Bruce FRS, Peter - University of Oxford

研究领域

My primary research interests are in the fields of solid state chemistry and electrochemistry; particularly solid state ionics, which embraces ionically conducting solids and intercalation compounds. I am interested in the fundamental science of ionically conducting solids (ceramic and polymeric materials) and intercalation compounds, in the synthesis of new materials with new properties or combinations of properties, in understanding these properties and in exploring their applications in new devices, especially energy storage devices such as rechargeable lithium batteries. Although ionically conducting solids represent the starting point for much of our research, we have extended our interests well beyond the confines of this subject alone.

近期论文

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Lithium Intercalation into Mesoporous Anatase with an Ordered 3D Pore Structure, Y. Ren, L. J. Hardwick, P. G. Bruce, Angewandte Chemie International Edition, 49, 2570-2574 (2010). Influence of Size on the Rate of Mesoporous Electrodes for Lithium Batteries, Y. Ren, A. R. Armstrong, F. Jiao, P. G. Bruce, Journal of the American Chemical Society, 132, 996-1004 (2010). Dependence of Li2FeSiO4 Electrochemistry on Structure, C. Sirisopanaporn, C. Masquelier, P. G. Bruce, A. R. Armstrong, R. Dominko, Journal of the American Chemical Society, 133 (5), 1263-1265 (2011). The Lithium Intercalation Process in the Low-Voltage Lithium Battery Anode Li1+xV1−xO2, A. R. Armstrong, C. Lyness, P. M. Panchmatia, M. S. Islam, P. G. Bruce, Nature Materials, 10, 223-229 (2011). Reactions in the Rechargeable Lithium-O2 Battery with Alkyl Carbonate Electrolytes, S. Freunberger, Y. Chen, Z. Peng, J. M. Griffin, L. J. Hardwick, F. Barde, P. Novak, P. G. Bruce, Journal of the American Chemical Society, 133 (20), 8040-8047 (2011). Structure and Lithium Transport Pathways in Li2FeSiO4 Cathodes for Lithium Batteries, A. R. Armstrong, N. Kuganathan, M. S. Islam, P. G. Bruce, Journal of the American Chemical Society, 133 (33), 13031-13035 (2011). Nanoparticulate TiO2(B): An Anode for Lithium-Ion Batteries, Y. Ren, Z. Liu, F. Pourpoint, A. R. Armstrong, C. B. Grey, P. G. Bruce, Angewandte Chemie, 51 (9), 2164-2167 (2012). An Alkoxido-Tin-Substituted Polyoxometalate [(MeO)SnW5O18]3- : The First Member of a New Family of Reactive SnW5 Lindqvist-Type Anions, B. Kandasamy, C. Wills, W. McFarlane, W. Clegg, R. W. Harrington, A. Rodríguez-Fortea, J. M. Poblet, R. J. Errington, P. G. Bruce, Chemistry – A European Journal, 18, 59–62 (2012). Mesoporous LiFePO4 as a Cathode Material for Rechargeable Lithium-Ion Batteries, Y. Ren, P. G. Bruce, Electrochemistry Communications, 17, 60-62 (2012). New Insights into the Crystal and Electronic Structures of Li1+xV1-xO2 from Solid State NMR, Pair Distribution Function Analyses, and First Principles Calculations, F. Pourpoint, X. Hua, D. S. Middlemiss, P. Adamson, D. Wang, C. P. Grey and P. G. Bruce, Chemistry of Materials, 25 (15), 2880-2893 (2012). A Reversible and Higher Rate Li-O2 Battery, Z. Peng, S. A. Freunberger, Y. Chen and P. G. Bruce, Science, 337, 563-566 (2012). The Carbon Electrode in Nonaqueous Li-O2 Cells, M. M. O. Thotiyl, S. A. Freunberger, Z. Peng and P. G. Bruce, Journal of the American Chemical Society, 135 (1), 494-500 (2013). Charging a Li-O2 Battery Using a Redox Mediator, Y. Chen, S. A. Freunberger, Z. Peng, O. Fontaine and P. G. Bruce, Nature Chemistry, 5 (6), 489-494 (2013).