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Development and Characterization of Novel Complex Hydrides Synthesized via Molten State Processing

Published online by Cambridge University Press:  01 February 2011

Ragaiy Zidan ,
Kirk L Shanahan ,
Donald L. Anton ,
Arthur R Jurgensen  and
Jennifer Pittman
Ragaiy Zidan
Affiliation:
ragaiy.zidan@srnl.doe.gov, Savannah River National Laboratory, Energy Security, 773-41A/ 247, Savannah River Site, Aiken, SC, 29808, United States, (803)725-1726, (803)725-4129
Kirk L Shanahan
Affiliation:
kirk. shanahan@srnl.doe.gov, Savannah River National Laboratory, United States
Donald L. Anton
Affiliation:
Donald.Anton@srnl.doe.gov, Savannah River National Laboratory, United States
Arthur R Jurgensen
Affiliation:
arthur.jurgensen@srnl.doe.gov, Savannah River National Laboratory, United States
Jennifer Pittman
Affiliation:
jennifer.pittman@srs.gov, Savannah River National Laboratory, United States
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Abstract

This study is aimed at developing novel hydrides for hydrogen storage through a new synthesis technique utilizing high hydrogen overpressure at elevated temperatures denoted as Molten State Processing, MSP. This synthesis technique holds the potential of fusing different known complex hydrides at elevated temperatures and pressures to form new complexes having different sorption and thermodynamic properties. Complex hydrides produced by this method (e.g. NaMgH3, K3AlH6 and Na2LiAlH6) were identified through structural determination and thermodynamic characterization.

Keywords

chemical substitutionalloyhydrogenation
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 885: Symposium A – The Hydrogen Cycle – Generation, Storage and Fuel Cells , 2005 , 0885-A07-02
Copyright
Copyright © Materials Research Society 2006

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References

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