In situ, time resolved, and simultaneous multi-edge determination of local order change during reduction of supported bimetallic (Pt-Ge) catalyst precursors using energy dispersive EXAFS


Fiddy, S. G., Newton, M. A., Campbell, T., Corker, J. M., Dent, A. J., Harvey, I., Salvini, G., Turin, S. and Evans, J. (2001) In situ, time resolved, and simultaneous multi-edge determination of local order change during reduction of supported bimetallic (Pt-Ge) catalyst precursors using energy dispersive EXAFS Chemical Communications, (5), pp. 445-446. (doi:10.1039/b008809i).

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Description/Abstract

In situ, time resolved, simultaneous multi-edge energy dispersive EXAFS (EDE) reveals Ge precursor induced perturbations of the reduction of supported Pt(acac)(2) to form Pt particles, and details the subsequent thermally induced formation of PtGe species.

Item Type: Article
Digital Object Identifier (DOI): doi:10.1039/b008809i
ISSNs: 1359-7345 (print)
Related URLs:
Keywords: curved-wave theory, x-ray-absorption, pt-ge/al2o3 catalysts, in-situ
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ePrint ID: 19475
Date :
Date Event
2001Published
Date Deposited: 14 Feb 2006
Last Modified: 16 Apr 2017 23:02
Further Information:Google Scholar
URI: http://eprints.soton.ac.uk/id/eprint/19475

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