A new diluted magnetic semiconductor: The half-metallic ferromagnet CoTi(1-x)FexSb

Half-Heusler compounds with 18 valence electrons are semi-conducting. It will be shown that doping with electrons results in half-metallic ferromagnets, similar to the case of diluted semi-conductors. CoTiSb is known to be a semi-conducting Half-Heusler compound. Doping by Fe is expected to result in ferromagnetic order. It was found that Ti can be replaced by up to about 10% Fe while its crystal structure still remains C1b, which was proved by X-ray powder diffraction. SQUID magnetometry revealed a magnetic moment of 0.32 mB per unit cell at 5K.Comment: JMMM accepte

Internationale Hochschulrankings: Ein methodenkritischer Vergleich

Zusammenfassung: Trotz ihrer umstrittenen Validität, Zuverlässigkeit und Wirkung, werden internationale Universitätsrankings immer häufiger von Studierenden und Universitäten als Informationsquellen genutzt. Dieser Artikel vergleicht drei internationale Hochschulrankings und analysiert, basierend auf der wissenschaftlichen Literatur, inwiefern sie relevante Aspekte von Forschung oder Lehre erheben und diese adäquat und verlässlich messen. Untersucht wurden das Academic Ranking of World Universities (ARWU Ranking), das World University Ranking und das vom deutschen Centrum für Hochschulentwicklung (CHE) entwickelte Excellence Ranking für Master- und Doktorandenprogramme. Die Analyse basiert auf den Publikationen der Herausgeber der Rankings und auf wissenschaftlichen Artikeln über diese internationalen Rankings. Basierend auf der Analyse werden Schlussfolgerungen für die Gestaltung internationaler Rankings abgeleitet und weiterführende Forschungsfragen formulier

Bulk sensitive photo emission spectroscopy of C1b compounds

This work reports about bulk-sensitive, high energy photoelectron spectroscopy from the valence band of CoTiSb excited by photons from 1.2 to 5 keV energy. The high energy photoelectron spectra were taken at the KMC-1 high energy beamline of BESSY II employing the recently developed Phoibos 225 HV analyser. The measurements show a good agreement to calculations of the electronic structure using the LDA scheme. It is shown that the high energy spectra reveal the bulk electronic structure better compared to low energy XPS spectra.Comment: J. Electron Spectrosc. Relat. Phenom. accepte

Electronic structure and spectroscopy of the quaternary Heusler alloy Co2_2Cr1−x_{1-x}Fex_{x}Al

Quaternary Heusler alloys Co$_2$Cr$_{1-x}$Fe$_{x}$Al with varying Cr to Fe ratio $x$ were investigated experimentally and theoretically. The electronic structure and spectroscopic properties were calculated using the full relativistic Korringa-Kohn-Rostocker method with coherent potential approximation to account for the random distribution of Cr and Fe atoms as well as random disorder. Magnetic effects are included by the use of spin dependent potentials in the local spin density approximation. Magnetic circular dichroism in X-ray absorption was measured at the $L_{2,3}$ edges of Co, Fe, and Cr of the pure compounds and the $x=0.4$ alloy in order to determine element specific magnetic moments. Calculations and measurements show an increase of the magnetic moments with increasing iron content. Resonant (560eV - 800eV) soft X-ray as well as high resolution - high energy ($\geq 3.5$keV) hard X-ray photo emission was used to probe the density of the occupied states in Co$_2$Cr$_{0.6}$Fe$_{0.4}$Al.Comment: J.Phys.D_Appl.Phys. accepte

Conformational studies of stereoisomeric tetraols serived form syn- and anti-dibenzo [a,l]pyrene diolepoxides

An understanding of the conformational behavior of the stereoisomeric tetrols at the 11,12,13,14-positions of dibenzo[a,l]pyrene (DB[a,l]P) is essential for the spectroscopic identification of DNA adducts derived from the biologically highly active fjord region syn- and anti-DB[a,l]P-11,12- diol 13,14-epoxides. Conformational effects are expected to play an important role in DNA-DB[a,l]P diol epoxide reactivity, base-sequence specificity, and conformation dependent repair. The results of conformational studies on trans-anti-, cis-anti-, and cis-syn-DB[a,l]P tetrol isomers are presented and compared to the results obtained previously for trans-syn-DB[a,l]P tetrol (Carcinogenesis 17, 829-837, 1996). Molecular mechanics, dynamical simulations, and semiempirical calculations of electronic transitions are used to interpret the low-temperature fluorescence spectra an

Mitochondrial glycolysis in a major lineage of eukaryotes

This is the author accepted manuscript. The final version is freely available from OUP via the DOI in this recordThe establishment of the mitochondrion is seen as a transformational step in the origin of eukaryotes. With the mitochondrion came bioenergetic freedom to explore novel evolutionary space leading to the eukaryotic radiation known today. The tight integration of the bacterial endosymbiont with its archaeal host was accompanied by a massive endosymbiotic gene transfer resulting in a small mitochondrial genome which is just a ghost of the original incoming bacterial genome. This endosymbiotic gene transfer resulted in the loss of many genes, both from the bacterial symbiont as well the archaeal host. Loss of genes encoding redundant functions resulted in a replacement of the bulk of the host's metabolism for those originating from the endosymbiont. Glycolysis is one such metabolic pathway in which the original archaeal enzymes have been replaced by the bacterial enzymes from the endosymbiont. Glycolysis is a major catabolic pathway that provides cellular energy from the breakdown of glucose. The glycolytic pathway of eukaryotes appears to be bacterial in origin, and in well-studied model eukaryotes it takes place in the cytosol. In contrast, here we demonstrate that the latter stages of glycolysis take place in the mitochondria of stramenopiles, a diverse and ecologically important lineage of eukaryotes. Although our work is based on a limited sample of stramenopiles, it leaves open the possibility that the mitochondrial targeting of glycolytic enzymes in stramenopiles might represent the ancestral state for eukaryotes.TAW is supported by a Royal Society University Research Fellowship and NERC grant NE/P00251X/1. Work in the lab of MvdG was supported by Wellcome Trust grant 078566/A/05/Z. PGK wishes to acknowledge support by the German Research Foundation (DFG, grant KR 1661/6-1) and the Gordon and Betty Moore Foundation GBMF 4966 (grant DiaEdit)

NMR investigations of the interaction between the azo-dye sunset yellow and Fluorophenol

The interaction of small molecules with larger noncovalent assemblies is important across a wide range of disciplines. Here, we apply two complementary NMR spectroscopic methods to investigate the interaction of various fluorophenol isomers with sunset yellow. This latter molecule is known to form noncovalent aggregates in isotropic solution, and form liquid crystals at high concentrations. We utilize the unique fluorine-19 nucleus of the fluorophenol as a reporter of the interactions via changes in both the observed chemical shift and diffusion coefficients. The data are interpreted in terms of the indefinite self-association model and simple modifications for the incorporation of a second species into an assembly. A change in association mode is tentatively assigned whereby the fluorophenol binds end-on with the sunset yellow aggregates at low concentration and inserts into the stacks at higher concentrations

Altered grey matter networks in young patients with MS at genetic risk for Alzheimer's disease [Abstract]

Background: The Apolipoprotein E (APOE) ε4 is the major susceptibility factor for cognitive impairment and Alzheimer’s disease. Cognitive decline is also a concern in patients with multiple sclerosis (MS). Whether APOE ε4 exerts an effect on brain structure and grey matter (GM) networks in MS patients that could potentiate the long-term cognitive disabilities is unclear. Moreover the description of the exact link between genetic markers and MR driven measures of brain integrity are of essential importance to study cognition in patients with MS and for interventions to prevent longitudinal deterioration. Methods: MS Patients with no immunomodulatory treatment were enrolled in the “Krankheitsbezogene Kompetenznetz Multiple Sclerosis (KKNMS)”. From this multicenter dataset 37 heterozygous APOE ε4 carriers (i.e. having the genotype ε3/ε4) and 37 non-carriers (ε3/ε3) were matched for demographics (mean age: 38.4±9.2 yrs, mean EDSS 1.23±0.99) from one site. A replication study was performed in a cohort (n=46) from a second site. Cortical thickness (CT) was derived from 3T MRI using FreeSurfer. GM connectivity networks were reconstructed from the CT correlation between the 68 regions of the Desikan-Killiany atlas. Cortical integrity and network connectivity -derived from graph theoretical approaches- were compared between the groups in both cohorts. Results corrected for multiple comparisons were considered (p< 0.05 FDR). Results: No regional or global cortical atrophy differences were attested between the two groups in both cohorts. In the network connectivity analysis a decreased local connectivity pattern (reduced transitivity, t=-3.24 p=0.008) was evident in APOE ε4 carriers. Regions with decreased connectivity were consistently seen in the medial part of the left temporal lobe. APOE ε4 status was further associated with raised whole brain connectivity, reflected by increased global efficiency (t=4.34 p=0.005) and reduced modularity (t=-2.84 p=0.02). This network pattern was shown in the frontal, parietal and lateral temporal associative cortices. The results were entirely replicated in the second cohort. Conclusion: We found that MS patients at genetic risk for cognitive decline have significant abnormalities of local GM networks and possibly compensatory increased long-range connectivity patterns. Chronic or focal neuroinflammation could lead to behaviourally relevant memory impairments in these patients through a specific break-down of the long-range paths