile dans des conditions douces conduisant au 2-furanylméthylène malononitrile et à l’eau, illustre l’utilité et l’efficacité de ces nouveaux solides basiques. Le solide basique Darco-0.5PDA a montré une activité catalytique élevée lors de la condensation du furfural et du malononitrile par Knœvenagel dans des conditions expérimentales douces (40 °C, Patm). Les performances catalytiques des solides acides fonctionnalisés ont été évaluées dans la réaction d'acétalisation du dodécylaldéhyde avec l'éthylène glycol à 60 °C à pression atmosphérique dans des conditions classiques et PIC (Pickering Interfacial Catalysis) sans solvant. Les expériences montrent que les émulsions de Pickering dodécyl aldéhyde / éthylène glycol solides sont stabilisées par l’acide amphiphile synthétisé et démontrent une bonne stabilité et une bonne activité dans une acétalisation biphasique sans solvant. / Homogeneous catalyst applications are usually limited in industrial chemical processes because massive wastes are produced and catalyst separation with raw materials and products is inconvenient during industrial production processes. As a result, the heterogenization of homogeneous catalysts onto solid supports was often investigated and proven to be more promising for industrial applications. Nevertheless, not only the tedious catalyst synthesis but also the low catalyst loadings and the resulting low efficiencies contribute to the high cost of supported catalysts. To remedy the deficiency of supported catalysis, scientists have worked on direct functionalization of solid support via covalent bond building. Among the approaches of functionalization being investigated, the chemistry of diazonium developed by Griess is becoming more and more popular and attractive since this promising method enables to graft different organic moieties onto various solid supports. During past few years, the functionalization of carbonaceous materials was widely developed because carbon is an inexpensive and extensively available material. In this study, the spontaneous functionalization of carbonaceous materials (Darco KB-G; Norit SX2 and Vulcan XC72) can lead to basic or acid solids by respectively grafting different aminophenyl groups (phenylimidazole; N,N,dimethylaniline, aniline, phenylmorpholine) for basic solids and phenyl sulfonic group for acid solids, via diazonium chemistry.The functionalized solids were characterized by different technics (elemental analysis, N2 adsorption-desorption, TGA, SEM, FT-IR, XPS and Raman spectroscopy) and used in different model reactions to upgrade bio-resourced platform molecules, especially furfural. For instance, the usefulness and effectiveness of these new basic solids are illustrated with the Knœvenagel condensation between furfural and malononitrile under mild conditions leading to 2-furanylmethylene malononitrile and water. The basic solid Darco-0.5PDA exhibited high activity to the Knœvenagel condensation of furfural and malononitrile under mild experimental conditions (40 °C, Patm). The catalytic performance of functionalized acid solids was assessed in the acetalization reaction of dodecyl aldehyde with ethylene glycol at 60 °C under atmospheric pressure in both conventional and solvent-free PIC (Pickering Interfacial Catalysis) conditions. The experiments evidenced that the synthesized amphiphilic acid solid stabilized dodecyl aldehyde/ethylene glycol Pickering emulsions and demonstrated both good stability and activity in a solvent-free biphasic acetalization.

Charbon actif

Catalyse hétérogène

Chimie du diazonium

Réaction biphasique

Réaction de Knœvenagel

Activated charcoal

Heterogeneous catalysis

Diazonium chemistry

Biphasic reaction

Knœvenagel reaction

547.593

547.215

Effet des forces de van der Waals sur la dynamique de l'azote et de l'hydrogène en interaction avec la surface de W(100) / Influence of van der Waals forces in the dynamics of nitrogen and hydrogen in interaction with W(100) surface

Ibargüen becerra, César

28 November 2019

Une littérature scientifique nourrie est consacrée aux processus élémentaires hétérogènes se produisant à l’interface gaz-solide en raison de leur rôle clé dans de nombreux domaines. Ainsi, l’interaction d’atomes et de molécules avec les surfaces revêt une importance primordiale dans l’étude de la catalyse hétérogène, la combustion, la corrosion, le stockage de l’hydrogène, l’industrie automobile et pétrolière, les interactions plasma/paroi dans le contexte du réacteur expérimental thermonucléaire (ITER), les technologies du spatial, la chimie atmosphérique et l’astrochimie, pour citer quelques exemples. Lorsqu'un atome ou une molécule entre en collision avec une surface, de nombreux processus élémentaires peuvent avoir lieu. Ils dépendent de nombreux facteurs tels que : l'énergie de collision du projectile, l'angle d'incidence sur la surface, la température de surface, l'état initial le des molécules, le transfert d'énergie entre la surface des projectiles, etc… Tous ces facteurs influencent fortement les mécanismes réactionnels et la dynamique de ces processus. Les expériences de faisceaux moléculaires permettent un contrôle toujours plus précis de l'état initial des réactifs associé à un caractérisation fine des produits de réactions. Cependant, dans la plupart des cas, ces observations expérimentales ne fournissent pas tous les détails qui nous permettent de décrire finement les mécanismes gouvernant les processus élémentaires étudiés. Par conséquent, l'élaboration de modèles théoriques devient essentielle pour en rationaliser la description. L'objectif principal de ce travail de thèse est de proposer une analyse de la dynamique de plusieurs processus élémentaires pouvant se produire sur une surface de W(100) en contact avec de l'hydrogène et de l'azote (diffusion inélastique de N2 et H2, l'adsorption dissociative et non dissociative de H2 et l'adsorption et l'absorption de H et N). Par rapport aux études antérieures, la nouveauté de ce travail réside dans la prise en compte des interactions à longue distance de type van der Waals, qui s’avèrent essentielles lorsqu'on souhaite atteindre un bon accord théorie expérience dans le régime des faibles énergies de collision. Les résultats sont comparés aux données expérimentales disponibles et aux résultats théoriques antérieurs. Des simulations de dynamique moléculaire quasi-classique sont réalisés à l'aide de surfaces d'énergie potentielle (PES) basées sur la théorie de la fonctionnelle de la densité, tenant compte d’interactions non locales, telles que les forces de van der Waals. La dissipation de l’énergie aux vibrations du réseau et aux excitations électroniques est prise en compte au moyen de modèles effectifs. / An important part of scientific literature is devoted to the heterogeneous elementary processes occurring at gas-solid interface due to their great importance and key role in many different domains and applications. Thus, interaction of gas atoms/molecules with surface reactions are of primary importance in the study of: heterogeneous catalysis, combustion of solid fuel and coal gasification, processes of corrosion, hydrogen storage in solid material, automotive and oil industry, plasma-wall interactions in the context of thermonuclear experimental reactor (ITER), atmospheric re-entries technologies and astrochemistry, to name some examples. When an atom or molecule impinges on a surface many different elementary processes can take place, which depends on factors such as: the collision energy of the projectile, the angle of incidence to the surface, the surface temperature, the initial state of the molecules, the transference of energy projectiles-surface, etc. All these factors determines the mechanisms of reaction and the dynamics of the processes. Experimental molecular beams (MB) and other experimental techniques are able to accurately control the initial state of the reactive and characterizing products of gas-surface reactions. However, in most of the case experimental techniques do not provide enough details about the mechanisms through which elementary processes occur. Consequently, theoretical models becomes essential to rationalize the description that in certain cases the experiments do not reach.The main goal of this thesis work is to propose an analyze of the dynamics of several elementary processes occurring on a W(100) surface, such as: the inelastic scattering of N2 and H2, the dissociative and non-dissociative adsorption of of H2 and the adsorption and absorption of H and N. Compared to previous studies, the novelty of this work resides in the taking into account of van der Waals long-distance interactions, which are essential to reach a good agreement between theoretical and experiment results, especially at low collision energy regime. To rationalize the non-adiabatic effects, the energy dissipation to lattice vibrations and electronic excitation are taken in to account by means of GLO and LDFA models respectively.

Surfaces d’énergie potentielle

Simulations numériques

Dynamique réactionnelle

Catalyse heterogéne

Science des surfaces

Surface science

Heterogeneous catalysis

Reaction dynamics

Numerical simulations

Potential energy surfaces

[en] OBTAINING BIO-OIL FROM COCONUT OIL WITH MOLYBDENUM AND NICKEL CATALYSTS / [pt] OBTENÇÃO DE BIO-ÓLEO A PARTIR DO ÓLEO DE COCO COM CATALISADORES DE MOLIBDÊNIO E NÍQUEL

20 May 2020

[pt] A preocupação ambiental é um tema que vem ganhando seu espaço em pesquisas de diversas áreas, é necessário que a dependência da utilização de combustíveis fósseis não aumente, para que os impactos gerados por eles no meio ambiente como a poluição e o efeito estufa sejam então controlados. Além disso, o uso de fontes alternativas como matéria-prima para a geração de energia possui grande importância nessa substituição. O presente trabalho visa avaliar o potencial do óleo de coco para a produção de um bio-óleo a partir da catálise heterogênea utilizando catalisadores metálicos de Ni e Mo suportados em sílica mesoporosa (SBA-15). Os catalisadores e o suporte foram sintetizados manualmente, calcinados e passaram por diversas análises de caracterização. Para a reação, utilizou-se a temperatura de 370 graus Celsius, pressão na faixa de 10 a 15 bar, e um tempo de reação de 2 horas. Após o bio-óleo ser produzido o mesmo foi filtrado e destilado, para se trabalhar na faixa do diesel. Por fim, o óleo passou por duas análises de caracterização, sendo elas, a determinação do ponto de fulgor e massa específica, para então avaliar o potencial do óleo de coco na substituição dos combustíveis tradicionais. A síntese do suporte e a impregnação dos catalisadores foi considerada satisfatória, pois os resultados se apresentaram de acordo com a literatura, mostrando que se tratam de materiais mesoporosos, e além disso, a presença dos metais foi comprovada. Após as análises de caracterização, o bio-óleo produzido a partir do catalisador de níquel foi considerado o melhor, visto que, suas propriedades ficaram dentro da faixa esperada (ponto de fulgor de 41 graus Celsius e uma massa específica de 0,8408 g/cm3) para um combustível derivado do petróleo, e além disso, teve uma eficiência de 45,05 porcento na redução da concentração de oxigênio. / [en] The environmental concern is a theme that has been gaining its place in several research, so it is necessary that the dependence on using fossil fuels must not increase, to control the impacts, like the pollution and the greenhouse effect, with are generate by them. Furthermore, the use of alternatives sources like feedstock to generation of energy has a big importance in this replacement. This work wants to evaluate the coconut oil s potential to produce a bio oil by heterogeneous catalysis using three metals catalysts (nickel, molybdenum and both of them) supported in a mesoporous silica. The catalysts and the support were manually synthesized, calcined and characterized. For the reaction, we used 370 Celsius degrees, a pressure in the range 10-15 bar and the time reaction was 2 hours. After the production of bio oil, it was filtrated and distillated, to work in the diesel range. Besides that, this oil was analyzed to determine two characteristics, flash point and specific mass, and with the result, we could evaluate the potential of coconut oil in the replacement of traditional fuels. The support s synthesis and the catalysts impregnation was considered satisfactory, because the results were presented according to the literature, showing that they are really mesoporous materials and besides that the presence of metals was proven. After characterization analyzes the bio oil produced by the nickel catalyst was considered the best, because your properties were within expected range (flash point equal 41 Celsius degrees and specific mass equal 0,8408 g/cm3 ), for a petroleum derived fuel, and had an efficiency of 45,05 percent in reducing oxygen concentration.

[pt] OLEO DE COCO

[en] COCONUT OIL

[pt] CATALISE HETEROGENEA

[en] HETEROGENEOUS CATALYSIS

[pt] SUPORTE MESOPOROSO

[en] MESOPOROUS SUPPORT

[pt] CATALISADORES METALICOS

[en] METALS CATALYSTS

[pt] BIO OLEO

[en] BIO OIL

Characterization of lamellar or nanostrutured materials based on transition metal oxides for liquid phase catalysis / Caractérisation des matériaux lamellaires ou nanostructurés à base d’oxydes de métaux de transition pour la catalyse en phase liquide

Fayad, Ghinwa

05 December 2018

Les oxydes de métaux de transition lamellaires peuvent servir de catalyseurs pour la conversion de la biomasse, mais leur développement nécessite une meilleure compréhension de leurs propriétés. En conséquence, plusieurs matériaux lamellaires, tels que HNbMoO6, HNbWO6, H2W2O7 et H2WO4, ainsi qu'un nouveau type d'oxydes en couches basés sur Nb et W et caractérisés par des phases d'Aurivillius “en escalier” ont été largement caractérisés notamment par spectroscopie DRX et spectroscopie Raman. La possibilité de convertir les solides précurseurs au lithium ou bismuth en phases protonées a été étudiée. Ces oxydes ont la spécificité d'intercaler des molécules entre les couches, ce qui peut contribuer à l’activité catalytique en phase liquide. Pour identifier les rôles respectifs de l’intercalation et des propriétés de surface comme l’acidité, les matériaux ont été caractérisés en phase liquide par spectroscopie Raman en utilisant des bases organiques telles que les n-alkylamines (butylamine et octylamine) et la pyridine. L'intercalation avec des réactifs possibles, les n-alcools et le 2,5-hexanediol, a également été étudiée. L'activité catalytique de ces oxydes lamellaires a été déterminée grâce à une nouvelle réaction: la cyclo-déshdrataion du 2,5-hexanediol en 2,5-diméthyltétrahydrofurane. HNbMoO6 s’est avéré le catalyseur le plus actif, comparé à des catalyseurs acides conventionnels ou aux autres matériaux lamellaires. L’acidité et la capacité d’intercalation de ces divers matériaux lamellaires ont été comparées pour comprendre les différences observées pour l’activité catalytique. / Layered transition metal oxides have a potential as catalysts for biomass conversions, but their development necessitates a better understanding of their properties. Consequently, several layered materials such as HNbMoO6, HNbWO6, H2W2O7 and H2WO4 as well as new types of layered oxides based on Nb and W and characterized by a “stair-like” Aurivillius phases were extensively characterized notably by XRD and Raman spectroscopy. The possibility to convert the as-synthesised lithium or bismuth precursors to protonated phases was also thoroughly evaluated. Layered oxides have the specificity to intercalate molecules within their interlayer regions, which may be a key feature to catalytic activity for reactions in the liquid phase. In order to evaluate the respective roles of intercalation and surface properties such as acidity, the materials were characterized in the liquid phase by Raman spectroscopy using organic bases such as n-alkylamines (butylamine and octylamine) and pyridine. Intercalation with possible reagents, n-alcohols and 2,5-hexanediol, was also studied. The catalytic activity of these layered oxides was evaluated using a novel test reaction: the cyclo-dehydration of 2,5-hexanediol into 2,5-dimethyltetrahydrofuran. HNbMoO6 proved to be the most active catalyst, compared to conventional acidic catalysts or other layered materials. The acidity and intercalation ability of the various layered materials were compared to understand the differences observed for the catalytic activity.

HNbMoO6

Déshydratation du 2,5-hexanediol.

Layered materials

Niobium oxide

Tungsten oxide

HNbMoO6

Liquid phase

Intercalation

Acidity

Raman spectrocopy

Heterogeneous catalysis

2,5-hexanediol dehydration

Thermodynamique de surface et réactivité du nanoalliage CU-AU par microscopie électronique en transmission environnementale en condition gazeuse / Surface thermodynamics and reactivity of Cu-Au nanoalloy by environmental transmission electron microscopy under gaseous condition

Chmielewski, Adrian

11 December 2018

Le nanoalliage cuivre-or (CuAu) pour la catalyse hétérogène fait l'objet d'un intérêt grandissant de la communauté scientifique. En effet, l'alliage de l'or, réputé être un élément stabilisateur, avec le cuivre, réputé très actif notamment vis-à-vis de l'oxygène, offre de très grandes possibilités, tant dans les réactions d'oxydation tel que l'oxydation du monoxyde de carbone, mais aussi dans les réactions d'hydrogénation, telle que l'hydrogénation sélective du butadiène. L'un des processus déterminant dans les réactions d'oxydation et d'hydrogénation est le processus d'adsorption et de dissociation des molécules d'O2 et de H2 par le catalyseur. Afin d'avoir une meilleure compréhension des processus mis en jeu, il est nécessaire d'identifier les sites actifs où a lieu l'adsorption et la dissociation éventuelle des molécules, mais aussi des mécanismes mis en jeu lors de ces processus. Mais aujourd'hui, il n'existe pas de consensus général, dans la communauté scientifique, concernant la localisation des sites actifs. C’est dans ce contexte que s’inscrit ce travail de thèse, mené au laboratoire Matériaux et Phénomènes Quantiques (MPQ) au sein de l'équipe Microscope électronique Avancée et NanoStructures (Me-ANS) dirigé par le professeur Christian Ricolleau. Les deux problématiques majeures auxquelles nous nous sommes intéressées sont (i) la stabilité structurale et morphologique des nanoparticules de Cu, Au et de Cu-Au dans le vide et en température et ce sur différents supports tels que le nitrure de silicium amorphe et le rutile-TiO2, (ii) la stabilité structurale et morphologique des nanoparticules de Cu, Au et de Cu-Au supportées sur rutile-TiO2, sous atmosphère de gaz oxydant (O2) et réducteur (H2). Les objectifs étant d'identifier les sites d'adsorption éventuels des molécules d'O2 et de H2 par les catalyseurs, et de mieux comprendre les mécanismes qui conduisent à l'évolution morphologique de ceux-ci en milieu réactif. / : Copper-gold nanoalloy (CuAu) for heterogeneous catalysis is of increasing interest in the scientific community. Indeed, the alloy of gold, known to be a stabilizing element, with copper, known to be very active with respect to oxygen particularly, shows interesting catalytic properties, in oxidation reactions such as oxidation of carbon monoxide, but also in hydrogenation reactions, such as the selective hydrogenation of butadiene. One of the rate determining step in oxidation and hydrogenation reactions is the process of adsorption and dissociation of O2 and H2 molecules by the catalyst. In order to have a better understanding of the processes involved, it is necessary to identify, the active sites where the eventual adsorption and dissociation of the molecules takes place, but also the mechanisms involved during these processes. However today, there is no general consensus in the scientific community towards the location of the active sites. It is in this context that this thesis work, conducted in the laboratory Materials and Quantum Phenomena (MPQ) within the team Advanced Electron Microscope and NanoStructures (Me-ANS) led by Professor Christian Ricolleau. The two major issues we have been interested in are (i) the structural and morphological stability, in vacuum and with temperature, of Cu, Au and Cu-Au nanoparticles deposited on different substrates such as amorphous silicon nitride and rutile -TiO2 nanorods, (ii) the structural and morphological stability of Cu, Au and Cu-Au nanoparticles supported on rutile-TiO2 under oxidizing (O2) and reducing (H2) atmospheres. The main goals being to identify the possible adsorption sites of the O2 and H2 molecules by the catalysts, and to better understand the mechanisms that lead to the morphological evolution of these NPs in a reactive medium.

Nanoparticules

Nanoalliage

Cu-Au

Catalyse hétérogène

ETEM

Nanoparticle,

Nanoalloy

Cu-Au

Heterogeneous catalysis

ETEM

Modelování, analýza a počítačové simulace heterogenní katalýzy v mikroreaktorech / Modeling, Analysis and Computation of heterogeneous catalysis in microchannels

Orava, Vít

January 2013

We investigate a nonlinear reaction-diffusion system coupled with convection- diffusion system. This combined system corresponds to physical description of heteroge- neous catalysis when the flow of bulk-constituents is driven by a given stationary velocity field; diverse mechanisms between bulk- and surface-parts of the model-domain are de- scribed by Langmuir-Hinshelwood absorption kinetics; and the irreversible reactions on the catalytic walls meets the law of mass action with quadratic rate. The first part of the thesis is focused on analytical results; in Chapter 2 we prove existence and unique- ness of a mild solution for so-called near-by problem using nonlinear semigroup theory; in Chapter 3 we investigate the weak formulation of the problem. We prove an existence of a weak solution for little modified problem which, under an assumption, coincides with the original problem. In the second part of the thesis (Chapter 4) we numerically investigate the evolution of the bio-diesel microreactor. We compute numerical solutions using several methods and we test the results by analytical and physical conditions; with the aim to find the most efficient way to compute precise and physically correct solution. Keywords: heterogeneous catalysis, coupled reaction-diffusion/convection-diffusion system, nonlinear...

Role povrchových defektů v katalýze na oxidech ceru / Role of surface defects in ceria-based catalysis

Tovt, Andrii

January 2018

Title: Role of surface defects in ceria-based catalysis Author: Andrii Tovt Department: Department of Surface and Plasma Science Supervisor of the doctoral thesis: doc. Mgr. Josef Mysliveček Ph.D., Department of Surface and Plasma Science Abstract: This work concentrates on the analysis of fundamental physicochemical properties of Pt-CeOx, single-atom Pt1 /CeOx, and inverse CeOx/Cu(111) catalysts. Preparation method for stabilized atomically-dispersed Pt2+ ions on ceria was developed and adsorption sites for Pt ions were thoroughly studied using advanced surface science techniques supported by theoretical methods. The mechanism of Pt2+ stabilization on ceria steps was revealed and the step capacity towards Pt2+ ions was estimated. Also, the preparation method for well-ordered cerium oxide ultrathin films with different stoichiometry and ordering of surface oxygen vacancies was developed, and the Ceria/Cu(111) interaction was investigated. Key words: heterogeneous catalysis, model systems, single-atom catalysis, platinum ions, cerium oxide.

Modelování heterogenních katalytických reakcí v reaktorech / Modelling of heterogeneous catalytic reactions in chemical reactors

Orava, Vít

January 2018

This thesis consists of two parts discussing modelling of heterogeneous catalytic reactors. In the first one, an industrial prototype of a fluidized bed reactor serving as a hydrogen generator based on endothermic decomposition of formic acid is studied. After initial determination of the main reactor characteristics a system of nine con- stituents is derived and, consequently, reduced to a three phase flow. The solid and bubble particles immersed in a liquid are modelled by the Basset-Boussinesq- Ossen equation. Furthermore, an averaging technique is used to derive a three phase Euler-Euler model. Finally, numerical computations with a verification towards the measurements and a CFD analysis are proceeded. The second part discusses interfacial transport phenomena between a bulk and catalytic surfaces of a reactor mediated via the boundary conditions. The constitu- tive relations, that by construction comply with the second law of thermodynamics, follow from the specification of suitable thermodynamic potentials together with an identification of the bulk and surface entropy productions. The derived model is suitable for further analysis providing clear guidelines for the incorporation of the Langmuir-type adsorption model as well as other sorption models. Keywords: Heterogeneous catalysis, multi-phase...

Geträgerte Nickelkatalysatoren auf Basis von (Ni,Mg,Al)-haltigen Hydrotalciten für die Methanisierung von CO2

Bette, Nadine

08 January 2020

Im Zuge der Stromerzeugung aus regenerativen Quellen gewinnen chemische Energiespeicher, z. B. synthetisches Erdgas (CH4), immer mehr an Bedeutung. Gegenstand der vorliegenden Arbeit ist die Methanisierung von CO2 an geträgerten Nickelkatalysatoren. Als Vorläuferverbindungen wurden (Ni,Mg,Al)-haltige Hydrotalcite eingesetzt, die sich bei 600 °C an Luft zu schlecht kristallinen, homogenen Mischoxiden zersetzen. Diese können mit einer Periclas-artigen Grundstruktur beschrieben werden, deren Metallpositionen statistisch mit Ni2+-, Mg2+- und Al3+-Ionen besetzt sind. Das entwickelte Mikrostrukturmodell liefert viele Deutungsansätze für das Verhalten der Mischoxide unter reduktiven Bedingungen sowie für die Eigenschaften der resultierenden Ni/(Mg,Al)Ox-Katalysatoren. Erstaunlich sind die nahezu identischen Oberflächeneigenschaften und katalytischen Aktivitäten der Katalysatoren mit Nickelgehalten zwischen 5 mol% und 20 mol%. Alle untersuchten Katalysatoren zeigen eine hervorragende Stabilität gegenüber Sinterung und Verkokung und sind langzeitstabil.

info:eu-repo/classification/ddc/540

ddc:540

Methanisierung

Kohlendioxid

Heterogene Katalyse

Nickel

Hydrotalcit

In Situ Ptychography of Heterogeneous Catalysts using Hard X-Rays: High Resolution Imaging at Ambient Pressure and Elevated Temperature

Baier, Sina, Damsgaard, Christian D., Scholz, Maria, Benzi, Federico, Rochet, Amélie, Hoppe, Robert, Scherer, Torsten, Shi, Junjie, Wittstock, Arne, Weinhausen, Britta, Wagner, Jakob B., Schroer, Christian G., Grunwaldt, Jan-Dierk

03 June 2020

A new closed cell is presented for in situ X-ray ptychography which allows studies under gas flow and at elevated temperature. In order to gain complementary information by transmission and scanning electron microscopy, the cell makes use of a Protochips E-chipTM which contains a small, thin electron transparent window and allows heating. Two gold-based systems, 50 nm gold particles and nanoporous gold as a relevant catalyst sample, were used for studying the feasibility of the cell. Measurements showing a resolution around 40 nm have been achieved under a flow of synthetic air and during heating up to temperatures of 933 K. An elevated temperature exhibited little influence on image quality and resolution. With this study, the potential of in situ hard X-ray ptychography for investigating annealing processes of real catalyst samples is demonstrated. Furthermore, the possibility to use the same sample holder for ex situ electron microscopy before and after the in situ study underlines the unique possibilities available with this combination of electron microscopy and X-ray microscopy on the same sample.

info:eu-repo/classification/ddc/570

ddc:570