Ion irradiation effects on high purity bcc Fe and model FeCr alloys / Effets de l'irradiation d’ions sur fer cubic centrée de haute pureté et FeCr alliage modèle

Bhattacharya, Arunodaya

09 December 2014

Les alliages binaires FeCr de structure FM (ferrito/martensitique) sont actuellement les candidats les plus prometteurs comme matériaux de structure pour les réacteurs rapides refroidis au sodium et les futurs systèmes de fusion. Cependant, l'impact de Cr sur l'évolution de la microstructure irradié dans ces matériaux n’est pas bien compris. De plus, particulièrement pour les applications de fusion, le scénario de dégâts d'irradiation devrait être compliquée en outre par la présence de grandes quantités d'hélium produit par transmutation nucléaire (~ 10 appm He / dpa). Dans ce contexte, une étude spécifique des effets de l'irradiation ionique (influence du Cr et de l’He sur l’évolution de la microstructure) a été menée à 500 ° C sur une grande variété d’alliages FeCr de haute pureté (à teneur en Cr allant de ~ 3 wt.% À 14 wt.%) ainsi que sur du Fe pur. Les irradiations ont été effectuées à l'aide ions Fe, en mode mono-faisceau et mode dual-beam (irradiation par des ions Fe et co-implantation d'He) afin de pouvoir séparer le dommage ballistique de l’implantation couplée avec de l’He. Trois différentes doses ont été étudiées: dose élevée (157 dpa, avec 17 appm He / dpa), dose intermédiaire (45 dpa, avec 57 appm He / dpa) et in situ à faible dose (0,33 dpa, avec 3030 appm He / dpa). Les expériences ont été effectuées en utilisant l'installation JANNuS triple faisceau du CEA-Saclay et la plateforme in-situ du CSNSM-Orsay. L’évolution microstructurale des échantillons est essentiellement faite par MET, SAT et par EDS en mode STEM. Les principaux résultats sont les suivants : 1) L’étude détaillée de la population des cavités dans du Fe irradié à forte dose a révélé une forte réduction du gonflement du fait de l'ajout d’He. Une réduction drastique de la taille des cavités en dépit d’une densité plus élevée a été observée. Ce comportement a été observé tout au long zone irradié, jusqu’au pic d’endommagement. 2) La microstructure de cavités a également été étudiée dans les alliages FeCr irradiés en double faisceau à forte dose, et les résultats ont été comparés à ceux obtenus dans le Fe pur. L'analyse a été effectuée à une profondeur intermédiaire de 300 à 400 nm sous la surface (pour éviter les effets des interstitiels injectés et les effets de surface), correspondant à 128 dpa, 13 appm He / dpa. L’étude par TEM a montré que l'addition de petites quantités de Cr, aussi basse que 3wt.%, est très efficace pour réduire fortement le gonflement. Une réduction drastique de la taille des cavités a été mise en évidence. Par exemple, la taille moyenne des cavités pour l’alliage Fe3% Cr est de l’ordre de 0,9 nm alors qu’elle est voisine de 6,8 nm pour le Fe pur. De plus, la variation du gonflement en fonction de la teneur en Cr n’est pas monotone et présente un maximum local à environ 9 -. 10wt% Cr. 3) Le couplage des différentes techniques d’analyse, MET classique, STEM/EDS et analyse SAT appliqué à l’étude des alliages FeCr irradiés à faible et moyenne dose révèle la présence de zones enrichies en Cr sur le plan d’habitat des boucles de dislocation. Ce phénomène est relié à un phénomène de ségrégation induite par irradiation (RIS) de Cr au voisinage du coeur des boucles de dislocation. Quand la boucle se développe sous irradiation, les zones de ségrégation ne peuvent probablement pas se redissoudre du fait de la présence d'impuretés telles que le C. Lorsque les boucles sont imagées par MET, ces zones enrichies produisent des franges de contraste au voisinage du plan de la boucle. Une estimation quantitative de cet enrichissement a été déduit par STEM / EDS et l'SAT. La teneur en Cr dans ces domaines se situe entre 23 -. 35% par EDS et 22 % par SAT, ce qui est bien en dessous de la teneur en Cr de la phase α’ riche en Cr. / FeCr binary alloys are a simple representative of the reduced activation ferritic/martensitic (F-M) steels, which are currently the most promising candidates as structural materials for the sodium cooled fast reactors (SFR) and future fusion systems. However, the impact of Cr on the evolution of the irradiated microstructure in these materials is not well understood in these materials. Moreover, particularly for fusion applications, the radiation damage scenario is expected to be complicated further by the presence of large quantities of He produced by the nuclear transmutation (~ 10 appm He/dpa). Within this context, an elaborate ion irradiation study was performed at 500 °C on a wide variety of high purity FeCr alloys (with Cr content ranging from ~ 3 wt.% to 14 wt.%) and a bcc Fe, to probe in detail the influence of Cr and He on the evolution of microstructure. The irradiations were performed using Fe self-ions, in single beam mode and in dual beam mode (damage by Fe ions and co-implantation of He), to separate ballistic damage effect from the impact of simultaneous He injection. Three different dose ranges were studied: high dose (157 dpa, 17 appm He/dpa for the dual beam case), intermediate dose (45 dpa, 57 appm He/dpa for dual beam case) and in-situ low dose (0.33 dpa, 3030 appm He/dpa for the dual beam case). The experiments were performed at the JANNuS triple beam facility and dual beam in situ irradiation facility at CEA-Saclay and CSNSM, Orsay respectively. The microstructure was principally characterized by conventional TEM, APT and EDS in STEM mode. The main results are as follows: 1) A comparison of the cavity microstructure in high dose irradiated Fe revealed strong swelling reduction by the addition of He. It was achieved by a drastic reduction in cavity sizes and an increased number density. This behaviour was observed all along the damage depth, upto the damage peak. 2) Cavity microstrusture was also studied in the dual beam high dose irradiated FeCr alloys, and the results were compared to bcc Fe. The analysis was performed at an intermediate depth 300 – 400 nm below the surface (to avoid injected interstitial effect and surface effects), corresponding to 128 dpa, 13 appm He/dpa. TEM study revealed that the addition of small quantities of Cr, as low as 3wt.%, is highly efficient in strongly reducing void swelling. It was achieved by a drastic reduction of cavity sizes. For instance, average cavity size in Fe3%Cr was 0.9 nm as opposed to 6.8 nm in bcc Fe. Furthermore, the variation of void swelling as a function of Cr content is non-monotonic, with alocal maxima around 9 - 10wt.%Cr. 3) Coupling of conventional TEM, STEM/EDS and APT analysis on low and intermediate dose irradiated FeCr alloys revealed the presence of Cr enriched zones on the habit plane of the dislocation loops. This is expected to be due to radiation induced segregation (RIS) of Cr close to the core of the loops. As the loop grows under irradiation, the segregated areas are probably prevented from re-dissolution by impurity elements such as C. When imaged by TEM using classical diffraction contrast imaging techniques, these enriched zones produce displacement fringe contrast on the loop plane. A quantitative estimate of this enrichment was deduced by STEM/EDSand APT. The Cr content in these areas was between 23 - 35 at.% measured by EDS and 22 ± 2 at.% obtained by APT, whichis well below the Cr content of the Cr-rich α’ phase.

Alliage FeCr

Gonflement

Sonde atomique tomographie (SAT)

Irradiation aux ions

Boucle de dislocation

FeCr alloys

Transmission electron microscopy (TEM)

Void swelling

Atom probe tomography (APT)

Ion irradiation

Dislocation loops

Développement et applications de la tomographie chimique par spectroscopie EDX / Development and applications of chemical tomography by EDX spectroscopy

Lepinay, Kevin

27 November 2013

Cette thèse porte sur l’évaluation des techniques pour la tomographie chimique par STEM EDX : mise au point des procédures expérimentales, traitement des données, reconstruction des volumes, analyse de la qualité des résultats obtenus et évaluation de la complexité globale. Les performances très limitées de l’analyse STEM EDX font que peu d’études, jusqu’à aujourd’hui, se sont portées sur cette technique. Cependant, les avancées très notables procurées par les nouveaux détecteurs ‘SDD’ ainsi que les sources électroniques X-FEG haute brillance, rendant l’analyse STEM EDX 2D très rapide, ont relancé la possibilité de la tomographie chimique ; la technique demande toutefois à être mise au point et évaluée (performances et complexité). Nous avons travaillé sur un microscope Tecnai Osiris permettant d’acquérir des cartographies chimiques EDX de centaines de milliers de pixels avec une résolution de l’ordre du nanomètre en quelques minutes. Nous avons choisi de préparer par FIB des échantillons en forme de pointe et d’utiliser un porte-objet permettant une exploration angulaire de 180° sans ombrage. Puis, à l’aide d’échantillons modèles (billes de SiO2 dans une résine), nous avons évalué les déformations d’échantillon par l’irradiation du faisceau électronique. Ceci nous a permis de proposer une méthode pour limiter cet effet par déposition d’une couche de 20 nm de chrome. Des simulations d’images ont permis d’évaluer les logiciels et méthodes de reconstruction. La méthodologie de chaque étape d’une analyse de tomographie STEM EDX a ensuite été expliquée, et l’intérêt de la technique démontré grâce à la comparaison de l’analyse 2D et 3D d’un transistor FDSOI 28 nm. La qualité des reconstructions (rapport signal-sur-bruit, résolution spatiale) a été évaluée en fonction des paramètres expérimentaux à l’aide de simulations et d’expériences. Une résolution de 4 nm est démontrée grâce à l’analyse d’une mire et d’un transistor « gate all around ». Pour ce même transistor, la possibilité et l’intérêt d’analyse de défaillance à l’échelle nanométrique est prouvée. Une analyse d’un défaut de grille d’une SRAM ou de trous dans un pilier en cuivre permettent d’expliquer l’intérêt d’une combinaison d’un volume HAADF (morphologie et résolution < 4 nm) et du volume EDX (information chimique). La conclusion est que cette technique, qui reste encore à améliorer du point de vue de sa simplicité, montre déjà son utilité pour l’analyse et la mise au point des technologies avancées (nœud 20 nm et après). / This thesis focuses on the evaluation of the STEM EDX chemical tomography technique: development of experimental procedures, data processing and volumes reconstruction, quality analysis of the results and evaluation of the overall complexity. Until now, STEM EDX analysis performances were very limited, so only few studies about this technique have been realized. However, very significant progress procured by the new SDD detectors as well as by the high brightness electronic sources (X-FEG), making the STEM EDX 2D analysis very fast, have revived the possibility of the chemical tomography, although the technique has to be developed and evaluated (performance and complexity). We have worked on a Tecnai Osiris which acquires EDX chemical mapping of hundreds of thousands of pixels with resolution of one nanometer and in a few minutes. We chose to prepare the rod-shaped samples by FIB and use a sample holder allowing an angle of exploration of 180° without shadowing effects. Then, using model samples (SiO2 balls in resin), we evaluated the sample deformation due to the electron beam irradiation. This allowed us to propose a method to reduce this effect by depositing a 20 nm chromium layer. Images simulations were used to evaluate the software and the reconstruction methods. The methodology of each step of the STEM EDX tomography analysis is then explained and the technique interest is demonstrated by comparing the 2D and the 3D analysis of a transistor 28 nm FDSOI. The quality of the reconstructions (signal-to-noise ratio, spatial resolution) was evaluated, in function of experimental parameters, using simulations and experiments. A resolution of 4 nm is demonstrated through the analysis of a test pattern and a "gate all around” transistor. For the same transistor, the possibility and the interest of a failure analysis at the nanoscale is proven. Analyses of a SRAM gate fail or of the holes in a copper pillar explain the benefits of a combination between a HAADF volume (morphology and resolution < 4 nm) and an EDX volume (chemical information). To conclude, this technique, which still needs to be improved in terms of simplicity, is already showing its usefulness for the analysis and the development of advanced technologies (20nm node and beyond).

Matériau pour l'électronique

Semiconducteur

Tomographie chimique

Cartographie chimique

Imagerie 3D

Reconstruction 3D

Préparation de l'échantillon

Faisceau d'ions focalisés

Material for electronic device

SemiConductors

Chemical tomography

Chemical mapping

3D Imaging

3D Reconstruction

Sample preparation

FIB - Focused ion beam

620.110 287 072

Casting no shadow : overlapping soilscapes of European-Indigenous interaction in northern Sweden

Green, Heather F.

January 2012

The Sámi’s past activities have been documented historically from a European perspective, and more recently from an anthropological viewpoint, giving a generalised observation of the Sámi, during the study period of AD200-AD1800, as semi-nomadic hunter gatherers, with several theories suggesting that interaction with Europeans, through trade, led to the adoption of European activities by certain groups of the Sámi (Eiermann, 1923; Paine, 1957; Manker and Vorren, 1962; Bratrein, 1981; Mathiesen et al, 1981; Meriot, 1984). However, there is almost no information on the impact the Sámi had on the landscape, either before or after any adoption of European activities, and none investigating what cultural footprint or indicators would remain from Sámi or European occupation and/or activity within the typically podzolic soils of Northern Sweden. Consequently the thesis aims to contribute to the gap in knowledge through the formation of a podzol model identifying the links between anthropogenic activity and the alteration of podzol soils, and through the creation of soils based models which identify the cultural indicators associated with both Sámi and European activity; formed from the identification of cultural indicators retained within known Sámi and European sites. The methods used to obtain the information needed to achieve this were the pH and magnetic susceptibility from bulk soil samples and micromorphological and chemical analysis of thin section slides through the use of standard microscopy and X-ray fluorescence from a scanning electron microscope. The analysis revealed that the Sámi had an extremely low impact on the landscape, leaving hard to detect cultural indicators related to reindeer herding in the form of reindeer faecal material with corresponding phosphorous peaks in the thin section slides. The European footprint however, was markedly different and very visible even within the acidic soil environment. The European indicators were cultivation based and included phosphorous and aluminium peaks as well as a deepened, highly homogenised plaggen style anthropogenic topsoil rich in ‘added’ materials. An abandoned European site which visibly and chemically shows the formation of a secondary albic horizon within the anthropogenic topsoil also provides an insight into the delicate balance of cultivated soil in northern Sweden, whilst reinforcing the outputs identified in the podzol model. Due to the almost invisible Sámi footprint on the landscape, areas of overlap were impossible to identify however, there was no evidence of the adoption of European cultivation activities at any of the Sámi sites investigated. The only known area of interaction between the two cultures was an official market place which had been a Sámi winter settlement prior to its use as a market site. This site showed none of the reindeer based Sámi indicators or the cultivation based European indicators, but did contain pottery fragments which could be linked to trade or occupation. Overall, the thesis reinforces the low impact expected of the semi-nomadic Sámi and sheds light on the underlying podzolic processes influencing the anthropogenically modified soils of Northern Sweden. The podzol model is reinforced by several findings throughout the thesis and the soils based cultural indicator models for both Sámi and European activity have been successfully tested against independent entomological and palynological data and therefore provide reliable reference material for future studies.

570

X-ray Diagnostics of Accretion Plasmas in Selected Soft Polars / Akkretionsplasmen in Polaren mit ausgeprägter weicher Röntgenstrahlung

Traulsen, Iris

06 March 2009

No description available.

520 Astronomie

Mathematics and Computer Science

Kataklysmischer Doppelstern

Weißer Zwerg

Röntgenspektroskopie

XMM-Newton

Cataclysmic variable

White dwarf

X-ray spectroscopy

XMM-Newton

39.40

TBK 000: Hochenergieastronomie

THT 700: Kompakte Sterne {Astronomie}

THT 900: Doppelsterne {Astronomie}

Effect of Thermal and Chemical Treatment of Soy Flour on Soy-Polypropylene Composite Properties

Guettler, Barbara Elisabeth

06 November 2014

Soy flour (SF), a by-product of the soybean oil extraction processing, was investigated for its application in soy-polypropylene composites for interior automotive applications. The emphasis of this work was the understanding of this new type of filler material and the contribution of its major constituents to its thermal stability and impact properties. For this reason, reference materials were selected to represent the protein (soy protein isolate (SPI)) and carbohydrate (soy hulls (SH)) constituents of the soy flour. Additional materials were also investigated: the residue obtained after the protein removal from the soy flour which was called insoluble soy (IS), and the remaining liquid solution after acid precipitation of the proteins, containing mostly sugars and minerals, which was called soluble sugar extract (SSE). Two treatments, potassium permanganate and autoclave, were analyzed for their potential to modify the properties of the soy composite materials. An acid treatment with sulfuric acid conducted on soy flour was also considered. The soy materials were studied by thermogravimetric analysis (TGA) under isothermal (in air) and dynamic (in nitrogen) conditions. SPI had the highest thermal stability and SSE the lowest thermal stability for the early stage of the heating process. Those two materials had the highest amount of residual mass at the end of the dynamic TGA in nitrogen. The two treatments showed minimal effect on the isothermal thermal stability of the soy materials at 200 ??C. A minor improvement was observed for the autoclave treated soy materials. Fourier transformed infrared (FTIR) spectroscopy indicated that the chemical surface composition differed according to type of the soy materials but no difference could be observed for the treatments within one type of soy material. Contact angle analysis and surface energy estimation indicated differences of the surface hydrophobicity of the soy materials according to type of material and treatment. The initial water contact angle ranged from 57 ?? for SF to 85 ?? for SH. The rate of water absorption increased dramatically after the autoclave treatment for IS and SPI. Both materials showed the highest increase in the polar surface energy fraction. In general, the major change of the surface energy was associated with change of the polar fraction. After KMnO4 treatment, the polar surface energy of SF, IS and SPI decreased while SH showed a slight increase after KMnO4 treatment. A relationship between protein content and polar surface energy was observed and seen to be more pronounced when high protein containing soy materials were treated with KMnO4 and autoclave. Based on the polar surface energy results, the most suitable soy materials for polypropylene compounding are SPI (KMnO4), SH, and IS (KMnO4) because their polar surface energy are the lowest which should make them more compatible with non-polar polymers such as polypropylene. The soy materials were compounded as 30 wt-% material loading with an injection moulding grade polypropylene blend for different combinations of soy material treatment and coupling agents. Notched Izod impact and flexural strength as well as flexural modulus estimates indicated that the mechanical properties of the autoclaved SF decreased when compared to untreated soy flour while the potassium permanganate treated SF improved in impact and flexural properties. Combinations of the two treatments and two selected (maleic anhydride grafted polypropylene) coupling agents showed improved impact and flexural properties for the autoclaved soy flour but decreased properties for the potassium permanganate treated soy flour. Scanning electron microscopy of the fractured section, obtained after impact testing of the composite material, revealed different crack propagation mechanisms for the treated SF. Autoclaved SF had a poor interface with large gaps between the material and the polypropylene matrix. After the addition of a maleic anhydride coupling agent to the autoclaved SF and polypropylene formulation, the SF was fully embedded in the polymer matrix. Potassium permanganate treated SF showed partial bonding between the material and the polymer matrix but some of the material showed poor bonding to the matrix. The acid treated SF showed cracks through the dispersed phase and completely broken components that did not bind to the polypropylene matrix. In conclusion, the two most promising soy materials in terms of impact and flexural properties improvement of soy polypropylene composites were potassium permanganate treated SF and the autoclaved SF combined with maleic anhydride coupling agent formulation.

Soy flour

Soy protein

Carbohydrates

Polypropylene

Coupling agent

Composites

Autoclave treatment

Chemical treatment

Automotive applications

Contact angle

Surface energy

Interfacial energy

Surface roughness

Hydrophilicity

Thermogravimetric analysis (TGA)

Crack propagation

Impact strength (toughness)

Flexural modulus (stiffness)

Study of macroscopic and microscopic homogeneity of DEPFET X-ray detectors / Untersuchung der makroskopischen und mikroskopischen Homogenität von DEPFET-Röntgendetektoren

Bergbauer, Bettina

15 January 2016

For the X-ray astronomy project Advanced Telescope for High ENergy Astrophysics (Athena) wafer-scale DEpleted P-channel Field Effect Transistor (DEPFET) detectors are proposed as Focal Plane Array (FPA) for the Wide Field Imager (WFI). Prototype structures with different pixel layouts, each consisting of 64 x 64 pixels, were fabricated to study four different DEPFET designs. This thesis reports on the results of the electrical and spectroscopic characterization of the different DEPFET designs. With the electrical qualification measurements the transistor properties of the DEPFET structures are investigated in order to determine whether the design intentions are reflected in the transistor characteristics. In addition, yield and homogeneity of the prototypes can be studied on die, wafer and batch level for further improvement of the production technology with regard to wafer-scale devices. These electrical characterization measurements prove to be a reliable tool to preselect the best detector dies for further integration into full detector systems. The spectroscopic measurements test the dynamic behavior of the designs as well as their spectroscopic performance. In addition, it is revealed how the transistor behavior translates into the detector performance. This thesis, as the first systematic study of different DEPFET designs on die and detector level, shows the limitations of the current DEPFET assessment methods. Thus, it suggests a new concise characterization procedure for DEPFET detectors as well as guidelines for expanded testing in order to increase the general knowledge of the DEPFET. With this study of four different DEPFET variants not only designs suitable for Athena mission have been found but also improvement impulses for the starting wafer-scale device production are provided.

Röntgendetektor

Röntgenspektroskopie

Siliziumdetektor

Aktiver Pixelsensor

DEPFET

DEPFET Designstudie

MOSFET

Transistor

Athena

X-ray detectors

X-ray spectroscopy

Silicon-based detectors

Active pixel sensor

DEPFET

DEPFET design study

MOSFET

Transistor

Athena

Wide-Field Imager

ddc:621

ddc:537

Röntgendetektor

DePFET

Feldeffekttransistor

Röntgenspektroskopie

Transistor

Corrélations compositions chimiques-structures d’oxydes mixtes (Ce / Zr) à base de Pr4+ / Pr3+ et propriétés de réductibilité / Chemical compositions - structures correlation of mixed oxides (Ce/Zr) with Pr4+/Pr3+ and reducibility properties

Abel, Jonathan

19 October 2011

Ce travail est relatif à la synthèse et à la caractérisation d’oxydes mixtes Pr1-zCezO2-y et Pr1-xZrxO2-y. Différentes compositions chimiques associées à une valence mixte Pr4+/Pr3+ concomitant à un taux précis de lacunes d’oxygènes ont été isolées tant pour les composés à l’état oxydé que pour ces derniers réduits sous Ar/H2. A l’état réduit, différentes surstructures de la maille fluorine ont été caractérisées par diffraction des RX et de neutrons. Sur la base de mesures magnétiques, d’analyses par spectroscopie d’absorption X (XANES-EXAFS) aux seuils K du Zr et LIII du Ce/Pr et d’analyses thermogravimétriques et/ou TPR (Temperature Programmed Reduction), les évolutions des taux de Pr4+/Pr3+ dans cette série ont été déterminées. Enfin, des mesures in-situ sous atmosphère réductrice par diffraction de neutrons et EELS (Electron Energy Loss Spectroscopy) ont été réalisées dans l’objectif de corréler compositions chimiques- édifices structuraux et propriétés de réductibilité. / This work deals with the synthesis and the characterization of Pr1-zCezO2-y and Pr1-xZrxO2-y oxides. Various chemical compositions associated with mixed valence state Pr4+/Pr3+ concomitant to precise oxygen vacancies rate were isolated for compounds in both oxidized and reduced compounds. In the reduced state, different superstructures of the fluorine network were characterized by X-ray and neutrons diffraction. On the basis of magnetic measurements, X-ray absorption spectroscopy (XANES-EXAFS) at Zr K-edge and Pr and Ce LII/III-edges and the thermogravimetric analyses and\or TPR (Temperature Programmed Reduction), evolutions of Pr4+/Pr3+ rates in this series were estimated. Finally, in-situ measurements under reducing atmosphere by neutrons diffraction and EELS (Electron Energy Loss Spectroscopy) were realized to correlate chemical compositions- structural features and reducibility properties.

Cérium

Praséodyme

Zirconium

Oxydes mixtes

Structures cristallographique

Diffraction de neutrons

Fluorine

Surstructures

Degré d’oxydation

Mesures magnétiques

Spectroscopie d’absorption X

EELS

Propriétés de réductibilité

ATG

TPR

Cerium

Praseodymium

Zirconium

Mixed oxides

Crystallographic structures

Neutrons diffraction

Fluorite

Superstructures

Oxidation number

Magnetic measurements

X-ray spectroscopy

EELS

Reducibility properties

TGA

TPR

Homogeneidade química, interfaces e defeitos estruturais em nanofios de semicondutores III-V / Chemical homogeneity, interfaces and structural defects in III-V semiconductor nanowires

Tizei, Luiz Henrique Galvão

17 August 2018

Orientador: Daniel Mário Ugarte / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-17T20:15:26Z (GMT). No. of bitstreams: 1 Tizei_LuizHenriqueGalvao_D.pdf: 12237887 bytes, checksum: e97ac7041ecfd4c30088cf9b43d9849a (MD5) Previous issue date: 2011 / Resumo: O desenvolvimento de novos materias tem grande interesse devido à ocorrência de novos fenômenos e propriedades, as quais podem ser usadas em futuras aplicações tecnológicas. Em particular, nas últimas décadas, esforços imensos foram realizados buscando compreender nanomateriais e os efeitos da redução de tamanho e de dimensão. Entre os diferentes avanços alcançados, podemos citar o desenvolvimento significativo de nanofios semicondutores (estruturas quasi-unidimensionais) com dezenas ou centenas de nanometros de espessura e milhares de nanometros de comprimento. O método mais utilizado para o crescimento de nanofios é o método catalítico chamado VLS (Vapor-Líquido-Sólido), no qual uma nanopartícula metálica serve como sorvedouro preferencial de átomos de um vapor e, também, como posição para a formação de um sólido (nanofio). O VLS foi proposto por Wagner e Ellis nos anos 60. Em nossos trabalhos, nos concentramos no estudo de nanofios de semicondutores III-V crescidos em um reator de Epitaxia de Feixe Químico (CBE) catalisados por nanopartículas de Au. Mais especificamente, estudamos nanofios de InP, InAs, InGaP, InAsP e heteroestruturas InP/InAs/InP. Como a qualidade de interfaces e homogeneidade química do material crescido, influenciam diretamente as propriedades ópticas e elétricas de nanofios, nossa pesquisa nos levou a avaliar os limites da aplicação de diversas técnicas de microscopia eletrônica de transmissão aplicadas: TEM (Microscopia Eletrônica de Transmissão), STEM (Microscopia Eletrônica de Transmissão em Varredura), HRTEM (Microscopia Eletrônica de Transmissão de Alta Resolução), EDS (Espectroscopia de Raios-X Dispersados em Energia) e EELS (Espectroscopia de Perda de Energia de Elétrons). Como consequência, determinamos os limites de detecção de variações químicas e de medidas de larguras de interfaces das diferentes técnicas. Em particular, devido às limitações impostas pelo dano por radiação no material, propusemos o uso de deslocamentos químicos de plasmons (EELS) para a caracterização química de nanoestruturas de semicondutores III-V. Desenvolvemos uma metodologia para a análise de seções transversais de nanofios de InAsP. Os experimentos realizados indicam a diferença entre os semicondutores produzidos por crescimento axial (catalítico) e por radial (bidimensional). Além disso, a análise química detalhada de heteroestruturas InP/InAs/InP levou a detecção de concentrações inesperados de As no segmento final de InP. Interpretamos esta observação como uma indicação de que As difunde através da nanopartícula catalisadora durante o crescimento, demonstrando uma rota de incorporação de elementos do grupo V em nanofios crescidos pelo método VLS. Finalmente, estudamos os efeitos de defeitos estruturais extendidos, como discordâncias na morfologia e distorções estruturais de nanofios. Neste sentido, observamos a torção de Eshelby em nanofios de InP contendo discordâncias em parafuso únicas. Nossos resultados mostram que as taxas de torção medida são muito maiores (até 100%) do que o previsto pela teoria elástica macroscópica. Isto mostra as mudanças significativas nas propriedades mecânicas e estruturais em nanoestruturas e ilustra o papel importante de estudos detalhados de microscopia eletrônica para a análise de deformações em nanoestruturas / Abstract: The development of new materials has great interest due to the possibility of finding new phenomena and properties, which can be used in technological applications. In particular, in the last decades, huge efforts have been made in order to understand nanomaterials and, the effects of size and dimensionality reduction. Among different advances, it is worth noting the significant development of semiconductor nanowires (quasi-one dimensional structures) with tens or hundreds of nanometers in diameter and thousands of nanometers in length. The catalytic method VLS (Vapor-Liquid-Solid) is the most used approach for nanowire preparation, in which a metal nanoparticle serves as a preferential sink for atoms from a vapor and, also, as the position for the solid nucleation; this method was proposed by Wagner and Ellis in the 60s. In our work, we have focused on the study of III-V semiconductor nanowires grown by Chemical Beam Epitaxy (CBE) catalyzed by Au nanoparticles. Specifically, we have studied different III-V nanowires (InP, InAs, InGaP and InAsP), as ell as, some heterostructured wires (InP/InAs/InP). As the quality of interfaces and the chemical homogeneity of materials directly influence the optical and electrical properties of nanowires, our research have led us to assess the limit of applicability of several characterization techniques based on transmission electron microscopy: TEM (Transmission Electron Microscopy), STEM (Scanning Transmission Electron Microscopy), HRTEM (High Resolution Transmission Electron Microscopy), EDS (Energy Dispersed X-Ray Spectroscopy) and EELS (Electron Energy Loss Spectroscopy). As a consequence, we have determined the detection limit for the measurement of chemical composition variations and interface widths. In particular, due to the limitations imposed by radiation damage on III-V nanowires, we have proposed the use of Plasmon chemical shifts (EELS) to the chemical characterization of III-V nanostructures. We have analyzed the cross sections of InAsP nanowires and we have been able to reveal a difference between the semiconductors materials produced by the axial (catalytic) and radial (bidimensional) growth. Through the detailed chemical analysis of InP/InAs/InP heterostructures we have detected an unexpected concentration of As in the last InP segment of the heterostructure. We have interpreted this result as an indication that As diffuses through the catalytic nanoparticle during growth. This demonstrates an incorporation route for group V atoms in nanowires grown by VLS. Finally, we have studied the effects of extended structural defects, like dislocations, in the morphology and structural distortions of nanowires. In this sense, we have observed the Eshelby twist in InP nanowires containing a single screw dislocation. Our results show that measured twist rates are much larger (up to 100%) than the predictions from the elasticity theory. This shows the significant change of mechanical and structural properties in nanoscale and, illustrates the important role of a careful electron microscopy studies to analyze deformations in nanostructures / Doutorado / Física da Matéria Condensada / Doutor em Ciências

Nanofios

Semicondutores III-V

Elétrons - Difração

Defeitos estruturais

Deformação estrutural

Torção de Eshelby

Crescimento vapor-líquido-sólido

Microscopia eletrônica de transmissão

Nanowires

III-V semiconductors

Electrons - Diffraction

Structutral defects

Structutral deformation

Eshelby twist

Vapor-liquid-solid growth

Transmission electron microscopy

Energy dispersed X-ray spectroscopy

Electron energy loss spectroscopy

High Magnetic Field Neutron Stars : Cyclotron Lines and Polarization

Maitra, Chandreyee

January 2013

This thesis concerns with the study of X-ray binaries which are gravitationally bound systems consisting of a compact object (either a neutron star or a black hole) and usually a non degenerate companion star, both rotating around the common centre of mass. The compact star shines brightly in the X-ray regime. Emission from these systems are powered by accretion which is the most radioactively efficient mechanism known in the universe by the release of gravitational potential energy when matter from the companion star falls on the compact object. Accretion onto high magnetic field neutron stars are special as the magnetic field plays a crucial role in governing the dynamics of gas flow and the flow of the matter close to the compact object. The radiation emitted from these systems are anisotropic and for a distant observer, the intensity is modulated at the spin period of the neutron star, hence these objects are called accretion powered pulsars. The angular pattern of the emitted radiation is also highly anisotropic and depends on the mass accreted and hence the luminosity. The beaming pattern commonly known as the pulse profiles exhibit a wide variety in the pulse shape and pulse fraction and vary with energy as well as intensity. They also exhibit cyclotron absorption features in their energy spectrum which are a direct probe to the magnetic field geometry of these systems. This thesis is dedicated to the study of the magnetic field and emission geometry of accretion powered pulsars through the pulse phase resolved studies of the cyclotron absorption features which are a direct probe of the magnetized plasma. In order to study these features in detail broadband continuum modeling of the energy spectrum is done, taking care of all other factors which may smear the pulse phase dependence. Another prerequisite for detailed continuum modeling is accounting for the low absorption dips in the pulse profiles of many these sources. The dips are presumably formed by phase locked accretion stream causing partial covering absorption when the stream is along our line of sight towards the emission region. Studying the pulse phase dependence of this partial covering absorber also provides us with important clues on the local environment of the neutron star and the structure of the accretion stream. All of these studies are performed with data from the broadband and most sensitive instruments onboard the Japanese satellite Suzuki. Lastly we provide estimates of the polarization expected to be detected from these sources by a Thomson scattering polarimeter being developed to observe the polarization of X-rays in the energy range of 5--30 keV. Along with the X-ray pulsars, we also make an estimate of the likelihood of detection of X-ray polarization from black hole X-ray binaries in different spectral states. This is a particularly interesting topic as it will play a crucial role in providing additional handles on the magnetic field geometry in accretion powered pulsars as well as constrain the fundamental parameters of a black hole like its spin.

Neutron Stars

X-Ray Binaries

X-Ray Sky

Accretion Powered X-ray Pulsars

Cyclotron Lines

Polarization (Neutron Stars)

Accretion Powered Pulsars

Black Holes (Astronomy)

Neutron Star Binaries

Broadband X-ray Spectroscopy - Pulsars

Pulse Phase Resolved Spectroscopy

X-ray - Pulsar

Pulsars

Thomson X-ray Polarimeter

Magnetic Fields (Cosmic Physics)

Astrophysics

Homogeneity and Elemental Distribution in Self-Assembled Bimetallic Pd-Pt Aerogels prepared by a spontaneous one-step gelation process

Ozaslan, Mehtap, Liu, Wei, Nachtegaal, Maarten, Frenkel, Anatoly, Rutkowski, Bogdan, Werheid, Matthias, Herrmann, Anne-Kristin, Laugier-Bonnaud, Celine, Yilmaz, H.-C., Gaponik, Nikolai, Czyrska-Filemonowicz, Aleksandra, Eychmüller, Alexander, Schmidt, Thomas J.

07 April 2017

Multi-metallic aerogels have recently emerged as a novel and promising class of unsupported electrocatalyst materials due to their high catalytic activity and improved durability for various electrochemical reactions. Aerogels can be prepared by a spontaneous one-step gelation process, where the chemical co-reduction of metal precursors and the prompt formation of the nanochain-consisting hydrogels, as a preliminary stage for the preparation of aerogels take place. However, detailed knowledge about the homogeneity and chemical distribution of these three-dimensional Pd-Pt aerogels at the nano-scale as well as at the macro-scale is still unclear to date. Therefore, we used a combination of spectroscopic and microscopic techniques to obtain a better insight into the structure and elemental distribution of the various Pd-rich Pd-Pt aerogels prepared by the spontaneous one-step gelation process. Synchrotron-based extended X-ray absorption fine structure (EXAFS) spectroscopy and high-angle annular dark-field (HAADF) scanning transmission electron microscopy (STEM) in combination with energy-dispersive X-ray spectroscopy (EDX) were employed in this work to uncover the structural architecture and chemical composition of the various Pd-rich Pd-Pt aerogels over a broad length range. The Pd80Pt20, Pd60Pt40 and Pd50Pt50 aerogels showed heterogeneity in the chemical distribution of the Pt and Pd atoms inside the macroscopic nanochain-network. Features of monometallic clusters were not detected by EXAFS or STEM-EDX, indicating alloyed nanoparticles. However, the local chemical composition of the Pd-Pt alloys strongly varied along the nanochains and thus within a single aerogel. To determine the electrochemically active surface area (ECSA) of the Pd-Pt aerogels for applications in electrocatalysis, we used the electrochemical CO stripping method. Due to high porosity and extended network structure, the resulting values of the ECSA for the Pd-Pt aerogels were higher than that for a commercially available unsupported Pt black catalyst. We show that the Pd-Pt aerogels possess a high utilization of catalytically active centers for electrocatalytic applications based on the nanostructured bimetallic framework. Knowledge about the homogeneity and chemical distribution of the bimetallic aerogels can help to further optimize their preparation by the spontaneous one-step gelation process and to tune their electrocatalytic reactivity.

Pd-Pt-Aerogele

Pd-Pt aerogels

spontaneous one-step gelation process

chemical homogeneity.

ddc:540

rvk:VA 1120