Timothy C. King
Theory and Practice: Bulk Synthesis of C3B and its H2- and Li-Storage Capacity
King, Timothy C.; Matthews, Peter D.; Glass, Hugh; Cormack, Jonathan A.; Holgado, Juan Pedro; Leskes, Michal; Griffin, John M.; Scherman, Oren A.; Barker, Paul D.; Grey, Clare P.; Dutton, Siân E.; Lambert, Richard M.; Tustin, Gary; Alavi, Ali; Wright, Dominic S.
Authors
Peter Matthews p.d.matthews@keele.ac.uk
Hugh Glass
Jonathan A. Cormack
Juan Pedro Holgado
Michal Leskes
John M. Griffin
Oren A. Scherman
Paul D. Barker
Clare P. Grey
Siân E. Dutton
Richard M. Lambert
Gary Tustin
Ali Alavi
Dominic S. Wright
Abstract
Previous theoretical studies of C3B have suggested that boron-doped graphite is a promising H2- and Li-storage material, with large maximum capacities. These characteristics could lead to exciting applications as a lightweight H2-storage material for automotive engines and as an anode in a new generation of batteries. However, for these applications to be realized a synthetic route to bulk C3B must be developed. Here we show the thermolysis of a single-source precursor (1,3-(BBr2)2C6H4) to produce graphitic C3B, thus allowing the characteristics of this elusive material to be tested for the first time. C3B was found to be compositionally uniform but turbostratically disordered. Contrary to theoretical expectations, the H2- and Li-storage capacities are lower than anticipated, results that can partially be explained by the disordered nature of the material. This work suggests that to model the properties of graphitic materials more realistically, the possibility of disorder must be considered.
Citation
King, T. C., Matthews, P. D., Glass, H., Cormack, J. A., Holgado, J. P., Leskes, M., …Wright, D. S. (2015). Theory and Practice: Bulk Synthesis of C3B and its H2- and Li-Storage Capacity. Angewandte Chemie International Edition, 54(20), 5919-5923. https://doi.org/10.1002/anie.201412200
| Journal Article Type | Article |
|---|---|
| Online Publication Date | Mar 25, 2015 |
| Publication Date | May 11, 2015 |
| Deposit Date | May 30, 2023 |
| Journal | Angewandte Chemie International Edition |
| Print ISSN | 1433-7851 |
| Publisher | Wiley |
| Peer Reviewed | Peer Reviewed |
| Volume | 54 |
| Issue | 20 |
| Pages | 5919-5923 |
| DOI | https://doi.org/10.1002/anie.201412200 |
| Keywords | General Chemistry; Catalysis |
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