Synthèse et caractérisation de nouveaux phosphates utilisés comme matériaux d’électrode positive pour batteries au lithium / Synthesis and characterization of new phosphates used as positive electrode materials for lithium batteries

Marx, Nicolas

17 December 2010

Ce travail porte sur la synthèse et la caractérisation de nouveaux matériaux d’électrodes positives pour batteries au lithium. Nos recherches se sont principalement orientées vers les matériaux de type phosphates de métaux de transition, et notamment vers la famille des tavorites de composition (Li,H)FePO4(OH), qui présente une structure tridimensionnelle comportant plusieurs types de tunnels propices à l’insertion d’ions lithium. La structure du matériau LiFePO4(OH) a ainsi été parfaitement résolue, de même que celle du matériau FePO4.H2O, qui est un nouveau phosphate de fer (III) découvert au cours de ces travaux. Ces deux matériaux, ainsi que ceux obtenus par traitement thermique de la phase FePO4.H2O, ont été caractérisés à l’aide de différentes techniques d’analyse physico-chimiques. Leur comportement électrochimique vis-à-vis de l’intercalation / désintercalation du lithium a été étudié, ainsi que les mécanismes redox et structuraux associés mis en jeu. / This work deals with the synthesis and characterization of new positive electrode materials for lithium batteries. Our researches were mainly focused on phosphates of transition metals, and especially on the tavorite-type materials of composition (H,Li)FePO4(OH). Their structure is characterized by a three-dimensional network with different types of tunnels, which can host inserted lithium ions. In this context, LiFePO4(OH) structure was perfectly solved, as well as that of FePO4.H2O, which is a new iron (III) phosphate discovered during this work. These two materials, together with those obtained by heat-treatment of FePO4.H2O, were characterized using different analytical techniques. Their electrochemical behavior toward intercalation / deintercalation of lithium was also studied, as well as the structural and redox processes involved.

Batteries au lithium

Diffraction des rayons X et des neutrons

Spectroscopie infrarouge / Raman

Tavorite

Calculs ab-initio

Electrochimie

Phosphates

Spectroscopie Mössbauer

Lithium batteries

X-ray and neutron diffraction

Infrared / Raman spectroscopy

Tavorite

Ab-initio calculation

Electrochemistry

Phosphates

Mössbauer spectroscopy

Energética e mecanismos de processos iônicos em fase gasosa / Energetics and mechanisms of gas-phase ionic processes

Tatiana Giroldo

02 July 2007

O estudo da reatividade de íons em fase gasosa é bem diversificado e têm sido extensivamente explorado com técnicas de espectrometria de massas. Essa tese apresenta resultados experimentais e teóricos em três áreas distintas da química de íons em fase gasosa. Os processos iônicos foram experimentalmente estudados em um espectrômetro de massa por transformada de Fourier (FTMS ou FT-ICR), método de alta resolução que possibilita um acompanhamento temporal de reações de íons em -fase gasosa. Em vários momentos são apresentados resultados de cálculos teóricos, necessários para a elucidação do mecanismo das reações observadas e das estruturas de espécies envolvidas. Um dos assuntos estudados se refere à obtenção de dados termoquímicos a partir da dissociação de íons induzida por radiação infravermelha. O método desenvolvido anteriormente no laboratório, que utiliza como fonte de radiação um filamento aquecido, foi comparado com a dissociação induzida por laser de CO2.Os resultados indicam que o primeiro método é capaz de diferenciar íons através das suas energias de dissociação enquanto que o segundo mostrou ser pouco sensível às variações de energias de dissociação para os íons estudados (derivados de acetofenona e alguns alquilbenzenos). Um outro tema abordado é a reação de substituição nucleofílica aromática em fase gasosa. As reações de nucleófilos como F-, OH- e alguns alcóxidos com nitrobenzeno e halobenzenos foram detalhadas. O mecanismo da reação e a atuação de complexos íon-molécula foram caracterizados. Foi possível estabelecer que reações de substituição nucleofílica aromática podem ser muito rápidas em fase gasosa mesmo na ausência de grupos ativadores no anel aromático. Reações SNAr podem ocorrer em fase gasosa em competição com abstração de próton, ou como reação secundária do produto desprotonado através da formação de um complexo íon-molécula de tempo de vida suficiente para sofrer rearranjos. O último assunto apresentado é a reação de íons de caráter eletrofílico, CF3+,CCl3+ e CClF2<SUP+, com acetofenona e derivados. Vários caminhos de reação foram observados experimentalmente, o que proporcionou um amplo estudo para a elucidação das estruturas e dos mecanismos das reações. Os resultados obtidos com substratos deuterados e os resultados de cálculos teóricos indicam que os diferentes produtos de reação observados são devidos a um ataque inicial do eletrófilo no oxigênio carbonílico da acetofenona. / The study of ionic reactivity in the gas-phase has been widely explored with mass spectrometry techniques. This thesis reports experimental and theoretical results in three different areas of gas-phase ion chemistry. The ionic processes were experimentally studied by Fourier transform mass spectrometry (FTMS or FT-ICR), a high resolution method that allows for the observation of ion/molecule reactions. For almost all cases, extensive theoretical calculations were necessary to clarify the mechanisms of the observed reactions and to establish the structures of the ions. The first part of the thesis deals with the possibility of deriving termochemical data from ion dissociation processes induced by infrared radiation. The method previously developed in our laboratory, which uses a heated tungsten wire as the infrared source, was compared with the dissociation induced by a CO2 laser. The results show that the former method can readily differentiate ions by their dissociation energy while the second one proved to be insensitive for the ions studied in this thesis (acetophenones derivatives and some alkylbenzenes). The second part deals with gas-phase nucleophilic aromatic displacement reactions. Reactions of gas-phase nucleophiles such as F-, OH- and some alcoxides with nitrobenzene and halobenzenes were extensively studied. The reaction mechanism and the role of ion-molecule complexes were established. Nucleophilic aromatic displacement can be very fast in the gas-phase even in the absence of activating groups in the ring. Gas-phase Sn Ar reactions may occur in competition with proton abstraction, or may N result from a secundary reaction following proton abstraction through a ion-molecule complex with life time enough to suffer rearrangements. The last part of the thesis deals with the reaction of eletrophilc ions, such as CFSUB>3+ , CCl3+ e CClF2+ , with acetophenone and substituted 3 3 2 acetophenones. Several reaction paths were experimentally observed, wich motivated a thorough investigation of these reactions to establish the structures of the ions and the mechanisms of the reactions. The combination of experimental results obtained with deuterated substrates and theoretical calculations suggest that all the different products observed result from initial attack of the eletrophilic ion on the carbonyl oxygen atom of acetophenone.

Cálculos ab initio

Dissociação de íons

Estrutura de íons

Reações íon / molécula

Reações eletrofílicas

Substituição nucleofílica aromática

Ab initio calculation

Eletrophilic reactions

Gas-phase ions

Ions dissociation

Mass spectrometry

Nuclephilic displacement

Optical properties of quaternary kesterite-type Cu2Zn(Sn1−xGex)S4 crystalline alloys: Raman scattering, photoluminescence and first-principle calculations

Valakh, M. Ya., Litvinchuk, A. P., Dzhagan, V. M., Yukhymchuk, V. O., Havryliuk, Ye. O., Guc, M., Bodnar, I. V., Izquierdo-Roca, V., Pérez-Rodríguez, A., Zahn, D. R. T.

03 March 2017

The transformation of the vibrational spectrum of Cu2Zn(Sn1−xGex)S4 single crystals over the entire composition range (0 ≤ x ≤ 1) is studied experimentally by low-temperature Raman scattering and photoluminescence spectroscopies, as well as theoretically in the framework of density functional theory (DFT). It is shown that unlike “classic” mixed binary II–VI and III–V compounds, which are characterized by either one- or two-mode behavior of spectra transformation upon composition variation, the vibrational modes of the quaternary semiconductor Cu2Zn(Sn1−xGex)S4 exhibit both types of behavior within the same alloy system. DFT calculations reveal that the two-mode transformation is in fact observed for the vibrational modes, which possess a very small dispersion across the Brillouin zone, that is typical for a molecular crystal. These modes are due to the “breathing” motion of sulfur within GeS4 and SnS4 tetrahedra. The effects of structural (positional) disorder of mixed crystals are analyzed based on Raman scattering as well as photoluminescence results. / Dieser Beitrag ist aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/530

ddc:530

Etude ab initio du transport quantique dépendant du spin / Ab initio investigations of spin-dependent quantum transport

Zhou, Jiaqi

06 December 2019

Les dispositifs spintroniques exploitent le degré de liberté du spin électronique pour traiter l'information. Dans cette thèse, nous étudions les propriétés de transport quantique dépendant du spin pour optimiser les performances des composants associés. Par l’approche ab initio, nous calculons la magnétorésistance à effet tunnel (tunneling magnetoresistance, TMR), l’effet Hall de spin (spin Hall effect, SHE) et l’efficacité de l’injection de spin (spin injection efficiency, SIE). Nous montrons ainsi que les métaux lourds (heavy metals, HM) influencent la TMR dans des jonctions tunnel magnétiques (magnetic tunnel junctions, MTJs) à base de MgO. L’utilisation de W, Mo, ou Ir peut améliorer la TMR. De plus, le dopage par substitution aide à optimiser le SHE dans les HMs, ce qui renforce les angles de Hall de spin (SHA) pour rendre plus efficace le renversement d’aimantation par couple spin-orbite (spin-orbit torque, SOT) dans les MTJ. Afin de contourner les problèmes induits par le désaccord de maille entre couches ferromagnétiques et MgO, nous avons conçu une MTJ basée sur l'hétérojonction VSe₂/MoS₂ de van der Waals (vdW) et calculons la TMR à température ambiante. L’apparition d’effets de résonance tunnel permet d’utiliser la tension appliquée pour moduler la TMR dans cette structure. Nous proposons également d’y favoriser le SOT en utilisant des matériaux 2D avec un fort SHE. MoTe₂ et WTe₂ apparaissent comme de bons candidats. Ces dichalcogénures de métaux de transition (transition metal dichalcogenides, TMDC) présentent un fort SHE ainsi que de grands SHA grâce à leur faible conductivité électrique. Enfin, motivés par la demande d'un dispositif commutable bidimensionnel à grande longueur de diffusion spin, nous étudions un système d'injection de spin dans le silicène et obtenons des SIE élevés sous tension appliquée. L’ensemble de ces travaux apportent un éclairage pour la recherche de nouveaux dispositifs spintroniques. / Spintronics devices manipulate the electron spin degree of freedom to process information. In this thesis, we investigate spin-dependent quantum transport properties to optimize the performances of spintronics devices. Through ab initio approach, we research the tunneling magnetoresistance (TMR), spin Hall effect (SHE), as well as spin injection efficiency (SIE). It has been demonstrated that heavy metals (HMs) are able to modulate TMR effects in MgO-based magnetic tunnel junctions (MTJs), and tungsten, molybdenum, and iridium are promising to enhance TMR. Moreover, substitutional atom doping can effectively optimize SHE of HMs, which would strengthen spin Hall angles (SHAs) to achieve efficient spin-orbit torque (SOT) switching of MTJs. To eliminate the mismatch between ferromagnetic and barrier layers in MgO-based MTJs, we design the MTJ with bond-free van der Waals (vdW) heterojunction VSe₂/MoS₂ and report the room-temperature TMR. The occurrence of quantum-well resonances enables voltage control to be an effective method to modulate TMR ratios in vdW MTJ. We put forward the idea of SOT vdW MTJ, which employs SOT to switch vdW MTJ and requires vdW materials with strong SHE. Research on MoTe₂ and WTe₂ verifies the possibility of realizing this idea. Both of them are layered transition metal dichalcogenides (TMDC) and exhibit strong SHEs, as well as large SHAs thanks to their low electrical conductivity. Lastly, motivated by the demand of a two-dimensional (2D) switchable device with long spin diffusion length, we construct the spin injection system with silicene monolayer, and reveal high SIEs under electric fields. Works in this thesis would advance the research of spintronics devices.

Magnétorésistance à effet tunnel

Effet de Hall de spin

Efficacité d’injection de spin

Jonction tunnel magnétique

Système bidimensionnel

Calcul ab initio

Tunneling magnetoresistance

Spin Hall effect

Spin injection efficiency

Magnetic tunnel junction

Two-Dimensional system

Ab initio calculation

Synthèse et structure électronique de phases MAX et MXènes / Synthesis and electronic structure of MAX and MXene phases

Magné, Damien

06 October 2016

Les objectifs de ce travail sont d'une part d'étudier la structure électronique de carbures de titane bidimensionnels appartenant à la famille des MXènes, et d'autre part de synthétiser des films minces pour caractériser certaines de leurs propriétés. L'étude de la structure électronique a été réalisée sur le système Ti3C2T2 avec une attention particulière portée aux groupements de surface T (T=OH, F ou O) en comparant les résultats obtenus par spectroscopie de perte d'énergie des électrons à ceux des calculs ab initio. Cette étude, portée à la fois sur les excitations du gaz d'électrons de valence et des électrons de coeur, a permis de mettre en évidence la localisation des groupements de surface, ainsi que leur influence sur la structure électronique du MXene. La comparaison des simulations et des spectres expérimentaux a également permis de caractériser la nature chimique des groupements de surface. Enfin, la limite d'une telle étude est discutée en considérant les phénomènes d'irradiation responsables de la perte d'atomes d'hydrogène. La synthèse d'échantillons modèles nécessite la synthèse préalable d'un film mince de phase MAX précurseur pour le MXene : nous avons choisi la phase Ti2AlC, précurseur de Ti2C. La synthèse de Ti2AlC a été réalisée par recuit ex-situ de systèmes multicouches déposés à température ambiante. Les films ont été caractérisés par diffraction des rayons X et microscopie électronique en transmission. Au-delà de l'obtention d'un film mince de Ti2AlC texturé, cette étude a permis de montrer que la phase recherchée était obtenue via des mécanismes d'interdiffusions induisant la formation d'une solution solide métastable vers 400°C qui se transforme en phase MAX vers 600°C. Enfin, l'application de ce procédé à la phase V2AlC a permis de montrer l'importance de l'orientation de la phase initiale pour l'obtention d'un film mince texturé. / The aim of this work is at first to study the electronic structure of bidimensional titanium carbide systems, belonging to the MXene family and also to synthesize thin films of such new materials to characterize their properties. The study of the electronic structure has been performed for the Ti3C2T2 MXene with a special attention to the T surface groups by using a combination of electron energy loss spectroscopy and ab initio calculations. This study, focused on both valence and core electrons excitations, enabled the identification of the surface group localization, their influence on the MXene electronic structure as well as their chemical nature. The limits of our TEM-based study is also discussed in view of irradiation phenomena which induce the loss of hydrogen atoms. The synthesis of a MXene thin film requires, beforehand, that of a MAX phase thin film: we opted for Ti2AlC, the precursor for the Ti2C MXene. The MAX phase thin film synthesis was carried out by ex-situ annealing of a multilayer layers. X-ray diffraction experiments and cross-sectional transmission electron microscopy observations show that a highly textured Ti2AlC thin film is obtained above 600°C after the formation, at 400°C, of a metastable solid solution. Finally, by using the same process for V2AlC, we demonstrate that the initial phase orientation plays a key role for the texture of the thin film so obtained.

MXene

Matériaux 2D

Calculs ab initio

Structure électronique

Plasmon

Fonction diélectrique

Diffraction des rayons X

Phase MAX

Matériau céramique

Film mince

Pulvérisation magnétron

MXene

2D materials

Electron energy loss spectroscopy

Ab initio calculation

Electronic structure

Plasmon

Dielectric function

Density functional theory

Transmission electron microscopy

X-Ray diffraction

MAX phase

Ceramic material

Thin film

Magnetron sputtering

620.14