Pre-prints
Pre-prints of the Faraday Discussion papers are provided to participants of the meeting in order that questions to the authors and further comments may be prepared in advance of the meeting. Most of the time at the meeting will be devoted to a discussion that will be conducted on the assumption that the papers have already been read.
Authors should note that these pre-prints are not proofs. Proofs of each paper will be sent to the authors immediately after the meeting itself.
Please note that the quality of the pdf and pre-print is lower than that of the final published volume. The pre-prints are on A4 size paper; however the actual size of the final published volume will be the smaller book-style size.
To see the Scientific Programme with paper titles and timings please download the pdf programme available from the In this section links.
The following speakers will also present their work at FD151:
Introductory Lecture
Katsuhiko Hirose, Toyota, Japan
Concluding Remarks
Bill David, STFC Rutherford Appleton Laboratory, UK
Downloadable Files
151/01. Pore with gate: modulating hydrogen storage in metal organic framework materials via cation exchange
Sihai Yang, Samantha K. Callear, Timmy A. J. Ramirez-Cuesta, William I. F. David, Junliang Sun, Alexander J. Blake, Neil R. Champness and Martin Schröder, University of Nottingham, UK
PDF
151/02. The effect of host relaxation and dynamics on guest molecule dynamics in H2/tetrahydrofuran-hydrate
Vanessa K. Peterson, Elvis Shoko and Gordon J. Kearley, Australian Nuclear Science and Technology Organisation, Australia PDF
151/03. The role of Ni in increasing the reversibility of the hydrogen release from nanoconfined LiBH4
Peter Ngene, Margriet H. W. Verkuijlen, Qiang Zheng, Joris Kragten, P. Jan M. van Bentum, Johannes H. Bitter and Petra E. de Jongh, Utrecht University, The Netherlands PDF
151/04. Analysis of hydrogen storage in nanoporous materials for low carbon energy applications
Nuno Bimbo, Valeska P. Ting, Anna Hruzewicz-Kolodziejczyk and Timothy J. Mays, University of Bath, UK PDF
151/05. Characterisation of porous hydrogen storage materials: carbons, zeolites, MOFs and PIMs
Steven Tedds, Allan Walton, Darren P. Broom and David Book, University of Birmingham, UK PDF
151/06. Control of hydrogen release and uptake in amine borane molecular complexes: thermodynamics of ammonia borane, ammonium borohydride, and the diammoniate of diborane
Tom Autrey, Mark Bowden and Abhi Karkamkar, Pacific Northwest National Laboratory, USA PDF
151/07. Incorporating magnesium and calcium cations in porous organic frameworks for high-capacity hydrogen storage
Lin Wang, Yingxin Sun and Huai Sun, Shanghai Jiao Tong University, China PDF
151/08. Synthesis of small metallic Mg-based nanoparticles confined in porous carbon materials for hydrogen sorption
Claudia Zlotea, Clotaire Chevalier-César, Eric Léonel, Eric Leroy, Fermin Cuevas, Philippe Dibandjo, Cathie Vix-Guterl, Thierry Martens and Michel Latroche, CNRS Thiais, France PDF
151/09. The effect of complex halides and binary halides on hydrogen release for the 2LiBH4:1MgH2 system
Zhuxian Yang, David M. Grant, Ping Wang and Gavin S. Walker, University of Nottingham, UK PDF
151/10. Mobility and dynamics in the complex hydrides LiAlH4 and LiBH4
A. Borgschulte, A. Jain, A. J. Ramirez-Cuesta, P. Martelli, A. Remhof, O. Friedrichs, R. Gremaud and A. Züttel, EMPA - Materials Science & Technology, Switzerland PDF
151/11. Novel sodium aluminium borohydride containing the complex anion [Al(BH4,Cl)4]-
Inge Lindemann, Roger Domènech Ferrer, Lothar Dunsch, Radovan Cerný, Hans Hagemann, Vincenza D'Anna, Yaroslav Filinchuk, Ludwig Schultz and Oliver Gutfleisch, IFW Dresden, Germany PDF
151/12. Theoretical study of the vibrational properties of NaAlH4 with AlH3 vacancies
Feng Zhang, Yan Wang and M. Y. Chou, Georgia Institute of Technology, USA PDF
151/13. Synthesis of LiNH2 + LiH by reactive milling of Li3N
Christian Bonatto Minella, Carine Rongeat, Roger Domènech-Ferrer, Inge Lindemann, Lothar Dunsch, Natalie Sorbie, Duncan H. Gregory and Oliver Gutfleisch, IFW Dresden, Germany PDF
151/14. In situ powder neutron diffraction study of non-stoichiometric phase formation during the hydrogenation of Li3N
Daniel J. Bull, Natalie Sorbie, Gael Baldissin, David Moser, Mark T. F. Telling, Ronald I. Smith, Duncan H. Gregory and D. Keith Ross, University of Salford, UK PDF
151/15. Hydrogen storage and ionic mobility in amide-halide systems
Paul A. Anderson, Philip A. Chater, David R. Hewett and Peter R. Slater, University of Birmingham, UK PDF
151/16. Homogeneous dehydrogenation of liquid organic hydrogen carriers catalyzed by an iridium PCP complex
Zhaohui Wang, Jack Belli and Craig M. Jensen, University of Hawaii at Manoa, USA PDF
151/17. YMn2Hx and RMn2-yFeyH6 (R = Y, Er) studied by Raman, infrared and inelastic neutron scattering spectroscopies
V. Paul-Boncour, S. F. Parker, H. Hagemann, S. M. Filipek, R. Wierzbicki and M. Latroche, ICMPE, France PDF
151/18. Hydride formation in Mg-based systems processed by reactive milling
Stefano Deledda and Bjørn C. Hauback, Institute for Energy Technology, Norway PDF
151/19. Performance of a full-scale hydrogen-storage tank based on complex hydrides
Terry A. Johnson, Scott W. Jorgensen and Daniel E. Dedrick, General Motors, USA PDF
151/20. Performance of a metal hydride store on the "Ross Barlow" hydrogen powered canal boat
A. I. Bevan, A. Züttel, D. Book and I. R. Harris, University of Birmingham, UK PDF
151/21. A multidisciplinary combinatorial approach for tuning promising hydrogen storage materials towards automotive applications
A. Amieiro-Fonseca, S. R. Ellis, C. J. Nuttall, B. E. Hayden, S. Guerin, G. Purdy, J-Ph. Soulié, S. K. Callear, S. D. Culligan, W. I. F. David, P. P. Edwards, M. O. Jones, S. R. Johnson and A. H. Pohl, STFC Rutherford Appleton Laboratory, UK PDF
151/22. Probing the binding and spatial arrangement of molecular hydrogen in porous hosts via neutron Compton scattering
Maciej Krzystyniak, Mark A. Adams, Arthur Lovell, Neal T. Skipper, Stephen M. Bennington, Jerry Mayers and Felix Fernandez-Alonso, STFC Rutherford Appleton Laboratory, UK PDF
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