Experimental study of nanoscale metal clusters using synchrotron radiation excited photoelectron spectroscopy

Mikkelä, M.-H. (Mikko-Heikki)

21 January 2013

Abstract In this work an experimental study of size varied, neutral, and free metal clusters using synchrotron radiation excited photoelectron spectroscopy was performed. The combined core-level and valence photoelectron spectroscopic investigation indicates metallic properties for nanoscale Rb, K, Sn, and Bi clusters. In the case of Sn the experimental results suggest a metal-to-insulator transition occurring at the studied size range. In addition to the experimental results the technical implementation of the cluster production set-up is presented and jellium-model-based simulations are compared with the experimental results of the Rb and K clusters.

cluster formation

core-level photoelectron spectroscopy

electron spectroscopy

jellium model simulations

metal clusters

metallic properties

synchrotron radiation

valence photoelectron spectroscopy

Coulomb explosion imaging of polyatomic molecules after photoionization with X-rays and strong laser fields

Ablikim, Utuq

January 1900

Doctor of Philosophy / Department of Physics / Daniel Rolles / Imaging the structures of molecules, understanding the molecular dynamics in onization and dissociation processes and, most importantly, observing chemical reactions, i.e. the making and breaking of chemical bonds in real time, have become some of the most exciting topics in the atomic and molecular physics. The rapid advances of experimental tools such as synchrotron radiation light sources, free-electron lasers and continuing advances of tabletop femtosecond ultrashort lasers that provide laser pulses at a variety of wavelengths have opened new avenues for understanding the structure of matter and the dynamics of the chemical interactions. In addition, significant improvements in computational techniques and molecular dynamic simulations have provided complementary theoretical predictions on structures and chemical dynamics. The Coulomb explosion imaging method, which has been developed and applied in many studies in the last three decades, is a powerful way to study molecular structures. The method has mostly been applied to small diatomic molecules and to simple polyatomic molecules. In this thesis, Coulomb explosion imaging is applied to study the structure of isomers, molecules that have the same chemical formula but different chemical structures. Specifically, by taking inner-shell photoionization as well as strong-field ionization approaches to ionize and fragment the molecules and by using coincidence electron-ion-ion momentum imaging techniques to obtain the three-dimensional momentum of fragment ions, structures of isomers are distinguished by using the correlations among product ion momentum vectors. At first, the study aims to understand if the Coulomb explosion imaging of geometrical isomers can identify and separate cis and trans structures. Secondly, in order to extend the application of the Coulomb explosion imaging method to larger organic molecules to test the feasibility of the method for identifying structural isomers, photoionization studiesof 2,6- and 3,5-difluoroiodobenzene have been conducted. In addition, using the full three-dimensional kinematic information of multi-fold coincidence channels, breakup dynamics of both cis/trans geometric isomers and structural isomers, and in particular, sequential fragmentation dynamics of the difluoroiodobenzene isomers are studied. Furthermore, for each study, Coulomb explosion model simulations are conducted to complement the experimental results. The results of the Coulomb explosion imaging reseach in this thesis paves the way for future time-resolved Coulomb explosion imaging experiments aiming to understand the transient molecular dynamics such as photoinduced ring opening reactions and cis/trans isomerization processes in gas-phase molecules.

Coulomb explosion imaging

Velocity map imaging

cis trans isomers

Coincidence Imaging

X-ray synchrotron

Mechanically induced degradation of diamond

Van Bouwelen, Franciscus Maria

January 1996

No description available.

620.11223

Chemistry and physics of diamond surfaces

Domke, Andreas

January 1999

This thesis is concerned with the chemistry and physics of C(100) surfaces of diamond. The polished and cleaned C(100) surface is examined by surface microscopy (Atomic-force Microscopy), electron diffraction (Low-energy Electron Diffraction) and photoemission (X-ray Photoelectron Spectroscopy and Ultra-violet Photoelectron Spectroscopy). Results are presented on the presence of oxygen, nitrogen and hydrogen/deuterium on the C(100) surface. Finally, the valence band structure of diamond is probed by angle-resolved photoemission. We have confirmed by AFM that the grooves from the soft polishing process are present on a polished C(100) surface and found sporadic traces of hard polish on a surface polished in the soft polishing direction. XPS studies have verified heating cycles by electron beam bombardment as a suitable cleaning procedure for pure reconstructed C(100) surfaces. By allowing the crystal to cool slowly, the first experimental evidence of quarter-order LEED spots have been found, which suggest that buckled dimerisation might have occurred similar to those on Si(100) and Ge(100). We present the first experimental electron spectroscopy results for a nitrogen impurity in diamond by showing the N KLL Auger spectrum. An attempt to smooth a C(100) surface of diamond by an atomic hydrogen plasma did not succeed. AFM studies showed no evidence for the surface smoothing reported in other studies, but the results enable us to explain the different plasma published in the literature. The valence band of diamond is investigated by off-normal ARUPS. The features observed are consistent with possible transitions, which are determined using bulk band structure calculations and comparison with the experimental binding energies.

541

Etude par spectro-microscopie électronique d'aciers ODS non irradiés et implantés par hélium / Electron spectro-microscopy study of damage free and Heimplanted ODS steels

Badjeck, Vincent

01 March 2016

Des aciers renforcés par dispersion de nano-particules d'oxide de titane et d'yttrium (Y-Ti-O ODS), irradiés et non irradiés, ont été éxaminés par microscopie électronique en transmission à balayage couplée à la spectroscopie de perte d'énergie des électrons (STEM-EELS) pour étudier leurs structures chimiques et les effets des radiations. Des méthodes analytiques telles que l'analyse statistique multivariée (MVA) et l'ajustement de courbes sur les spectres EELS sont utilisées afin de réaliser une quantification élémentaire ou d'étudier les structures fines des seuils (ELNES). Les traitements MVA permettent d'extraire les réponses spectrales indépendantes des spectre-images (SI) pour mieux comprendre la distribution spatiale des états de valence des différentes expèces. L'observation de poudres d'ODS après le broyage (MA) montre que les nano-particules (NPs) précipitent durant le traitement thermique qui suit, (consolidation). Pour les échantillons consolidés et non irradiés, les particules de taille moyenne (> 3-4 nm) adoptent une structure pyrochlore imparfaite (Y2Ti2O7-d) avec une structure coeur-coquille (Y-Ti-O)-Cr complétée par une couche de Ti réduit également dépourvue en Y. Une ségrégation de Cr est également observée aux joints de grains. Le ratio O/Ti de 3.2 et la non homogénéité de la distance entre plans (222) est due à des défauts dans la structure de la particule, confirmant ainsi qu'elles présentent de nombreux défauts et sont non stoechiométriques. L'ICA nous permet de générer des cartes d'état de valence mais aussi d'extraire une réponse interfaciale Ti-Cr; à l'interface, les atomes Ti et Cr diffusent sur une distance de quelques Å. Pour les plus petites particules, nos résultats montrent qu'elles peuvent consister soit en une structure pyrochlore hautement déficiente en oxygène (Y2Ti2O6+d) soit en une structure chimique inconnue YaTibOc. Le ratio O/Ti diminue de 3-3.5 vers des valeurs inférieures à 1 pour des tailles allant de 4 à 1.8 nm. Les plus grandes particules (de quelques dizaines à quelques centaines de nm), des oxides et/ou nitrures Ti-O, N-Ti, Y-Ti-O ne représentent qu'une faible proportion du nombre total des NPs (< 1%). Pour étudier les effects des irradiations aux neutrons, un certain nombre d'échantillons ODS furent implantés avec des ions He+ et irradiés avec des ions Fe+. Après l'irradiation et l'implantation, une distribution homogène de bulles d'He à haute pression est observée ainsi que des déplétions, ségrégations et précipitations de Cr induites par irradiation (RID, RIS et RIP). Les bulles sont fréquemment observées piégées à l'interface NP-matrice, cependant elles sont aussi observées piégées par des dislocations, libres dans la matrice et aux joints de grains. Le seuil He-K (21.218 eV pour les atomes libres) se déplace vers des énergies plus hautes (ΔE = 0.5 à 4 eV); nous montrons que ce déplacement est corrélé avec la densité d'He. La quantification de l'He est réalisée à l'aide de trois méthodes différentes: différence spatiale, ajustement de courbes, MVA. Les valeurs de la densité et de la pression atteignent 100 nm-3 et 8 GPa respectivement. Cependant, avec des barres d'erreur pouvant atteindre 30%, les mesures de la pression sont plutôt semi-quantitatives. La méthode d'ajustement de courbes permet une cartographie de la position et de l'intensité du pic He-K et donc une cartographie de la densité pour des bulles individuelles. Les réponses spectrales de bulles individuelles peuvent être extraites d'un SI contenant plusieurs bulles à différentes densités en utilisant l'ICA ou l'analyse de la composante vertex (VCA). Nos mesures montrent que les bulles plus grandes que 4 nm sont sous préssurisées ou à l'équilibre avec la matrice Fe-Cr. En dessous de 3.5 nm, la pression de l'He augmente rapidement, correspondant à un état surpressurisé. / Irradiated and non-irradiated (Y-Ti-O) oxide-dispersion-strengthened (ODS) steels are investigated by scanning transmission electron microscopy coupled with electron energy-loss spectroscopy (STEM-EELS) to study their chemical structure and the effects of radiation. Analytical methods such as multivariate statistical analysis (MVA) and EELS curve-fitting are carried out to achieve elemental quantification or study the edge fine structures (ELNES). Using MVA, the spectrum-images (SI) can be separated into independent spectral responses to gain insights into the valence state of various elements such as Ti or Cr. Investigations on post-mechanical-alloyed (MA) powders show that the nanoparticle (NP) precipitation occurs only after a further high-temperature treatment (consolidation). In non-irradiated consolidated samples, medium-sized NPs (> 3-4 nm) are found to adopt a Y2Ti2O7-d defective pyrochlore structure with a (Y-Ti-O)-Cr core-shell structure with a reduced-Ti layer also depleted in Y. Cr is also shown to segregate to the grain boundaries in non-irradiated samples. The measured O/Ti ratio of 3.2 found for medium-sized NPs and the observed non-homogeneity of the inter-reticular distance d222 through the particle is interpreted as being due to defects in the particles’ structure; it is indeed confirmed that Y2Ti2O7 medium-sized NPs in ODS steels present numerous defects and are non-stoichiometric. The Ti oxidation state is shown to vary from the centre of the NPs to their periphery from Ti4+ in distorted Oh symmetry to a valency often lower than 3+. Independent component analysis (ICA) allows us to generate bonding maps and extract a Ti-Cr interfacial response. An inter-diffusion of Ti and Cr atoms is observed at this interface. The smallest NPs present a different and ill-defined structure and interface with the Fe-Cr matrix. They either consist of a highly oxygen-deficient pyrochlore structure (Y2Ti2O6+d) or an unknown YaTibOc chemical structure. The O/Ti ratio decreases from 3-3.5 to below 1 for an NP size going from 4 to 1.8 nm. A few large particles (sized from tens to hundreds of nm) present a N-Ti-O or Ti-O chemistry but represent only a small percentage of all the NPs (< 1%). To study the neutron irradiation-induced changes, a number of ODS samples were implanted with He+ ions and irradiated with Fe+ ions. After irradiation, they display a homogeneous distribution of high-pressure He bubbles and radiation-induced Cr depletion, segregation and precipitation (RID, RIS and RIP). The He bubbles are frequently trapped at the NP-matrix interface, although bubbles can exist freely in the matrix, trapped by dislocations and at grain boundaries. The He-K line (21.218 eV for free atoms) shifts to higher energy in the bubbles (ΔE = 0.5 to 4 eV); this is shown to be correlated with the He density. He quantification is carried out with three different methods: spatial difference, curve-fitting and MVA. The density and pressure values are found to reach 100 nm-3 and 8 GPa respectively, although the pressure measurement is only semi-quantitative given that the error bars can reach 30%. The curve-fitting method allows us to map the He-K energy position and intensity, yielding the density, in individual bubbles. The spectral response of individual bubbles can be separated in an SI containing many bubbles at different densities using ICA or vertex component analysis (VCA). Bubbles larger than 4 nm are shown to be under-pressurized or at equilibrium with the Fe-Cr matrix. Below 3.5 nm, the He pressure is shown to increase markedly, passing into the over-pressurised regime.

Acier

Nucléaire

Spectroscopie électronique

Microscopie électronique

Oxydes

Mva

Steel alloys

Electron spectroscopy

Electron microscopy

Nuclear

Oxide

Mva

Magnetische und elektronische Eigenschaften von Übergangsmetalloxid-Nanostrukturen

Hellmann, Ingo

24 September 2009

Die eingereichte Dissertation befasst sich mit Übergangsmetalloxid-Nanostrukturen, wobei quasi-eindimensionale Materialien im Mittelpunkt stehen, z.B. Nanoröhren und Nanostäbe. Mittels Suszeptibilitäts- bzw. EELS-Messungen wurden magnetische und elektronische Eigenschaften verschiedener Nanoverbindungen untersucht. Zur weiteren Charakterisierung der Proben wurden außerdem Magnetisierungsmessungen (VSM, Pulsfeld), optische Spektroskopie, AC-Suszeptibilitätsmessungen, Messungen der spezifischen Wärme sowie NMR- und ESR-Experimente durchgeführt. Ein Schwerpunkt dieser Arbeit sind Vanadiumoxid-Verbindungen, wobei Vanadiumoxid-Nanoröhren (VOxNT) aufgrund ihrer besonderen Morphologie eine Sonderstellung unter den vorgestellten Materialien besitzen. Suszeptibilitätsmessungen an den VOxNT offenbaren aktiviertes Verhalten bei Temperaturen T &amp;gt; 100 K, was auf V4+-Spindimere zurückgeführt werden kann. Zudem existieren quasi-freie V4+-Momente sowie längere Spinkettenfragmente, z.B. Trimere. Elektronische Anregungen im Valenzband können wahrscheinlich dem Platzwechsel von 3d-Elektronen zwischen V4+- und V5+-Plätzen innerhalb der gemischtvalenten V-O-Ebenen zugeschrieben werden. Durch Dotierung mit Alkalimetallen ist es möglich, die V 3d-Niveaus mit zusätzlichen Elektronen zu besetzen und dadurch die Vanadiumvalenz zu beeinflussen (V5+ -&amp;gt; V4+ -&amp;gt; V3+). Die dabei auftretenden stärkeren Coulombabstoßungen zwischen den V 3d-Elektronen beeinträchtigen die Mobilität der Ladungsträger. Ebenso wurde gezeigt, dass sich durch die Dotierung mit Ammoniak und anderen Übergangsmetallionen die Vanadiumvalenz sowie der Magnetismus der VOxNT beeinflussen lassen. Die Ergebnisse von weiteren Vanadiumoxid-Nanostrukturen - Co0.33V2O5, alpha-NaV2O5, VO2(B) sowie V3O7·H2O-Nanokristallen - zeigen, dass sehr unterschiedliches magnetisches Verhalten wie Paarbildung zwischen V4+-Spins, antiferromagnetisch gekoppelte Spinketten oder ein Phasenübergang zwischen zwei paramagnetischen Temperaturbereichen auf Nanoebene realisiert werden kann. Die magnetischen Eigenschaften von MnO2-Nanostäben sind durch starke Kopplungen und Frustration zwischen den Mn-Spins gekennzeichnet. Außerdem zeigt die Verbindung Merkmale eines Spinglases. Durch Dotierung mit Elektronen lässt sich bei diesem Material die Mn-Valenz verändern. Schließlich zeigen erste Charakterisierungsmessungen an übergangsmetalldotierten MoO3-Nanobändern paramagnetisches Verhalten dieser Systeme.

info:eu-repo/classification/ddc/530

ddc:530

Μελέτη διεπιφανειών οξειδίων με ανόργανα και οργανικά υποστρώματα

Σκουλατάκης, Γεώργιος

11 October 2013

Στην παρούσα εργασία μελετήθηκαν λεπτά υμένια οξειδίου του αλουμινίου (Al2O3) και οζειδίου του ζιρκονίου (ZrO2). Η ανάπτυξη των οξειδίων έγινε πάνω σε υπόστρωμα γερμανίου (Ge) με την τεχνική εναπόθεσης ατομικού στρώματος (Atomic Layer Deposition, ALD). Επίσης μελετήθηκαν υμένια οξειδίου του βολφραμίου (WO3), των οποίων η εναπόθεση έγινε με δυο διαφορετικές τεχνικές, πάνω σε υπόστρωμα P3HT:PCBM. Η μελέτη πραγματοποιήθηκε σε συνθήκες υπερυψηλού κενού (Ultra High Vacuum, UHV) με επιφανειακά ευαίσθητες τεχνικές. Κύριος στόχος αυτής της εργασίας, είναι για τα οξείδια αλουμινίου και ζιρκονίου η διερεύνηση της χημικής σύστασης και της ηλεκτρονιακής δομής ενώ θα γίνει μια εκτίμηση του πάχους των υμενίων καθώς και σύγκριση με την αναμενόμενη τιμή συμφωνα με την διαδικασία παρασκευής. Για οξείδια του βολφραμίου έγινε μελέτη τόσο της επιφανειακής χημικής σύστασης όσο και της ηλεκτρονιακής δομής της διεπιφάνειας του οξειδίου του βολφραμίου (WO3) με το υπόστρωμα P3HT:PCBM καθώς και μία σύγκριση των αποτελεσμάτων ανάμεσα στην εξάχνωση με δέσμη ηλεκτρονίων (Electron Beam Evaporation) και τη μέθοδο διαλύματος-πηκτώματος (Sol-Gel) τεχνικές οι οποίες χρησιμοποιήθηκαν για την εναπόθεση των υμενίων οξειδίου του βολφραμίου. / In the present work,studied thin films of aluminum oxide (Al2O3) and zirconium oxide (ZrO2) thin films. Atomic Layer Deposition technique (ALD) was used for the growth of oxide on the germanium (Ge) substrate. Also studied films of tungsten oxide (WO3), which were deposited with two different techniques, onto P3HT:PCBM substrate. The study was conducted under conditions of UHV (Ultra High Vacuum) using surface sensitive techniques. The main objective of this work was to investigate the chemical composition and electronic structure and make an estimate of the thickness of aluminum oxide and zirconium oxide thin films. The thickness was compared with the expected value according to the manufacturing process. For the tungsten oxides were studied the surface chemical composition and the electronic structure of the WO3/P3HT:PCBM interface as well as a comparison of results between the Electron Beam Evaporation and Sol-Gel method, techniques which were used for the deposition of thin films of tungsten oxide.

Οξείδιο του ζιρκονίου

541.33

Electron spectroscopy

Aluminum oxide (Al2O3)

Zirconium oxide (ZrO2)

Tungsten oxide (WO3)

XPS

P3HT:PCBM

Synchrotron Radiation Studies of Free and Adsorbed Molecules

Bao, Zhuo

January 2008

<p>This thesis contains two parts. The first part concerns the research work on free molecules using synchrotron-radiation-related techniques. Auger electron spectra of two free open-shell molecules, O₂ and NO, were studied experimentally and theoretically. Photoionization experimental technique with tunable synchrotron radiation source was used to induce core-level electron ionization and obtain the <i>KVV</i> normal Auger electron spectra. A quantitative assignment of O₂ normal Auger spectrum was obtained by applying <i>ab initio</i> CI calculations and LVI Auger line shape simulations including the bond length dependence of Auger transition rates. The photon energy dependence of normal Auger electron spectra was focused on with photon energies in the vicinities of core-ionization threshold energies. Consequently, the MAPCI (Molecular Auger Post Collision Interaction) theory was developed. Taking the near-threshold O₂ normal Auger spectrum as an example, the two extreme cases of MAPCI effect, “atomic-like PCI” and “molecular PCI”, were discovered and discussed. The effect of shape resonance on near-threshold molecular normal Auger spectrum was discussed taking NO near threshold normal Auger spectra as example.</p><p>The second part deals with research work on the chemisorption of small epoxy organic molecules, ethylene oxide, methyl oxirane, on Si (100) surfaces. Synchrotron radiation related techniques, UPS, XPS and NEXAFS, were applied. Based on the valence photoemission spectra, C 1<i>s</i> and Si 2<i>p</i> XPS spectra, the epoxy ring opening reactions of these molecules in chemisorption process were proved. Further tentative search for the surface-adsorbate CDAD effect was performed, and no evident circular dichroism was confirmed.</p>

Physics

Synchrotron radiation

Auger electron spectroscopy

one-step model

Post Collision Interaction (PCI)

theoretical modeling

molecules

adsorbates

UPS

XPS

XAS

NEXAFS

Fysik

Transmission electron microscopy of defects and internal fields in GaN structures

Mokhtari, Hossein

January 2001

No description available.

530.41

The optical anisotropy of the Au(110) surface

Sheridan, Benedict

January 2000

No description available.

530.41