Preparation and properties of ultrafine magnetic particles

Wells, S.

January 1989

No description available.

530.41

Magnetic particles of Fe/Co

ENHANCING GAS PHASE FISCHER-TROPSCH SYNTHESIS CATALYST DESIGN

Dasgupta, Debalina

01 January 2008

This dissertation research resulted in the development of a Fe based catalyst with Co as a co catalyst, and Ru and ZnO as promoters. The role of Cu and K as promoters and the effect of SiO2 as an alternate support to gamma- Al2O3 were also investigated. A series of Fe-based catalysts for Fischer-Tropsch (F-T) synthesis were prepared. The different promoters were incorporated into the catalyst by impregnation The catalysts were characterized by several methods. The catalytic performance of these materials for F-T synthesis were investigated in a newly designed fixed bed reactor system in the gas phase. It should be noted that the three phase slurry bubble reactors systems are commercially preferred. The reaction conditions were varied for benchmarking the Fe-Zn-K/ gamma- Al2O3 catalyst and for the bimetallic Fe-Co-Zn/ gamma- Al2O3 catalyst and to identify optimal process parameters for further catalyst designs. The H2:CO ratio used in this study was 2. The newly designed catalysts showed significantly high activity towards CO conversion (>70 %), along with low selectivity towards CO2 (5 -15 %) and methane (ND - 3 %). The data show that varying the process conditions, it is possible to achieve narrow distribution of the liquid products. The results employing Fe-Zn-K catalysts showed that an increase in pressure increased the mean carbon chain length. In contrast, an increase in temperature resulted in a decline in the average carbon chain length. Increasing the feed flow rate, or in other words decreasing the residence time of the reactants and the intermediates, resulted in a decrease in the average carbon number in the product hydrocarbons. The evaluation of the effect of process conditions on the performance of Fe-Co-Zn catalysts revealed that the effect of pressure on the carbon chain length was reversed. Increasing the pressure from 250 to 350 psig decreased the carbon chain length. The increase in temperature, however, resulted in a decrease in the carbon chain length as observed in the Fe-Zn-K catalysts. Fe catalysts groups containing different proportions of Co were prepared. It was determined that an Fe:Co ratio of 4:1 is sufficient to obtain high CO conversions with a high selectivity towards liquid hydrocarbons. The hydrocarbon distribution on the other hand remained almost unchanged due to a change in the Co content. The use of silica, as opposed to alumina as the catalyst support, enhanced the CO conversion and the selectivity of the process towards liquid hydrocarbons. The methane and CO2 selectivities on both the supports remained unchanged. However, a significant difference in the liquid hydrocarbon distribution was observed. Addition of K to the catalyst resulted in a change in the liquid hydrocarbon distribution in that a slight increase in the heavier hydrocarbons was observed. A series of Fe4Co1Zn0.04 based catalysts for Fischer-Tropsch (F-T) synthesis, in which the different amounts of Ru are incorporated by the impregnation were also studied. The results showed the incorporation of Ru suppressed the CH4 formation at the cost of increasing the CO2 selectivity.

bimetallic

catalyst

Fe-Co

Fischer Tropsch

Ru

Synthesis and Characterization of Magnetic Nanoparticles with High Magnetization and Good Oxidation Resistibility

Yu, Shi, Chow, Gan-Moog

01 1900

Magnetic nanoparticles attract increasing attention because of their current and potential biomedical applications, such as, magnetically targeted and controlled drug delivery, magnetic hyperthermia and magnetic extraction. Increased magnetization can lead to improved performance in targeting and retention in drug delivery and a higher efficiency in biomaterials extraction. We reported an approach to synthesize iron contained magnetic nanoparticles with high magnetization and good oxidation resistibility by pyrolysis of iron pentacarbonyl (Fe(CO)[subscript 5]) in methane (CH[subscript 4]). Using the high reactivity of Fe nanoparticles, decomposition of CH[subscript 4] on the Fe nanoparticles leads to the formation of nanocrystalline iron carbides at a temperature below 260°C. Structural investigation indicated that the as-synthesized nanoparticles contained crystalline bcc Fe, iron carbides and spinel iron oxide. The Mössbauer and DSC results testified that the as-synthesized nanoparticle contained three crystalline iron carbide phases, which converted to Fe[subscript 3]C after a heat treatment. Surface analysis suggested that the as-synthesized and subsequently heated iron-iron carbide particles were coated by iron oxide, which originated from oxidization of surface Fe atoms. The heat-treated nanoparticles exhibited a magnetization of 160 emu/g, which is two times of that of currently used spinel iron oxide nanoparticles. After heating in an acidic solution with a pH value of 5 at 60°C for 20 h, the nanoparticles retained 90 percentage of the magnetization. / Singapore-MIT Alliance (SMA)

magnetic nanoparticles

pyrolysis

FE(CO)5

CH4

iron nanoparticles

FE3C

Gedehnte epitaktische Fe-Co-X-Schichten (X = B, C, N) mit erhöhter magnetischer Anisotropie / Strained epitaxial Fe-Co-X films (X = B, C, N) with enhanced magnetic anisotropy

Reichel, Ludwig

16 February 2016

Theoretische Berechnungen sagen für tetragonal gedehntes Fe-Co eine hohe magnetokristalline Anisotropie voraus, wie sie für seltenerdfreie Dauermagnetwerkstoffe vorteilhaft wäre. In dieser experimentellen Arbeit werden epitaktische Fe-Co-Schichten strukturell und magnetisch charakterisiert. Zur Untersuchung der Dehnung in diesen Schichten eignen sich AuxCu100-x-Pufferschichten besonders, da über die Stöchiometrie (x) deren lateraler Gitterparameter eingestellt werden kann. Wird Fe-Co auf einer solchen Pufferschicht abgeschieden, erfolgt aufgrund dessen hoher elastischer Energie schon in den ersten Monolagen eine vollständige Relaxation der pufferinduzierten Dehnung. In ternären Fe-Co-X-Schichten, in denen kleine X-Atome (X = B, C oder N) Oktaederlücken besetzen, wird jedoch eine spontane tetragonale Dehnung c/a bis zu 1,05 beobachtet. Entlang der gedehnten c-Achse tritt eine uniaxiale magnetokristalline Anisotropie auf, die für B- oder C-Zulegierungen von 2 at% eine maximale Anisotropiekonstante von 0,4 MJ/m³ zeigt. Wird der X-Gehalt weiter erhöht, nehmen die Kristallinität der Schichten und die magnetische Anisotropie ab. Neben der magnetokristallinen Anisotropie des Schichtvolumens wird an den Fe-Co(-X)-Schichten eine hohe Grenzflächenanisotropie beobachtet. Der Beitrag der freien Oberfläche übersteigt den der Au-Cu-Grenzfläche dabei deutlich. / Theoretical calculations predict a high magnetocrystalline anisotropy for tetragonally strained Fe-Co, which would be beneficial for rare-earth free permanent magnet materials. In this experimental work, epitaxial Fe-Co films are investigated structurally and magnetically. AuxCu100-x buffer layers are very suitable to study the strain in these films since their in-plane lattice parameter can be tailored via the applied stoichiometry (x). However, when Fe-Co is deposited on such a buffer layer, the induced strain of the Fe-Co lattice relaxes completely within the first monolayers, due to its high elastic energy. In ternary Fe-Co-X films, where small atoms X like B, C or N occupy octahedral interstitial sites, a spontaneous strain c/a up to 1.05 is observed. A uniaxial magnetocrystalline anisotropy along the strained c axis appears. Their maximum anisotropy constant is 0.4 MJ/m³ for B or C contents of 2 at%. If the X content is further increased, the crystallinity and thus, the magnetic anisotropy of the films degrade. Together with the magnetocrystalline anisotropy of the films’ volumes, a high interface anisotropy is observed for the Fe-Co(-X) films. The contribution of the free surface clearly exceeds the contribution of the Au-Cu interface.

Dünne Schichten

Epitaxie

Magnetokristalline Anisotropie

Tetragonale Dehnung

Grenzflächenanisotropie

Multilagen

Fe-Co

Thin films

Magnetocrystalline anisotropy

Tetragonal strain

Interface anisotropy

Multilayers

Fe-Co

ddc:620

rvk:ZM 7050

Efeitos da adição de surfactante e moagem de alta velocidade  em pós magnéticos à base de Pr-Fe-B obtidos via HDDR / Effects of surfactant addition and high-speed ball milling on magnetic powders based on Pr-Fe-B obtained by HDDR

Santos, Patricia Brissi

27 October 2011

Esse trabalho teve como objetivo verificar o efeito da adição do ácido oléico na moagem de alta velocidade/energia na obtenção de pós magnéticos em escala nanométricas da liga Pr12Fe65,9Co16B6Nb0,1. A primeira etapa deste trabalho, envolveu a obtenção de pós magnéticos por meio do processo de hidrogenação, desproporção, dessorção e recombinação (HDDR), utilizando a pressão de H2 de 930 mbar (hidrogenação e desproporção) e temperatura de dessorção e recombinação de 840 ºC. Inicialmente, os pós HDDR foram submetidos à moagem de alta velocidade/energia a 900 rpm, com variação do volume do meio de moagem (ciclohexano) sem adição de ácido oleico. Em seguida, os pós HDDR foram submetidos à moagem com adição de ácido oleico, variando o tempo de moagem. Após a moagem, foi realizado tratamento térmico dos pós a 700 ºC ou 800 ºC durante 30 min., com a finalidade de cristalização do pó. Foi verificado que, a utilização de 6,6 ml de ciclohexano como meio de moagem e com adição de ácido oleico há uma melhora na eficiência da moagem dos pós. Para adições de surfactante, de 0,02 a 0,05 ml e tempos de moagem até 360 minutos, não ocorre a aglomeração dos pós magnéticos no pote de moagem, obtendo acima de 90% de eficiência na moagem. A segunda etapa deste trabalho envolveu a caracterização dos pós magnéticos: utilizando magnetômetro de amostra vibrante, microscopia eletrônica de Varredura, microscopia eletrônica de transmissão e difração de raios-X. Os resultados obtidos mostraram que a adição de ácido oléico na moagem de alta velocidade/energia proporciona uma melhora nas propriedades magnéticas. Com a variação do tempo de moagem a fase Fe-α presente no pó HDDR apresenta diminuição no tamanho do cristalito (de 35 para ~ 10 nm) enquanto que, na fase Pr2Fe14B verifica-se menor grau de cristalinidade. / This work verified the effect caused by adding the surfactant in the high speed/energy milling in order to obtain Pr12Fe65.9Co16B6Nb0.1 magnetic nanopowders. The first part of this work involved the magnetic powder obtainment through the process of hydrogenation, disproportionation, desorption and recombination (HDDR). The pressure of H2 during the hydrogenation and disproportion steps was 930 mbar and the temperature of desorption and recombination was 840 ºC. Initially, the HDDR powders were subjected a highspeed milling process at 900 rpm, with quantity variations of the milling medium (cyclohexane) and without the addition of oleic acid. Then, the HDDR powders were subjected to the milling process with the addition of oleic acid and with milling time variations. After the milling process, heat treatments of the powder were carried out at 700 °C or 800 °C for 30 minutes in order to obtain the crystallization of the powder. By performing the procedures, it was verified that the milling efficiency improved with the addition of 6.6 ml of cyclohexane as the milling medium and with the addition of oleic acid. It was determined that for the surfactant additions of 0.02 ml to 0.05 ml, with a milling time of up to 360 minutes, powder agglomeration does not occur in the milling pot and the milling efficiency is higher than 90%. The second stage of this work involved the magnetic powders characterization obtained by using vibrating sample magnetometer, scanning electron microscopy, transmission electron microscopy and X-ray diffraction. Through the characterizations it was found that the powders magnetic properties improved when the addition of oleic acid in a high-speed /energy milling occurred. It was also verified that the α-Fe phase, present in the powder, shows a crystallite size decrease (from 35 nm to ~ 10 nm) when the time milling variation occurred; meanwhile, the crystallinity degree was lower in the Pr2Fe14B phase when the time milling variations was carried out.

ímãs permanentes

liga Pr-Fe-Co-B

magnetic powders

permanent bonded magnets

pós magnéticos

Pr-Fe-Co-B alloy

surfactant

surfactante

Efeitos da adição de surfactante e moagem de alta velocidade  em pós magnéticos à base de Pr-Fe-B obtidos via HDDR / Effects of surfactant addition and high-speed ball milling on magnetic powders based on Pr-Fe-B obtained by HDDR

Patricia Brissi Santos

27 October 2011

Esse trabalho teve como objetivo verificar o efeito da adição do ácido oléico na moagem de alta velocidade/energia na obtenção de pós magnéticos em escala nanométricas da liga Pr12Fe65,9Co16B6Nb0,1. A primeira etapa deste trabalho, envolveu a obtenção de pós magnéticos por meio do processo de hidrogenação, desproporção, dessorção e recombinação (HDDR), utilizando a pressão de H2 de 930 mbar (hidrogenação e desproporção) e temperatura de dessorção e recombinação de 840 ºC. Inicialmente, os pós HDDR foram submetidos à moagem de alta velocidade/energia a 900 rpm, com variação do volume do meio de moagem (ciclohexano) sem adição de ácido oleico. Em seguida, os pós HDDR foram submetidos à moagem com adição de ácido oleico, variando o tempo de moagem. Após a moagem, foi realizado tratamento térmico dos pós a 700 ºC ou 800 ºC durante 30 min., com a finalidade de cristalização do pó. Foi verificado que, a utilização de 6,6 ml de ciclohexano como meio de moagem e com adição de ácido oleico há uma melhora na eficiência da moagem dos pós. Para adições de surfactante, de 0,02 a 0,05 ml e tempos de moagem até 360 minutos, não ocorre a aglomeração dos pós magnéticos no pote de moagem, obtendo acima de 90% de eficiência na moagem. A segunda etapa deste trabalho envolveu a caracterização dos pós magnéticos: utilizando magnetômetro de amostra vibrante, microscopia eletrônica de Varredura, microscopia eletrônica de transmissão e difração de raios-X. Os resultados obtidos mostraram que a adição de ácido oléico na moagem de alta velocidade/energia proporciona uma melhora nas propriedades magnéticas. Com a variação do tempo de moagem a fase Fe-α presente no pó HDDR apresenta diminuição no tamanho do cristalito (de 35 para ~ 10 nm) enquanto que, na fase Pr2Fe14B verifica-se menor grau de cristalinidade. / This work verified the effect caused by adding the surfactant in the high speed/energy milling in order to obtain Pr12Fe65.9Co16B6Nb0.1 magnetic nanopowders. The first part of this work involved the magnetic powder obtainment through the process of hydrogenation, disproportionation, desorption and recombination (HDDR). The pressure of H2 during the hydrogenation and disproportion steps was 930 mbar and the temperature of desorption and recombination was 840 ºC. Initially, the HDDR powders were subjected a highspeed milling process at 900 rpm, with quantity variations of the milling medium (cyclohexane) and without the addition of oleic acid. Then, the HDDR powders were subjected to the milling process with the addition of oleic acid and with milling time variations. After the milling process, heat treatments of the powder were carried out at 700 °C or 800 °C for 30 minutes in order to obtain the crystallization of the powder. By performing the procedures, it was verified that the milling efficiency improved with the addition of 6.6 ml of cyclohexane as the milling medium and with the addition of oleic acid. It was determined that for the surfactant additions of 0.02 ml to 0.05 ml, with a milling time of up to 360 minutes, powder agglomeration does not occur in the milling pot and the milling efficiency is higher than 90%. The second stage of this work involved the magnetic powders characterization obtained by using vibrating sample magnetometer, scanning electron microscopy, transmission electron microscopy and X-ray diffraction. Through the characterizations it was found that the powders magnetic properties improved when the addition of oleic acid in a high-speed /energy milling occurred. It was also verified that the α-Fe phase, present in the powder, shows a crystallite size decrease (from 35 nm to ~ 10 nm) when the time milling variation occurred; meanwhile, the crystallinity degree was lower in the Pr2Fe14B phase when the time milling variations was carried out.

ímãs permanentes

liga Pr-Fe-Co-B

pós magnéticos

surfactante

magnetic powders

permanent bonded magnets

Pr-Fe-Co-B alloy

surfactant

Photomagnetic Cobalt hexacyanidoferrate(III) Prussian Blue Analogues probed by X-ray Magnetic Circular Dichroism (XMCD) / Photomagnétisme d'hexacyanidoferrate(III) de cobalt, analogues de bleu de Prusse, sondé par dichroïsme magnétique circulaire des rayons X (XMCD)

Fatima, Sadaf

28 September 2016

Les analogues du bleu de Prusse contenant du Fe et du Co (Fe/Co PBA) sont des complexes moléculaires qui présentent des propriétés physiques bistables. Par conséquent, ils sont considérés comme des candidats potentiels pour le stockage d'informations à base de molécules. Cette thèse vise à étudier la structure électronique et magnétique de Fe/Co PBA en utilisant des techniques expérimentales et théoriques avancées. Les techniques X-ray Absorption Spectroscopy (XAS) et X-ray magnetic circular dichroism (XMCD) combinées avec la théorie des multiplets en champ de ligands (LFM) sonde le changement dans les propriétés magnétiques macroscopiques de Fe/Co PBA et peuvent donner des informations locales sur les centres métalliques des complexes. Le composé tridimensionnel RbCoFe PBA, deux complexes de dinucléaire photomagnétiques et les précurseurs de Fe sont étudiés. L'étude de XMCD combinée avec la LFM a révélé une grande valeur du moment magnétique d'orbite du précurseur FeTp. Une étude détaillée a été effectuée pour vérifier les règles de somme d'orbite et de spin dans le cas des ions de Fe(III) bas spin et il a été constaté que la règle spin somme n'était pas valide à cause de l'entremélange des seuils L2 et L3. L'enquête XMCD des complexes dinucléaires photomagnétiques a confirmé le transfert d'électrons métal-métal. Cette enquête XMCD de la plus petite unité de la famille Fe / Co PBA est utile pour comprendre les propriétés magnétiques de la famille de Fe / Co PBA. L'étude XMCD sur aux seuils K du Fe et du Co d'un composé tridimensionnel RbCoFe PBA a prouvé l'existence d'une interaction antiferromagnétique entre les ions métalliques de Fe et de Co dans l'état photoinduit. / The Fe/Co Prussian Blue Analogues (PBA) are molecular complexes that exhibit externally controlled bistable physical properties. Thus, they are considered as potential candidates for photoswitchable molecule-based information storage. This thesis aims to investigate the electronic and magnetic structure of Fe/Co PBA using advanced experimental and theoretical techniques. X-ray Absorption Spectroscopy (XAS) and X-ray Magnetic Circular Dichroism (XMCD) techniques combined with Ligand Field Multiplet (LFM) theory probe the change in the macroscopic magnetic properties of PBA and can give local information about the metal centers existing in the complexes. The XAS and XMCD spectra at Fe and Co L2,3 edges are simulated using Ligand Field Multiplet (LFM) Calculations. The tridimensional RbCoFe PBA, two photomagnetic dinculear complexes and the building blocks Fe-bearing precursors are investigated. The XMCD study combined with LFM investigation revealed a large value of orbital magnetic moment in FeTp precursor of the dinuclear complex. A detailed study has been performed to check for the orbit and spin sum rules in the case of low spin FeIII ions and it was found that the spin sum rule does not hold because of intermixing between L2 and L3 edges. The XMCD investigation of the photomagnetic dinuclear complexes confirmed the metal-to-metal electron transfer. This XMCD investigation of the smallest unit of Fe/Co PBA family is helpful to understand the magnetic properties of the family of Fe/Co PBA. The XMCD study at Fe and Co K edges of a tridimensional RbCoFe PBA proved the existence of an antiferromagnetic interaction between Fe and Co metal ions in the photoinduced state.

Bleu de Prusse analogues

Photomagnétisme

Fe

Co

XAS

XMCD

Prussian Blue analogues

Photomagnetism

Fe/Co

543.4

A New Synthetic Pathway for Diquinane And Angular Triquinane Systems

Kim, Eun Hoo

17 May 2010

No description available.

Chemistry

azatriquinane

cyclohexadiene-Fe(CO)3

intramolecular double cyclization

diquinane

angular triquinane

pentalenene

stereoselective Grignard addition

Nouveaux alliages Fe-Co magnétiques pour l’aéronautique, à microstructure partiellement recristallisée et à texture fortement orientée / New magnetic Fe-Co alloys, having a partially recrystallized microstructure and strongly oriented texture, for aeronautic applications

Nabi, Brahim

27 January 2014

Les propriétés magnétiques et mécaniques des alliages Fe-49%Co-2%V et Fe-27%Co, utilisés respectivement dans les générateurs et les transformateurs électriques de l’aéronef, ont été étudiées en fonction des traitements thermiques. Concernant le Fe-49%Co-2%V, les résultats expérimentaux ont montré que les propriétés magnétiques et mécaniques dépendent de la distance entre les interfaces qui séparent les cristallites présents dans la microstructure et ceci quel que soit le taux de recristallisation. Le champ coercitif dépend linéairement de l’inverse de la distance entre ces interfaces et la limite d’élasticité suit une loi de Hall et Petch modifiée pour tenir compte des sous-joints. De plus, une relation linéaire entre la contrainte de friction de la loi de Hall et Petch avec le taux d’ordre à grande distance mesuré par diffraction de neutrons a été établie. Finalement, en s’appuyant sur l’expérience, une loi polynomiale de degré deux reliant les pertes magnétiques et la limite d’élasticité a été proposée. Concernant l’alliage Fe-27%Co, un suivi de l’évolution de la composante de Goss {011}<100> pendant le processus de fabrication a été réalisé. Cette composante est recherchée car favorable pour les propriétés magnétiques. Il a été trouvé que l’origine de cette texture est intimement liée au cisaillement développé lors du laminage à chaud. De plus, le développement de la texture {111}<112> de déformation à froid a été étudié. Le système de glissement {110}<111>, majoritairement activé, a été mis en évidence via un couplage d’analyses EBSD et de simulations VPSC. Au cours de la déformation plastique, les composantes de Goss et Cube tournée ({001}<110>) tournent afin de positionner leur plan {110} pour le glissement facile. Ces rotations, respectivement de 35° et 55° autour de la direction transverse, permettent de former la composante {111}<112>. / Magnetic and mechanical properties of Fe-49%Co-2%V and Fe-27%Co alloys, used in electric generators and transformers of the aircraft, have been investigated as a function of heat treatments. As regards to Fe-49%Co-2%V alloy, experimental results have shown that the magnetic and mechanical properties depend on the boundary spacing, which separate the microstructure crystallites, whatever the recrystallized fraction. The coercivity depends linearly on the inverse of the boundary spacing and the yield strength follows a modified Hall Petch relationship by taking into account the sub-grain size. Moreover, a linear relationship between the frictional stress and the long range order degree measured by neutron diffraction has been established. Finally, based on the experiment, a square polynomial degree relationship between the magnetic losses and the yield stress has been proposed. As respect to the Fe-27%Co alloy, the evolution of the {011}<100> Goss component during the manufacturing process has been investigated. This sought component is favorable for the magnetic properties of the sheet. It has been found that the origin of this texture is related to its development by shearing during hot rolling. Moreover, the development of the {111}<112> cold deformation texture was studied. It has been established by coupling EBSD analysis and simulation based on VPSC model that the {110}<111> system is the predominant active slip system during the plastic deformation. During the deformation, the Goss and the rotated Cube ({001}<110>) components, rotate of 35° and 55° respectively with regard to the transverse direction. That happens in order to place the active slip plane {110} in the favorable position for gliding to develop the {111}<112> component.

Fe-Co

Distance entre interfaces

LRO

Champs coercitif

Limite d’élasticité

Énergie stockée

Texture de Goss

Systèmes de glissements

Cisaillement

Fe-Co

Boundary spacing

LRO

Coercivity

Yield strength

Stored energy

Goss texture

Slip systems

Shearing

Synthesis and characterization of dinuclear {Fe(μ-CN)Co} complexes exhibiting metal-to-metal electron transfer properties / Synthèse et caractérisation de complexes binucléaires de type {Fe(μ-CN)Co} présentant des propriétés de transfert d'électron intermétalliques

Koumousi, Evangelia S.

04 December 2015

Cette thèse porte sur la synthèse de nouveaux complexes binucléaires à ponts cyanures de type {Fe(μ-CN)Co}, qui reproduisent au sein d'une seule molécule les propriétés originales du réseau de coordination d'analogue de bleu de Prusse AxCo[Fe(CN)6]y•nH2O (A=ions alcalins), i.e. un transfert d'électron intramoléculaire thermo- et photo-induit à l'état solide. Au sein de ce travail, nous nous sommes intéressés à l'étude des propriétés physiques des paires moléculaires Fe/Co, avec l’objectif de comprendre les mécanismes du phénomène de transfert d'électrons. Le chapitre I contient les exemples les plus représentatifs des réseaux de coordination d'analogues de bleu de Prusse et de leurs analogues moléculaires Fe/Co, en se concentrant sur les techniques utilisées pour comprendre leurs propriétés photomagnétiques et les stratégies synthétiques employées pour contrôller leur dimensionnalité et obtenir ces analogues moléculaires. Les bases théoriques du transfert d'électron ainsi que la motivation de ce travail sont décrites à la fin du chapitre. Après une introduction sur l’utilisation des briques moléculaires employées au cours de ce travail à travers l’étude de leurs potentiels redox, le chapitre II est consacré à la synthèse et la caractérisation de nouveaux composés dinucléaires à ponts cyanures Fe/Co. Des études structurales, spectroscopiques, magnétiques, photomagnétiques, diélectriques et d’absorption des rayons-X révèlent qu'un transfert d’électron métal-métal peut être déclenché à l'état solide en faisant varier la température et par application de la lumière. Dans le chapitre III est présenté l'influence de l'environnement des complexes binucléaires Fe/Co, à savoir les contre-ions, sur le transfert d’électron thermo- et / ou photo-induit à l'état solide. Enfin le chapitre IV porte sur la possibilité de transférer le phénomène de transfert d'électron des paires Fe/Co étudiées de l'état solide à la solution / This thesis is dedicated to the synthesis of new dinuclear cyanido-bridged Co/Fe complexes, which mimics on a single molecule the original properties of the coordination network of Prussian Blue Analogues AxCo[Fe(CN)6]y•nH2O (A= alkaline ions), i.e. intramolecular thermal and photo-induced electron transfer in the solid state. We focus on the study of the physical properties of the simplest Fe/Co PBA, a dinuclear complex, with the hope to understand the fundamental concepts of this fascinating phenomenon. Chapter I contains the most representative examples of Fe/Co PBAs, focusing on the synthetic strategies employed in order to obtain Fe/Co PBAs of different dimensionalities and the techniques used to understand their photomagnetic properties. The theoretical background of the electron transfer phenomenon and the motivation of our work are described in the end of the chapter. After introducing the choice of the building blocks used in this work through the study of their redox potential properties, chapter II is devoted to the synthesis and the characterization of a novel dinuclear Fe/Co cyanido-bridged complex, which exhibits metal-to-metal electron transfer properties in solid state triggered by temperature and light. The ET phenomenon has been also studied by X-ray absorption spectroscopy and dielectric measurements. In Chapter III is illustrated the influence of the environment content of the dinuclear Fe/Co complexes, such as the counter ions, on the occurrence of the thermally and/or photo-induced electron transfer in solid state, thus highlighting the versatility of these molecular materials. Finally in chapter IV, the possibility of transferring the electron transfer phenomenon of the studied Fe/Co pairs from solid state to solution is investigated.

Magnétisme moléculaire

Photomagnétisme

Transfert d'électron métal-métal

Commutation moléculaire

Molecular magnetism

Photomagnetism

Metal-to-metal electron transfer

Molecular switches