M[Y(BH4)4] and M2Li[Y(BH4)(6-x)Clx] (M = Rb, Cs): new borohydride derivatives of yttrium and their hydrogen storage properties

Two novel bimetallic borohydrides, Rb[Y(BH4)4] and Cs[Y(BH4)4], have been synthesised via mechanochemical reactions between MBH4, M = Rb or Cs and Y(BH4)3. Both are ionic compounds comprising complex anions [Y(BH4)4](-) and alkali metal cations, and they adopt crystal structures which were not obser...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2013-01, Vol.42 (19), p.6886-6893
Main Authors: Jaroń, Tomasz, Wegner, Wojciech, Grochala, Wojciech
Format: Article
Language:English
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Summary:Two novel bimetallic borohydrides, Rb[Y(BH4)4] and Cs[Y(BH4)4], have been synthesised via mechanochemical reactions between MBH4, M = Rb or Cs and Y(BH4)3. Both are ionic compounds comprising complex anions [Y(BH4)4](-) and alkali metal cations, and they adopt crystal structures which were not observed previously for quasi-ternary borohydrides. LiCl, a by-product from the synthesis of Y(BH4)3, is not an unreactive dead-weight but rather it promotes formation of trimetallic borohydride-chlorides, M2Li[Y(BH4)(6-x)Cl(x)], which crystallise in the elpasolite-type structures. Formation of Cs2Li[Y(BH4)(6-x)Cl(x)] takes place during the mechanochemical synthesis of Cs[Y(BH4)4] at room temperature, while that of Rb2Li[Y(BH4)(6-x)Cl(x)] only after heating of the sample above the melting point. The M[Y(BH4)4]/M2Li[Y(BH4)(6-x)Cl(x)] mixtures slowly release H2 when melted (T(m) = 170 °C for M = Rb, 210 °C for M = Cs) but the main stage of thermal decomposition occurs at a T(dec) of ~270 °C, similarly to what is observed for K[Y(BH4)4] and NaBH4/Y(BH4)3 composites. We also demonstrate how the T(dec) of M[Y(BH4)4] salts may be tuned by choosing the MBH4 precursor of the appropriate Lewis basicity.
ISSN:1477-9226
1477-9234
DOI:10.1039/c3dt33048f