Estudos por RPE de radicais nitróxidos em matrizes diamagnéticas: determinação dos tensores g e A e interações magnéticas / EPR studies of nitroxide radicals in diamagnetic single crystals: determination of g- and A- tensors and magnetic interactions

Antonio Alonso

24 September 1982

Os radicais nitróxidos tem sido muito utilizados em estudos de sistemas biológicos através do método de marcagem de spin. Apesar do grande número de publicações sobre aplicações, o número de estudos das propriedades intrínsecas dos nitróxidos ê bem reduzido. A importância de tais estudos é grande uma vez que o estudo de um sistema simples permite avaliar e interpretar os resultados dos sistemas biológicos, geralmente mais complicados Assim no presente trabalho estudou-se o espectro do RPE do 4-hidroxi-2,2,6,6-tetrametil piperidina-1 oxil (I) introduzido como impureza na sua matriz diamagnética 4-hidroxi-2,2,6,6-tetrametilpiperidina (II). Este processo de dopagem muito utilizado em física do estado sólido permitiu a determinação dos tensores g e A. Os valores obtidos gxx = 2.0098, gyy = 2.0061, gzz = 2.0024, e A xx = 5.3 G, Ayy = 7.0 G, Azz = 35.0 G, encontram-se dentro do esperado sendo que o valor de go = 2.0061 e Ao = 15.8 G evidencia a interação do fragmento N-O com ponte de hidrogênio (de hidroxila na posição 4 de uma molécula vizinha). A existência de dois centros paramagnéticos inequivalentes é interpretada corno devido a presença de duas possíveis conformações do fragmento N-O. As larguras das linhas de RPE observadas são grandes e em certas orientações do campo magnético ocorre o desdobramento da transição eletrônica num dubleto devido a interação com o hidrogênio da hidroxiIa que faz ponte com o N-O. A temperatura de cerca de -140&#176C e observada uma mudança sensível nos espectros de RPE evidenciando a desaparição da estrutura hiperfina na região de Axx e Ayy. Esta mudança está relacionada com o congelamento da rotação dos grupos metila afetando assim a interação dos prótons destes grupos com o elétron do fragmento N-O. O sistema estudado parece ser extremamente interessante do ponto de vista do estudo de influência de prótons na relaxação eletrônica do radical nitroxido. É evidenciada a forte dependência das propriedades paramagnéticas do nitróxido em relação à estrutura da vizinhança do fragmento N-O. / Nitroxide radicals are being used in many studies of biological systems through the spin label method. Despite the great number of publications involving the application of nitroxides only a reduced number of work s about nitroxides themselves is known. These studies are important because the knowledge of the properties of simple systems could be used in the interpretation of results in biological systems, normally mare complicated. In the present work the EPR spectra of 4-hydraxy-2,2,6,6-tetramethyl piperidine-l oxyl (I) introduced as impurity in the diamagnetic matrix of 4-hidraxy-2,2,6,6-tetramethyl piperidine (II) were studied. This process commonly used in solid state physics made it possible the determination of the g and A tensors. The values obtained : gxx = 2.0098, gyy = 2.0061, gzz = 2.0024, and A xx = 5.3 G, Ayy = 7.0 G, Azz = 35.0 G are typical for nitroxides. The mean values go = 2.0061 and Ao 15.8G are consistent with the presence af hydrogen bond to the N-O fragment (this bond is made with the proton of a hydroxyl in position 4 of a neighbour molecule). The existence of two magnetically inequivalent centers is interpreted so that two different conformations for the N-O fragment are possible. The line widths of the EPR lines are quite great and for some orientations of the magnetic field a splitting of the electronic transition in to a dublet occur. This splitting is due to the interaction of the electron in the N-Q fragment with the hydroxyl hydrogen which is bonded to the nitroxide group. At a temperature around -140&#176C a change in the EPR spectra is observed, when the hyperfine nitrogen structure in the region of A and A disappear. This change x y is related to the freezing of the rotation of the methyl groups affecting the interaction of the protons of these groups with the electron in the N-O. The system studied in the present work seems to be very interesting from the point of view of the influence of the protons in the electronic relaxation in the nitroxide radical. ln this context the strong dependency of the properties of the nitroxide relative to the structure of the neighbouring of the N-O fragment become evident.

Interações magnéticas

Monocristal

Radicais nitróxidos

RPE

Tensor A

Tensor g

A-tensor

EPR

G-tensor

Magnetic interactions

Nitroxide radicals

Single crystal

Films de diamant monocristallin dopés au bore pour des applications en électronique de puissance / Boron doped monocrystalline diamond films for power electronic applications

Barbay, Cyrille

27 November 2018

L’objectif de cette thèse porte sur la synthèse du diamant monocristallin dopé au bore par dépôt chimique en phase vapeur assisté par plasma micro-onde (MPCVD). Ces couches épitaxiées jouent le rôle de couches actives dans des composants pour l’électronique de puissance. Ces travaux s’inscrivent dans le cadre du projet Européen H2020 Greendiamond. Durant cette thèse, un traitement de gravure des défauts surfaciques des substrats de diamant HPHT par plasma Ar/O₂ a été mis au point. L’efficacité de ce traitement a été validée par diffraction des rayons X à haute résolution, spectroscopie Raman et cathodoluminescence. Cette étape s’est révélée essentielle pour l’amélioration des propriétés de transport de couches de diamant dopées au bore pour les applications en électronique.L’optimisation des conditions de croissance de couches de diamant faiblement dopées au bore (<10¹⁶ at.cm⁻¹) a permis la synthèse de films homoépitaxiés allant jusqu’à 5 µm d’épaisseur présentant une haute qualité cristalline. Les propriétés structurales et de transport de ces couches ont été corrélés en combinant différentes méthodes comme la spectroscopie Raman, la cathodoluminescence, la topographie X, l’imagerie MEB des défauts, les mesures par temps de vol et des mesures de Hall.Ces films de diamant dopés au bore ont été intégrés avec succès dans des composants électroniques comme des MESFET ou des diodes Schottky. / This PhD aims to synthetize boron doped single-crystal diamond epilayers by Micro-Wave Plasma Chemical Vapor Deposition (MPCVD) as active layers for power electronic devices. This work was performed in relation with the European H2020 Greendiamond project. A powerful Ar/O₂ plasma etching was optimized which allows the efficient elimination of defects in the subsurface of HPHT diamond substrates as confirmed by High Resolution X-ray Diffraction, Raman spectroscopy and Cathodoluminescence. This step proved to be crucial for the improvement of low boron doped-diamond layers carrier properties for electronic purposes.The optimization of growth conditions performed on low boron-doped diamond layers (<10¹⁶ at.cm⁻³) enabled the synthesis of high quality doped layers, 5 µm thick. The structural and transport properties of these layers were correlated by different techniques: Raman spectroscopy, Cathodoluminescence, X-Ray Topography, SEM imaging of defects, Transient Current Technique, Hall measurements.Finally, low boron doped epilayers were integrated with success in electronic devices such as MESFET or Schottky diodes.

Croissance CVD

Diamant monocristallin

Défauts cristallins

Dopage au bore

CVD growth

Single-crystal diamond

Crystal defects

Boron doping

Charakterizace materiálů pro perovskitové solární články transientními metodami / Characterization of perovskite solar cell materials by transient techniques

Nakládal, Martin

January 2020

This thesis deals with the study of the lifetime of charge carriers in perovskite single crystals. The principle of perovskite solar cells is formulated, their main structures are characterized and the history of the development of perovskite solar cells is summarized, especially in terms of efficiency. The properties of perovskite single crystals with perovskite solar cells are compared. For measurement purposes, transient methods, impedance spectroscopy, load characteristics and the dependence of sensitivity and photocurrent on the wavelength of incident radiation are described. The practical part deals with the method of measuring and evaluating the lifetime of charge carriers in the investigated perovskite single crystals.

Fluorine-Free Phosphorus-Based Ionic Materials and Electrolytes

Xu, Yanqi

January 1900

Due to the successful commercialization of lithium-ion batteries (LIBs), there is a growing interest in developing new battery materials with beneficial electrochemical properties. However, the uneven distribution of lithium resources and the low abundance of lithium in the earth crust are the main obstacles for further development and large-scale production of LIBs. Sodium-ion batteries (SIBs), an alternative that can partly meet the energy storage challenges, are getting attentions of researchers due to the wide availability and lower cost of sodium resources. Nevertheless, the conventional liquid electrolytes of either LIBs or SIBs composed of fluorinated salts dissolved in volatile organic solvents, posing serious safety issues due to the instability of the salts and flammability of the solvents. There is an urge to develop new fluorine-free electrolytes with improved physicochemical and electrochemical properties. In this context, the conventional fluorinated salts should be replaced with fluorine-free salts and the flammable solvents should be substituted with non-flammable solvents. There are a number of strategies to develop high-performant electrolytes including ambient-temperature ionic liquids (ILs), organic ionic plastic crystals (OIPCs) and highly concentrated electrolytes (HCEs) utilizing new salts and solvents. In this thesis, novel phosphorus-based ionic materials and electrolytes are introduced and their properties are thoroughly investigated. In the first part (Paper I), fluorine-free NaDEEP salt and TEOP solvent are employed to make “solvent-in-salt” (SIS) sodium electrolytes, also known as HCEs. Unexpectedly, the addition of TEOP solvent lead to an increase in the oxidation stability of the SIS electrolytes. In addition, an unusual ionic conductivity behavior is found – the ionic conductivities of Na electrolytes increase with increasing salt concentration. The “salt-rich” and “solvent-rich” phases formed within the electrolytes are investigated using multinuclear liquid-state NMR spectroscopy and NMR diffusometry. In the second part (Paper II), a series of orthoborate-based ionic materials, specifically OIPCs, containing phosphonium/ammonium cations are prepared to compare with the popular fluorine-free, bis(oxalato)borate (BOB) salts. The tetrabutyl phosphonium bis(glycolato)borate ([P4444][BGB]) OIPC displays much higher decomposition temperature than the structural analogous [P4444][BOB] IL. The crystal structures of LiBGB and NaBGB salts are resolved using single-crystal X-ray diffraction analysis. Unlike LiBOB, the BGB-based salts revealed excellent moisture stability over an extended time of up to 8-weeks air exposure. Multinuclear solid-state NMR spectroscopy indicates weaker cation-anion interactions in phosphonium-based salts than the ammonium-based ones. Finally, in the third part (Paper III), two-component and three-component eutectic electrolytes, composed of pyrrolidinium saccharin (PySc), lithium saccharin (LiSc) and/or [P4444][BGB] salt. The resulting mixtures showed significantly lower melting temperatures than the neat salts. The physicochemical and thermal properties of these salts are thoroughly investigated and discussed.

Fluorine-free electrolytes

Physiochemical properties

Nuclear magnetic resonance

Ion interactions

Single crystal structures

Physical Chemistry

Fysikalisk kemi

Structural studies of organic crystals of pharmaceutical relevance. Correlation of crystal structure analysis with recognised non-bonded structural motifs in the organic solid state

Essandoh, Ernest

January 2009

Pharmaceutical solids tend to exist in different physical forms termed as polymorphs. Issues about pharmaceutical systems are mainly concerned with the active ingredient's physico-chemical stability and bioavailability. The main aim of this study is to investigate the non-bonded interactions in pharmaceutical solids that govern the physical pharmaceutics performance of such materials and through the use of structural techniques and correlation of these results with crystal structural database to establish the presence of physical motifs in selected systems. Structural motifs were identified by the use of single crystal and crystal packing analysis on diverse range of pharma-relevant materials including chalcones, cryptolepines, biguanides and xanthines. These selected systems were validated using functional group and molecular analysis and correlating them to the Cambridge Structural Database. Crystallization studies are done on these selected systems as well as exploiting those using synthetic analogues. A total of 51 crystal structures were investigated including 16 new structure determinations. Addition synthesis of new xanthines to investigate novel intermolecular patterns was also undertaken. The understanding and exploitation of intermolecular interactions involving hydrogen bonds and coordination complexation during packing can be used in the design and synthesis of solid state molecular structures with desired physical and chemical properties.

Single crystal structure

; Structural motifs

; Pharmaceutical solids

; Polymorph

; Physico-chemical stability

; Chalcones

; Cryptolepines

; Biguanides

; Xanthines

; Crystallization studies

Crystal Chemistry of U and Th in Apatite

Luo, Yun

30 April 2010

No description available.

Mineralogy

apatite

fluorapatite

uranium

thorium

single crystal XRD

X-ray absorption spectroscopy

XANES

EXAFS

micro-XAS

orientation dependent

polarization

Synthesis, Characterization, and Reactivity of Novel Zinc Coordination Complexes

Ritch, Grayson D.

16 May 2014

No description available.

Chemistry

Inorganic Chemistry

Polymer Chemistry

SYNTHESIS AND ELECTROCATALYSIS OF METAL NANOMATERIALS

Tang, Yongan

19 June 2014

No description available.

Chemistry

Materials Science

Growth and Characterization of Sr2RuO4 and Sr2RhO4 / Growth and Characterization of Strontium Ruthenate (214) and Strontium Rhodate (214)

Mortimer, Kevin

January 2014

With reference to some figures reproduced in this thesis: "Readers may view, browse, and/or download material for temporary copying purposes only, provided these uses are for noncommercial personal purposes. Except as provided by law, this material may not be further reproduced, distributed, transmitted, modified, adapted, performed, displayed, published, or sold in whole or part, without prior written permission from the American Physical Society." / We report on the growth and characterization of strontium ruthenate (214) (Sr2RuO4) and strontium rhodate (214) (Sr2RhO4) in efforts to test their agreement with Landau-Fermi liquid theory using optical measurements. We begin by reviewing the theory of Landau-Fermi liquids and the frequency and temperature dependent conductivities. We review existing work on both Sr2RuO4 and Sr2RhO4 including evidence of agreement with Landau-Fermi liquid theory. We also describe optical floating zone crystal growth and the exact procedures we used to prepare samples of both Sr2RuO4 and Sr2RhO4 via optical floating zone. The resulting Sr2RuO4 crystals were characterized using AC susceptibility measurements and Sr2RhO4 by powder diffraction, single crystal diffraction, and SQUID magnetization measurements. Finally, early optical reflectivity measurements at low temperatures are presented. / Thesis / Master of Science (MSc) / Crystals of Sr2RuO4 and Sr2Rho4 were grown by the author in an effort to study changes of their resistivity with varying temperature and frequency at low temperatures. The crystals were characterized using a variety of x-ray and other techniques, so as to measure their purity. Past work on these materials is discussed and analyzed. Preliminary measurements of the resistivity are presented.

crystal growth

characterization

optical spectroscopy

sr2ruo4

sr2rho4

powder diffraction

single crystal diffraction

squid

ellipsometry

optical floating zone

Structural Study of Heterogeneous States in Lead-free NBT-based Single Crystals

Luo, Chengtao

13 December 2016

Growing environmental concerns, coupled with increasing regulatory restrictions, are requiring industries to develop non-lead-based compositions of ferroelectric and piezoelectric materials. These materials—now widely used in sensors, actuators, and transducers—are for the most part lead-based compounds such as Pb(Zr,Ti)O₃ (PZT). Indeed, PZT represents the dominant market share for use in these technologies. Moreover, next generation compounds, which include Pb(Mg_1/3Nb_2/3)O₃-xat%PbTiO₃ (PMN-x%PT) crystals with ultrahigh piezo-/electromechanical properties, are also Pb-based systems and thus are problematic for meeting more restrictive environmental standards. As alternative, Pb-free ferroelectrics such as NBT-derived single crystals represent viable next-generation materials for use in ferro-/piezoelectric applications. Development of these types of NBT-based crystals has made important advancements in the last decade. In fact, the performances of NBT-based materials are beginning to approach the properties of the widely used commercial PZT ceramic material. Nonetheless, additional studies are needed before it being able to compete with PMN-x%PT and PZN-x%PT crystals in next-generation applications. As a new type of piezoelectric material, much remains to be learned about Pb-free piezoelectric crystals. For instance, in addition to enhancing our understanding the nature of the piezoelectric third-rank tensor coefficients such as d₃₃ and d₁₅, a thorough knowledge of the Curie temperature, leakage current, and electromechanical properties is also essential for increasing the applications potential of these crystals. As detailed herein, multiple dopants may have to be incorporated into NBT to modify its microstructure and properties to meet these specific requirements, which may further complicate its chemical structure-property relationships. This study, therefore, was designed to investigate the heterogeneous structure of NBT-based single crystals, using x-ray diffraction, transmission electron microscopy, and neutron inelastic scattering, with the goal of investigating the mechanism coupling of morphotropic phase boundary (MPB) and the maximum property responses in A-site disordered perovskite Pb-free piezoelectric systems. Using the framework of polar nanoregions and adaptive phase theory, I sought to determine how the nanostructure of these single crystals change with temperature and composition—and how these factors impact its properties. Diffuse scattering, domain morphology, and phonon dispersions were used to investigate both the static and dynamic properties of these heterogeneous structures. / Ph. D.

lead-free ferroelectrics

single crystal

heterogeneous structure

x-ray diffraction

neutron inelastic scattering

diffuse scattering

transmission electron microscopy

polar nanoregion