2013
DOI: 10.2174/1385272811317030004
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Hydrogen Storage Using Ionic Liquid Media

Abstract: Abstract:The application of ionic liquids revealed a new dimension in many fields of chemistry. In the particular field of hydrogen storage system ionic liquids find application in several different ways. After a short introduction about the matter of hydrogen storage and its advantages and challenges, the different approaches of ionic liquid application in this field are presented. The different approaches can be classified into the application of ionic liquids as (i) solvent, as (ii) co-catalyst, as (iii) ca… Show more

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Cited by 20 publications
(15 citation statements)
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“…Indeed, the time-resolved MS analysis confirms that in the initial period the composition contains much larger amounts of hydrogen rather than carbon dioxide (Supplementary Figs 3,4a). It should be pointed out that neither FA nor CO is present in significant amounts in the gaseous phase as confirmed by labelling experiments with 13 C-pFA and H 2 18 O, which underlines the robustness (no FA extrusion) and the selective dehydrogenation as no relevant CO formation is observed (Supplementary Figs 3,4a,b; Fig. 2).…”
Section: Resultsmentioning
confidence: 61%
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“…Indeed, the time-resolved MS analysis confirms that in the initial period the composition contains much larger amounts of hydrogen rather than carbon dioxide (Supplementary Figs 3,4a). It should be pointed out that neither FA nor CO is present in significant amounts in the gaseous phase as confirmed by labelling experiments with 13 C-pFA and H 2 18 O, which underlines the robustness (no FA extrusion) and the selective dehydrogenation as no relevant CO formation is observed (Supplementary Figs 3,4a,b; Fig. 2).…”
Section: Resultsmentioning
confidence: 61%
“…In addition, through-space couplings were detected by way of 2D H,H nuclear overhauser effect spectroscopy experiments: cross peaks revealed interactions between p-cymene ligand and hydride, as well as proximity between p-cymene and formiate ( Supplementary Figs 6-24; Supplementary Table 2). Besides the compound described above, other Ru complexes were also visible in the 1 H NMR spectrum: besides traces of [(Ru(p-cymene)) 2 (mCl) 2 Cl 2 ] 1 and its hydrolysis products, for example, [(Ru(pcymene)) 2 (m-OH) 3 ] þ 2, at least one other Ru(p-cymene) complex could be identified. These three additional species are in chemical exchange, as evidenced by H,H EXchange SpectroscopY experiments, most likely exchange between chlorido and hydroxo ligands (vide infra) 37,40 .…”
Section: Resultsmentioning
confidence: 90%
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