B
B. H. Frazer
Researcher at University of Wisconsin-Madison
Publications - 29
Citations - 1980
B. H. Frazer is an academic researcher from University of Wisconsin-Madison. The author has contributed to research in topics: Superconductivity & Absorption spectroscopy. The author has an hindex of 17, co-authored 29 publications receiving 1836 citations. Previous affiliations of B. H. Frazer include École Polytechnique & Synchrotron Radiation Center.
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Journal ArticleDOI
Microbial polysaccharides template assembly of nanocrystal fibers.
Clara S. Chan,Gelsomina De Stasio,Gelsomina De Stasio,Susan A. Welch,Marco Girasole,B. H. Frazer,B. H. Frazer,Maria V. Nesterova,Sirine C. Fakra,Jillian F. Banfield,Jillian F. Banfield +10 more
TL;DR: Spectromicroscopy is used to show that microbially generated submicrometer-diameter iron oxyhydroxide (FeOOH) filaments contain polysaccharides, providing an explanation for the formation of akaganeite pseudo–single crystals with aspect ratios of ∼1000:1.
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Multiple Scattering Calculations of Bonding and X-ray Absorption Spectroscopy of Manganese Oxides
Benjamin Gilbert,B. H. Frazer,A. Belz,P. G. Conrad,Kenneth H. Nealson,Daniel Haskel,Jonathan Lang,George Srajer,G. De Stasio +8 more
TL;DR: In this paper, the authors present near edge X-ray absorption spectra of manganese oxides at the Mn L2,3, Mn K, and O K edges to investigate the relative sensitivity of the edges to bonding and structure.
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The probing depth of total electron yield in the sub-keV range: TEY-XAS and X-PEEM
TL;DR: In this paper, the authors present data on the total electron yield probing depth at core level energies ranging from 77 to 929 eV, showing that the maximum probing depth increases with core level energy from 15 to 141 A.
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The Organic-Mineral Interface in Biominerals
TL;DR: A review of the molecular aspects of biomineralization and the location in which organic-mineral interactions occur can be found in this article, where the authors describe as completely as is currently possible the organicmineral interface.
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Roughness of the plasma membrane as an independent morphological parameter to study RBCs: a quantitative atomic force microscopy investigation.
Marco Girasole,G. Pompeo,Antonio Cricenti,A. Congiu-Castellano,Federica Andreola,Annalucia Serafino,B. H. Frazer,Giovanna Boumis,Gino Amiconi +8 more
TL;DR: The present method provides a quantitative and powerful tool for a novel approach to the study of erythrocytes structure through an ultrastructural morphological analysis with the potential to give information, in a non-invasive way, on the RBCs function.