2012
DOI: 10.1002/cssc.201100523
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Mechanistic Investigation on the Formation and Dehydrogenation of Calcium Amidoborane Ammoniate

Abstract: Possessing high H2 capacities and interesting dehydrogenation behavior, metal amidoborane ammoniates were prepared by reacting Ca(NH2)2, MgNH, and LiNH2 with ammonia borane to form Ca(NH2BH3)2⋅2 NH3, Mg(NH2BH3)2⋅NH3, and Li(NH2BH3)2⋅NH3 (LiAB⋅NH3). Insight into the mechanisms of amidoborane ammoniate formation and dehydrogenation was obtained by using isotopic labeling techniques. Selective 15N and 2H labeling showed that the formation of the ammoniate occurs via the transfer of one H(N) from ammonia borane to… Show more

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Cited by 10 publications
(8 citation statements)
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“…[5b] The mechanism of this reaction was previously suggested to involve direct substitution of NH 3 in NH 3 BH 3 by NH 2 – or metathesis of Na in NaNH 2 with H of NH 3 in NH 3 BH 3 . [5b] It may be reasonable that the stronger Lewis base, that is, NH 2 – , attacks H δ + on nitrogen in NH 3 BH 3 to give rise to the metal amidoborate, which was confirmed by a 15 N labeling experiment. [8c]…”
Section: Resultsmentioning
confidence: 98%
See 1 more Smart Citation
“…[5b] The mechanism of this reaction was previously suggested to involve direct substitution of NH 3 in NH 3 BH 3 by NH 2 – or metathesis of Na in NaNH 2 with H of NH 3 in NH 3 BH 3 . [5b] It may be reasonable that the stronger Lewis base, that is, NH 2 – , attacks H δ + on nitrogen in NH 3 BH 3 to give rise to the metal amidoborate, which was confirmed by a 15 N labeling experiment. [8c]…”
Section: Resultsmentioning
confidence: 98%
“…[5b] It may be reasonable that the stronger Lewis base, that is, NH 2 – , attacks H δ + on nitrogen in NH 3 BH 3 to give rise to the metal amidoborate, which was confirmed by a 15 N labeling experiment. [8c]…”
Section: Resultsmentioning
confidence: 99%
“…The process was shown to occur through protonation of the apical hydride ligand to produce an η 2 -H 2 intermediate, with subsequent HH* shift of the anion prior to deprotonation . Hydrogen–deuterium exchange and an equilibrium isotope effect appear to be responsible for the observation of various deuterated amine groups ([ND 2 BH 3 ] − or [NHDBH 3 ] − ) in the amido moiety of dihydrogen-bonded Ca­(NH 2 BH 3 ) 2 ·2NH 3 . In contrast, possible H/D exchange within DHB fragments was not taken into account despite “this ubiquitous interaction ... evident in the structures” of partially deuterated alkali-metal amidoboranes MND 2 BH 3 .…”
Section: Dihydrogen-bonded Complexes As Intermediates Of Proton Trans...mentioning
confidence: 99%
“…290 Hydrogen− deuterium exchange and an equilibrium isotope effect appear to be responsible for the observation of various deuterated amine groups ([ND 2 BH 3 ] − or [NHDBH 3 ] − ) in the amido moiety of dihydrogen-bonded Ca(NH 2 BH 3 ) 2 •2NH 3 . 302 In contrast, possible H/D exchange within DHB fragments was not taken into account despite "this ubiquitous interaction ... evident in the structures" of partially deuterated alkali-metal amidoboranes MND 2 BH 3 . 303 Instead, the authors suggest that evolution of H 2 instead of HD occurs through homopolar BH δ− ••• δ− HB bonds.…”
Section: Kinetics Of Dihydrogen-bond-mediated Proton Transfermentioning
confidence: 99%
“…In the above mentioned ammoniates, the combination of H d+ in NH 3 and H dÀ in BH 3 is one of the driving forces for dehydrogenation. 27 Thus, it is of great interest to probe other H d+ containing ligands to balance H d+ and H dÀ in amidoboranes and improve the dehydrogenation properties.…”
Section: Introductionmentioning
confidence: 99%