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1	Growth and characterization of the Zintl-phase SrAl₄ on LaAlO₃ Schlipf, Lukas Philipp 08 November 2012 (has links) We present an experimental study of thin films of SrAl₄ on a LaAlO₃ substrate, with special emphasis on the Zintl-Klemm-type properties of the thin films that we grow using molecular beam epitaxy. We quantify the orientation and stoichiometry of the films and the surface morphology using reflection high energy electron diffraction (RHEED), x-ray diffraction (XRD) and atomic force microscopy (AFM). Furthermore, we present measurements of electronic properties using x-ray photoelectron spectroscopy (XPS) and ultraviolet spectroscopy (UPS). We determine the core level shifts due to the chemical environment in SrAl₄-films, which will underline the Zintl-Klemm character of the material. We measure the work function of (001)-oriented SrAl₄. Additionally we analyze the electronic transport properties of the grown thin films including the resistivity, carrier density and mobility. / text Zintl MBE Chemical shifts Thin film COS
2	Synthesis and 19F nuclear magnetic resonance studies of substituted fluoromethylnaphthalenes Dixon, Elisabeth A. 07 April 2014 (has links) Graduate / 0485 substituent chemical shifts coupling constants parameter model fluorobenzenes fluorides fluoronaphthalenes
3	Synthesis and 19F nuclear magnetic resonance studies of substituted fluoromethylnaphthalenes Dixon, Elisabeth A. 07 April 2014 (has links) Graduate / 0485 substituent chemical shifts coupling constants parameter model fluorobenzenes fluorides fluoronaphthalenes
4	The Use of MM/QM calculations of 13C chemical shifts in the analysis of Edaravone tautomers Abraham, R.J., Cooper, M.A., Aghamohammadi, Amin, Afarinkia, Kamyar, Liu, Xiangli 07 March 2024 (has links) Yes / The 13C NMR chemical shifts of the three Edaravone tautomers (keto, enol, and amine) were calculated using a combined molecular mechanics (Pcmod 9.1/MMFF94) and ab initio (GIAO (B3LYP/DFT, 6–31 + G(d)) model. This method gave such good agreement with experiment that the assignment of the complex spectrum of Edaravone in solution, which is a mixture of the three tautomers could be made. This has been attempted previously by various methods with diverse results. In CDCl3 solution, the observed spectra show only one form, the keto tautomer, and this is also the case with acetonitrile solvent. Acetone solvent reacts with Edavarone in the NMR tube. In the other solvents studied, methanol, pyridine, DMSO, trifluoroethanol (TFE), there is a mixture of the tautomers with populations which vary with the solvent. The application of the shift predictions allows the assignment of the 13C spectra to the three tautomers and from this the proportions of the tautomers in the solution. The results at times differ significantly from previous studies, and this is discussed. 1H 13C 13C chemical shifts Edaravone tautometers Conformations
5	Characterization of Nb hydrides synthesized in high-pressure supercritical water by micro-beam hard X-ray photoelectron spectroscopy Ikenaga, Eiji, Hasegawa, Masashi, Kusaba, Keiji, Niwa, Ken, Shiraki, Tatsuhito, Kato, Masahiko, Kondo, Hiroki, Soda, Kazuo 02 1900 (has links) No description available. Chemical shifts Valence-band spectra Nb 2p spectra Nb hydrides Hard X-ray photoelectron spectroscopy
6	Estudos conformacionais de lactonas sesquiterpênicas e compostos relacionados / conformational study of sesquiterpene lactonas and related compounds Cunha Neto, Alvaro 23 August 2006 (has links) Neste trabalho foram realizados estudos conformacionais de algumas lactonas sesquiterpenicas e cálculos teóricos de deslocamento químico. O estudo conformacional é dividido em tres etapas distintas. A primeira etapa se dá pela busca conformacional em mecânica molecular, onde foram encontradas as possíveis conformações assumidas pelo sistema em estudo. Na segunda etapa, as conformações encontradas foram otimizadas em mecânica quântica. O último passo neste estudo foi o cálculode deslocamento químico e a posterior correlação com os dados experimentais. / This work is aimed on the theoretical calculation of chemical shifts of sesquiterpene lactones, based on the conformational preferences of the compounds. This conformational study is set up in three stages. The first one is a conformational search using molecular mechanics, to assess the relevant conformations of the system under study. In the second stage, the conformations are optimized by quantum mechanics, for the refinement of both the structural assignment and energy calculation of the most stable conformers found in the previous step. The last step is the theoretical calculation of chemical shifts. Finally the weighted average of calculated values is compared to experimental data. análise conformacional cálculo teórico cálculos teóricos chemical shifts chemical shifts conformational analysis conformational analysis deslocamento químico furanoheliangolidos lactonas sesquiterpenicas sesquiterpene lactones sesquiterpene lactones theoretical calculation theoretical calculation
7	Extending the boundaries of the usage of NMR chemical shifts in deciphering biomolecular structure and dynamics Sahakyan, Aleksandr B. January 2012 (has links) NMR chemical shifts have an extremely high information content on the behaviour of macromolecules, owing to their non-trivial dependence on myriads of structural and environmental factors. Although such complex dependence creates an initial barrier for their use for the characterisation of the structures of protein and nucleic acids, recent developments in prediction methodologies and their successful implementation in resolving the structures of these molecules have clearly demonstrated that such barrier can be crossed. Furthermore, the significance of chemical shifts as useful observables in their own right has been substantially increased since the development of the NMR techniques to study low populated 'excited' states of biomolecules. This work is aimed at increasing our understanding of the multiple factors that affect chemical shifts in proteins and nucleic acids, and at developing high-quality chemical shift predictors for atom types that so far have largely escaped the attention in chemical shift restrained molecular dynamics simulations. A general approach is developed to optimise the models for structure-based chemical shift prediction, which is then used to construct CH3Shift and ArShift chemical shift predictors for the nuclei of protein side-chain methyl and aromatic moieties. These results have the potential of making a significant impact in structural biology, in particular when taking into account the advent of recent techniques for specific isotope labelling of protein side-chain atoms, which make large biomolecules accessible to NMR techniques. Through their incorporation as restraints in molecular dynamics simulations, the chemical shifts predicted by the approach described in this work create the opportunity of studying the structure and dynamics of proteins in a wide range of native and non-native states in order to characterise the mechanisms underlying the function and dysfunction of these molecules. 540
8	The assessment of intramolecular hydrogen bonding in ortho-substituted anilines by an NMR method Abraham, M.H., Abraham, R.J., Aghamohammadi, Amin, Afarinkia, Kamyar, Liu, Xiangli 20 July 2020 (has links) Yes / We describe the Δlog P method for the assessment of intramolecular hydrogen bonds (IMHBs), and show that it is not a very general method of distinguishing between molecules in which there is an IMHB and molecules in which there is no IMHB. The ‘double’ Δlog P method of Shalaeva et al. is a much more reliable method for the assessment of IMHB but requires the synthesis of a model compound and the determination of no less than four water-solvent partition coefficients. In addition, it is difficult to apply to compounds that contain more than one hydrogen bond acidic group capable of IMHB. We then describe our NMR method of assessing IMHB, based on 1H NMR chemical shifts in solvents DMSO and CDCl3. We have determined 1H NMR chemical shifts for a number of ortho-substituted anilines and show that the only compound we have studied that forms an IMHB is methyl 2-methylaminobenzoate though there is no IMHB present in methyl 2-aminobenzoate. This apparently anomalous result is supported by both MM and ab initio calculations. The NMR method is much simpler and less time consuming than other methods for the assessment of IMHB. It provides a quantitative assessment of IMHB and can be applied to molecules with more than one hydrogen bond acidic group. Intramolecular hydrogen bonding Hydrogen bond acidity Water-solvent partition coefficients Linear free energy relationship 1H NMR chemical shifts
9	The assessment of intramolecular hydrogen bonding in ortho-substituted anilines by an NMR method Abraham, M.H., Abraham, R.J., Aghamohammadi, Amin, Afarinkia, Kamyar, Liu, Xiangli 14 August 2020 (has links) No / We describe the Δlog P method for the assessment of intramolecular hydrogen bonds (IMHBs), and show that it is not a very general method of distinguishing between molecules in which there is an IMHB and molecules in which there is no IMHB. The ‘double’ Δlog P method of Shalaeva et al. is a much more reliable method for the assessment of IMHB but requires the synthesis of a model compound and the determination of no less than four water-solvent partition coefficients. In addition, it is difficult to apply to compounds that contain more than one hydrogen bond acidic group capable of IMHB. We then describe our NMR method of assessing IMHB, based on 1H NMR chemical shifts in solvents DMSO and CDCl3. We have determined 1H NMR chemical shifts for a number of ortho-substituted anilines and show that the only compound we have studied that forms an IMHB is methyl 2-methylaminobenzoate though there is no IMHB present in methyl 2-aminobenzoate. This apparently anomalous result is supported by both MM and ab initio calculations. The NMR method is much simpler and less time consuming than other methods for the assessment of IMHB. It provides a quantitative assessment of IMHB and can be applied to molecules with more than one hydrogen bond acidic group. Intramolecular hydrogen bonding Hydrogen bond acidity Water-solvent partition coefficients Linear free energy 1H NMR chemical shifts
10	Density functional theory study on the interstitial chemical shifts of main-group-element centered hexazirconium halide clusters; synthetic control of speciation in [(Zr6ZCl12)] (Z = B, C)-based mixed ligand complexes Shen, Jingyi 29 August 2005 (has links) The correlation between NMR chemical shifts of interstitial atoms and electronic structures of boron- and carbon-centered hexazirconium halide clusters was investigated by density functional theory (DFT) calculation. The influences of bridging halide and terminal ligand variations on electronic structure were examined respectively. Inverse proportionality was found between the chemical shifts and the calculated energy gaps between two Kohn-Sham orbitals of t1u symmetry, which arose from the bonding and antibonding interaction between the zirconium cage bonding orbitals and the interstitial 2p orbitals. Chemical shielding properties of the interstitial atoms were calculated with Gauge Including Atomic Orbital (GIAO) method. Stepwise ligand substitution of terminal chlorides on [(Zr6CCl12)Cl6]4-cluster by tri(n-butyl)-phosphine oxide (Bu3PO) was conducted with the aid of TlPF6. Composition of the reaction mixtures was analyzed by use of both 13C and 31P NMR. A preliminary scheme for synthesis and separation of [(Zr6CCl12)Cl6-x(Bu3PO)x]x-4 (x = 3 ?? 5) mixture based on solubility difference was reevaluated. Three 1,10-phenanthroline based bidentate ligands, namely, 2,9-Bis(diphenyl-phosphinyl)-1,10-phenanthroline, 2,9-Bis(diethoxyphosphoryl)-1,10-phenanthroline, and 2,9-Bis(di-n-butoxyphosphoryl)-1,10-phenantholine, were synthesized for bridge-chelating the hexazirconium clusters. Coordination chemistry of these ligands with the [Zr6BCl12] and [Zr6CCl12] clusters was subject to preliminary investigation. Density Functional Theory Interstitial Chemical Shifts Hexazirconium Halide Cluster Mixed Ligand Complexes Axial Ligand Substitution Tri(n-butyl)-Phosphine Oxide Phenanthroline Chelate

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