Matrix induced effects in the MCD spectra of isolated metal atoms

Singer, R.

January 1986

No description available.

539.7

Magnetic circular dichroism

A dynamic ensemble model for intensity parameters in chiroelectronic spectroscopy.

Miedzinska, K. M. E. (Katarzyna Malgorzata Ewa), Carleton University. Dissertation. Chemistry.

January 1992

Thesis (Ph. D.)--Carleton University, 1992. / Also available in electronic format on the Internet.

Detection of metalloporphyrins in crude petroleum using magnetic circular dichroism.

Warner, Jeffrey A. (Jeffrey Andrew), Carleton University. Dissertation. Chemistry.

January 1992

Thesis (M. Sc.)--Carleton University, 1992. / Also available in electronic format on the Internet.

Dicroísmo circular magnético no espectro de absorção em calcógenos de európio / Magnetic Circular Dichroism in the Absorption Spectrum in Europium Chalcogenides

Manfrini, Maurício Alarcon

18 June 2007

Os calcógenos de európio (EuX, onde X representa O, S, Se ou Te) possuem propriedades magneto-ópticas únicas e interessantes, devido ao enorme magnetismo gerado dos elétrons na camada f do átomo pertencente a família dos terras raras, tornando estes materiais atraentes para aplicações na spintrônica (eletrônica baseada nos transporte de spins e não de carga). Neste trabalho investigamos em baixa temperatura o espectro de absorção utilizando luz circularmente polarizada na região próxima do limiar da banda para o telureto de európio EuTe e o seleneto de európio EuSe em alto campo magnético no ordenamento ferromagnético dos spins de Eu^{2+} da rede cristalina. As amostras crescidas por epitaxia por feixe molecular apresentaram um dicroísmo circular magnético intenso no espectro de absorção para a configuração de Faraday. O par de linhas estreitas observadas estão separadas de aproximadamente 200 meV para o EuTe e 300 meV para o EuSe. Em seguida, formulamos um modelo teórico para a interpretação deste espectro de absorção no arcabouço do modelo de transições eletrônicas entre o estado fundamental 4f^{7}({8}^S_{7/2}) e o estado excitado formado dos estados do caroço remanescente 4f^{6}({7}^F_{J=0...6}) mais o estado em que o elétron se encontra na banda de condução 5d(t_{2g}), resultando em uma excelente concordancia qualitativa e quantitativa com o experimento. / Europium chalcogenides (EuX, where X stands for O, S, Se or Te) have very interesting and unique magneto-optical properties, due to the huge magnetism that arises from the electrons in the f?shell of the rare earth element and which makes them attractive for spintronics applications ( spin transport electronics or spin basedelectronics) In this work we investigate the band-edge optical absorption in high magnetic fields in the Faraday geometry for EuTe and EuSe in the ferromagnetic order attained at low temperatures. In thin layers grown by molecular beam epitaxy, an intense magnetic circular dichroism were observed. The doublet of absorption lines showed a separation by about 200meV in EuTe and 300meV in EuSe. Next, we developed a theoretical model for the interpretation of the absorption spectrum, based in the framework of the model of an electronic transition from a localized ground state 4f^{7}({8}^S_{7/2)) to an excited state formed by the core states 4f^{6}({7}^F_{J=0...6}) and the electron extended state in the 5d(t_{2g}) conduction band, yielding an excellent qualitative and quantitavie agreement with experiment.

Dicroísmo Circular Magnético

Magnetic Circular Dichroism

Magnetic Semiconductors

Semicondutor Magnético

Dicroísmo circular magnético no espectro de absorção em calcógenos de európio / Magnetic Circular Dichroism in the Absorption Spectrum in Europium Chalcogenides

Maurício Alarcon Manfrini

18 June 2007

Os calcógenos de európio (EuX, onde X representa O, S, Se ou Te) possuem propriedades magneto-ópticas únicas e interessantes, devido ao enorme magnetismo gerado dos elétrons na camada f do átomo pertencente a família dos terras raras, tornando estes materiais atraentes para aplicações na spintrônica (eletrônica baseada nos transporte de spins e não de carga). Neste trabalho investigamos em baixa temperatura o espectro de absorção utilizando luz circularmente polarizada na região próxima do limiar da banda para o telureto de európio EuTe e o seleneto de európio EuSe em alto campo magnético no ordenamento ferromagnético dos spins de Eu^{2+} da rede cristalina. As amostras crescidas por epitaxia por feixe molecular apresentaram um dicroísmo circular magnético intenso no espectro de absorção para a configuração de Faraday. O par de linhas estreitas observadas estão separadas de aproximadamente 200 meV para o EuTe e 300 meV para o EuSe. Em seguida, formulamos um modelo teórico para a interpretação deste espectro de absorção no arcabouço do modelo de transições eletrônicas entre o estado fundamental 4f^{7}({8}^S_{7/2}) e o estado excitado formado dos estados do caroço remanescente 4f^{6}({7}^F_{J=0...6}) mais o estado em que o elétron se encontra na banda de condução 5d(t_{2g}), resultando em uma excelente concordancia qualitativa e quantitativa com o experimento. / Europium chalcogenides (EuX, where X stands for O, S, Se or Te) have very interesting and unique magneto-optical properties, due to the huge magnetism that arises from the electrons in the f?shell of the rare earth element and which makes them attractive for spintronics applications ( spin transport electronics or spin basedelectronics) In this work we investigate the band-edge optical absorption in high magnetic fields in the Faraday geometry for EuTe and EuSe in the ferromagnetic order attained at low temperatures. In thin layers grown by molecular beam epitaxy, an intense magnetic circular dichroism were observed. The doublet of absorption lines showed a separation by about 200meV in EuTe and 300meV in EuSe. Next, we developed a theoretical model for the interpretation of the absorption spectrum, based in the framework of the model of an electronic transition from a localized ground state 4f^{7}({8}^S_{7/2)) to an excited state formed by the core states 4f^{6}({7}^F_{J=0...6}) and the electron extended state in the 5d(t_{2g}) conduction band, yielding an excellent qualitative and quantitavie agreement with experiment.

Dicroísmo Circular Magnético

Semicondutor Magnético

Magnetic Circular Dichroism

Magnetic Semiconductors

Initial investigations of the magnetic circular dichroism of isobutene using synchrotron radiation in the vacuum ultraviolet region

Unknown Date

by Clifford Sanders. / Thesis (M.S.)--Florida Atlantic University, 2009. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web. / Ethylene is the simplest alkene. The carbon-carbon double bond is ubiquitous in the field of chemistry. Ethylene serves as the basis for understanding these molecules. Thus, the assignment of the electronic transitions in ethylene is an important endeavor that many scientists have undertaken, but are yet to decipher theoretically or experimentally. Synchrotron Radiation in the vacuum ultraviolet region allows for magnetic circular dichroism (MCD) measurements of ethylene and other simple alkenes. Studies of ethylene and propylene revealed that the páap* (AgáaB1u ethylene notation) transition is not the lowest energy transition. The páa3s(R) (AgáaB3u ethylene notation) is the lowest energy transition. To further this investigation, MCD and absorption measurement were carried out on isobutene. The isobutene spectra clearly showed four electronic transitions in the 156 to 212 nm wavelength region. These four isobutene transitions have been assigned as páa3s, páap*, páa3p(Sv (Band páa3px proceeding from lower energy to higher energy. The present results support the assignments in ethylene and propylene.

Bioactive compounds--Testing

Magnetic circular dichroism

Molecular spectroscopy

Spectrum analysis

Quantum theory

Caracterização magneto-óptica de terras raras (Nd3+ and Yb3+) em LiNbO3. / Magneto-optical characterization of rare-earth ions (Nd3+ and Yb3+) in LiNbO3 crystals.

Cruz, Cláudia Bonardi Kniphoff da

06 April 2001

Neste trabalho, apresentamos resultados da caracterização Magneto-Óptica de íons terras-raras (Nd3+ e Yb3+) em monocristais de niobato de lítio (LiNbO3). Medidas de Dicroísmo Circular Magnético (MCD) e de Emissão Circularmente Polarizada em Presença de Campo Magnético (MCPE) foram realizadas pela primeira vez nesses sistemas. Os resultados foram obtidos à temperatura de 2K, e em campos magnéticos de até 5 T. Através desses estudos, foi possível identificar os números quânticos cristalinos (&#956) dos subníveis Zeeman desses íons. A partir da dependência do sinal de MCD com a intensidade de campo magnético, determinou¬se o fator giromagnético efetivo g// do estado fundamental de cada íon, obtendo-se os valores: g//Nd = (1,4 &#177 0,1) e g//Yb = (4,7 &#177 0,1). Esses valores foram confirmados através de medidas de espectroscopia de Ressonância Paramagnética Eletrônica (EPR), realizadas a baixa temperatura (4-8 K), em banda X. Os espectros de EPR foram tomados em função da orientação relativa do campo magnético externo com o eixo c cristalino dos cristais, em 3 planos perpendiculares entre si. Os espectros de EPR mostram a existência de diferentes sítios ocupados pelos íons terras-raras. O sítio mais populado tem simetria axial, e para esse centro determinaram-se os fatores g efetivos g//Nd = (1,440 &#177 0,005) e g//Nd = (2,959 &#177 0,004), para o íon Nd3+, e g//Yb = (4,705 &#177 0,008) e g//Yb = (2,693 &#177 0,005) para o íon Yb3+. Espectros de MCD e MCPE obtidos para um cristal de rubi ilustram as convenções utilizadas e atestam que o sistema experimental funciona adequadamente. Os espectros obtidos nessa amostra também são originais, tendo sido resolvidas as transições permitidas com luz circularmente polarizada entre os subníveis Zeeman correspondentes aos níveis de energia 4A2 e &#8254E (2E) do íon Cr3+. / In this work we present Magneto-Optícal characterizations of rare-earth ions (Nd3+ e Yb3+) in lithium niobate (LiNbO3) single crystals. Magnetic Circular Dichroism (MCD) and Magnetic Circularly Polarized Emission (MCPE) measurements were performed for the first time on those systems. Spectra were obtained at 2K and at magnetic field strength up to 5T. From these studies, it was possible to assign the crystal quantum number (&#956) of the Zeeman sublevels of these ions, so that the sign and allowance of the electronic transitions could be predicted. From the dependence of suitable MCD spectral lines on the magnetic field strength, the effective parallel gyromagnetic factor (g//) of the ground state for each of the rare earth ions has been determined to be: g//Nd = (1,4 &#177 0,1) e g//Yb = (4,7 &#177 0,1). These values are in dose agreement to those obtained by means of Electron Paramagnetic Resonance (EPR) spectroscopy, at 4-8 K, and at X-band frequency. EPR spectra were recorded as a function of the external magnetic field orientation relative to the c crystalline axis in three mutual perpendicular planes. These spectra show evidence of multiple sites occupied by the rare-earth ions. For the most intense line seen in the spectra of each ion, it could be clearly assigned a site with axial symmetry, with effective g factors of g//Nd= (1,440 &#177 0,005) and g//Nd = (2,959 &#177 0,004), for the Nd3+3+ ion, and g//Yb = (4,705 &#177 0,008) and g//Yb= (2,693 &#177 0,005) for the Yb3+ ion. MCD and MCPE spectra recorded for a ruby crystal shows the experimental conventions used so far in this work, as well as assure that the experimental system works properly. These results are original ones, by means of which, the spectral transitions between the Zeeman sublevels of the 4A2 and &#8254E (2E) of the Cr3+ ions in ruby could be resolved.

Dicroísmo circular magnético

LiNbO3

LiNbO3

Lithium niobate

Magnetic circular dichroism

Niobato de Lítio

Rare-earth

Terras raras

Structure and Function of Binuclear Metallohydrolases: Enterobacter aerogenes glycerophosphodiesterase and related enzymes

Kieran Hadler

Unknown Date

This thesis is focussed on structural and functional studies of a novel glycerophosphodiesterase (GpdQ) from Enterobacter aerogenes. GpdQ is highly promiscuous and is the first known phosphatase which is capable of degrading all three classes of phosphate esters (mono-, di- and triesters). Remarkably, GpdQ is also able to hydrolyse stable aliphatic phosphate esters and has been shown to degrade the hydrolysis product of the nerve agent VX. For these reasons, GpdQ has been realised to have potential as a powerful bioremediator for the removal of organophosphate pesticides and nerve agents. GpdQ is a binuclear metallohydrolase in which one of the metal ions is very weakly bound. Chapter 1 introduces the catalytic mechanisms of binuclear metallohydrolases by examining two related phosphate ester-degrading enzymes. Since one of the main features of catalysis addressed in this thesis are the differential metal binding affinities of GpdQ, Chapter 1 also canvasses a range of other binuclear metallohydrolases with similar behaviour. Chapter 2 examines the structural and evolutionary relationship between GpdQ and a number of other related enzymes. Using genome database searches, the two most closely related enzymes are identified. In performing these searches, a novel, putative binuclear metallohydrolase from Homo sapiens is also discovered. This enzyme, Hsa_aTRACP, is most closely related to PAPs, however construction of a homology model indicates that the active site tyrosine residue of PAP is replaced by histidine. In this respect, it may represent an evolutionary link to Ser/Thr protein phosphatases and GpdQ. The biology and chemistry of this putative enzyme is discussed. PAPs are the only binuclear enzymes with an established heterovalent active site of the type Fe(III)-M(II) (where M=Fe, Zn or Mn) whereas the majority of enzymes in this family have homovalent metal centres, including GpdQ and Ser/Thr protein. This is brought about due to the nature of the coordination sphere imposed by the enzyme. The activity of GpdQ can be reconstituted in the presence of Co(II), Zn(II), Mn(II) and Cd(II). Chapter 3 examines the kinetic properties of a binuclear homovalent system by studying the kinetic properties of Cd(II)-substituted GpdQ and a corresponding model complex. This comparative study leads to the identification of a terminal hydroxide molecule as the likely reaction-initiating nucleophile in Cd(II)-GpdQ with a pKa of 9.4. In Chapter 4, a detailed study of the structural, kinetic and spectroscopic behaviour of Co(II)-substituted GpdQ is presented. This chapter specifically probes the formation of the binuclear active site, the role of the metal ions in catalysis, the identity of the nucleophile and the potential role of any first or second coordination sphere residues in the regulation of enzyme activity, proton donation and metal ion coordination. Based on these findings, a detailed reaction mechanism is proposed in which the substrate itself promotes the formation of the catalytically competent binuclear centre and phosphorolysis occurs following nucleophilic attack by a terminal hydroxide molecule. A potential role of Asn80 (a ligand of one of the metal ions) in regulating both substrate and metal binding, and the role of the bridging hydroxide molecule in the activation of the terminal nucleophile is proposed. Chapter 5 employs a combination of kinetic and spectroscopic techniques to probe the proposed catalytic mechanism of GpdQ in depth. The formation of the catalytically competent binuclear centre is observed in pre-steady state studies, an integral first step in the catalytic mechanism. The dissociation and rate constants associated with formation of the binuclear centre are quantified. The rate of substrate turnover in GpdQ is relatively modest but is enhanced by a structural rearrangement involving the flexible Asn80 ligand. This structural change fine-tunes the reaction mechanism, leading to optimal reactivity. The steady-state kinetic properties of a series of metal ion derivatives (Co(II), Cd(II) and Mn(II)) of GpdQ and their reactivity towards a number of substrates are also compared. These findings lead to the conclusion that the reaction mechanism of GpdQ is modulated by both substrate and metal ion. In this respect, GpdQ is adaptive to the environmental conditions to which it is exposed by employing a flexible mechanistic strategy to achieve catalysis. Chapter 6 correlates the electronic and geometric structure of the binuclear centre in GpdQ as a means to probe specific aspects of the mechanism. This study uses the wild type enzyme and a site-directed mutant (Asn80Asp) to examine the structure of the metal ions at two stages of catalysis. The role of the bridging hydroxide molecule in nucleophilic activation is specifically addressed by monitoring changes in the electronic exchange interaction and other structural parameters as a result of phosphate binding. Also, the coordination environment of the metal ions in both the free enzyme and the phosphate-bound enzyme of wild type and Asn80Asp GpdQ were assessed against the currently proposed structures. The findings in this chapter corroborate the proposed catalytic mechanism of GpdQ. In summary, this project led to a detailed understanding of the mechanism of GpdQ, and provided insight into how both the metal ion composition and the identity of the substrate may modulate this mechanism. The knowledge gained may lead to the design of catalytically more efficient derivatives (mutants) of GpdQ for application in bioremediation.

glycerophosphodiesterase

phosphoesterase

binuclear metallohydrolase

magnetic circular dichroism

stopped-flow fluorescence

kinetics

electron paramagnetic resonance

New algorithm for efficient Bloch-waves calculations of orientation-sensitive ELNES

Tatsumi, Kazuyoshi, Muto, Shunsuke, Rusz, Ján

02 1900

No description available.

Electron magnetic circular dichroism

Bloch waves

Dynamical diffraction theory

Density functional theory

Transmission electron microscopy

Parameter-free extraction of EMCD from an energy-filtered diffraction datacube using multivariate curve resolution

Rusz, J., Tatsumi, K., Muto, S.

02 1900

No description available.

EMCD

Electron magnetic circular dichroism

Multivariate curve resolution

ELNES

EELS

Dynamical diffraction