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Welcome to Keele Repository

The Keele Repository is intended to be an Open Access showcase for the published research output of the university. Whenever possible, refereed documents accepted for publication, or finished artistic compositions presented in public, will be made available here in full digital format, and hyperlinks to standard published versions will be provided.



Latest Additions

Extracellular bacterial production of doped magnetite nanoparticles (2012)
Book Chapter
Pattrick, R. A. D., Coker, V. S., Pearce, C. I., Telling, N. D., van der Laan, G., & Lloyd, J. R. (2012). Extracellular bacterial production of doped magnetite nanoparticles. In Nanoscience: Volume 1: Nanostructures through Chemistry (102-115). Royal Society of Chemistry. https://doi.org/10.1039/9781849734844-00102

Microorganisms have been producing nanoparticles for billions of years and by controlling and tuning this productivity they have the potential to provide novel materials using environmentally friendly manufacturing pathways. Metal-reducing bacteria a... Read More about Extracellular bacterial production of doped magnetite nanoparticles.

Microbial Reduction of Arsenic-Doped Schwertmannite by Geobacter sulfurreducens (2012)
Journal Article
Cutting, R. S., Coker, V. S., Telling, N. D., Kimber, R. L., van der Laan, G., Pattrick, R. A. D., …Lloyd, J. R. (2012). Microbial Reduction of Arsenic-Doped Schwertmannite by Geobacter sulfurreducens. Environmental Science and Technology, 46(22), 12591-12599. https://doi.org/10.1021/es204596z

The fate of As(V) during microbial reduction by Geobacter sulfurreducens of Fe(III) in synthetic arsenic-bearing schwertmannites has been investigated. During incubation at pH7, the rate of biological Fe(III) reduction increased with increasing initi... Read More about Microbial Reduction of Arsenic-Doped Schwertmannite by Geobacter sulfurreducens.

Characterisation of the dissimilatory reduction of Fe(III)‐oxyhydroxide at the microbe – mineral interface: the application of STXM–XMCD (2012)
Journal Article
COKER, V. S., BYRNE, J. M., TELLING, N. D., VAN DER LAAN, G., LLOYD, J. R., HITCHCOCK, A. P., …PATTRICK, R. A. D. (2012). Characterisation of the dissimilatory reduction of Fe(III)‐oxyhydroxide at the microbe – mineral interface: the application of STXM–XMCD. Geobiology, 10(4), 347-354. https://doi.org/10.1111/j.1472-4669.2012.00329.x

A combination of scanning transmission X-ray microscopy and X-ray magnetic circular dichroism was used to spatially resolve the distribution of different carbon and iron species associated with Shewanella oneidensis MR-1 cells. S. oneidensis MR-1 cou... Read More about Characterisation of the dissimilatory reduction of Fe(III)‐oxyhydroxide at the microbe – mineral interface: the application of STXM–XMCD.

Spectromicroscopy study of interfacial Co/NiO(001) (2010)
Journal Article
van der Laan, G., Telling, N. D., Potenza, A., Dhesi, S., & Arenholz, E. (2010). Spectromicroscopy study of interfacial Co/NiO(001). Physical Review B,

Photoemission electron microscopy (PEEM) with linearly polarized x-rays is used to determine the orientation of antiferromagnetic domains by monitoring the relative peak intensities at the 3d transition metal Lâ absorption edge. In such an analysis t... Read More about Spectromicroscopy study of interfacial Co/NiO(001).

Anisotropic x-ray magnetic linear dichroism and spectromicroscopy of interfacial Co/NiO(001) (2011)
Journal Article
van der Laan, G., Telling, N. D., Potenza, A., Dhesi, S. S., & Arenholz, E. Anisotropic x-ray magnetic linear dichroism and spectromicroscopy of interfacial Co/NiO(001). Physical review B: Condensed matter and materials physics, 83(6), Article 064409. https://doi.org/10.1103/physrevb.83.064409

Photoemission electron microscopy (PEEM) with linearly polarized x rays is used to determine the orientation of antiferromagnetic domains by monitoring the relative peak intensities at the 3 d transition metal L 2 absorption edge. In such a... Read More about Anisotropic x-ray magnetic linear dichroism and spectromicroscopy of interfacial Co/NiO(001).