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Literature DB >> 28119968

Changing the dehydrogenation pathway of LiBH₄-MgH₂via nanosized lithiated TiO₂.

J A Puszkiel¹, M V Castro Riglos², F Karimi³, A Santoru³, C Pistidda³, T Klassen³, J M Bellosta von Colbe³, M Dornheim³.

Abstract

Nanosized lithiated titanium oxide (LixTiO2) noticeably improves the kinetic behaviour of 2LiBH4 + MgH2. The presence of LixTiO2 reduces the time required for the first dehydrogenation by suppressing the intermediate reaction to Li2B12H12, leading to direct MgB2 formation.

Entities: Chemical Gene

Year: 2017 PMID： 28119968 DOI： 10.1039/c6cp08278e

Source DB: PubMed Journal: Phys Chem Chem Phys ISSN： 1463-9076 Impact factor: 3.676

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Cited

2 in total

1. Single-walled carbon nanotubes/lithium borohydride composites for hydrogen storage: role of in situ formed LiB(OH)₄, Li₂CO₃ and LiBO₂ by oxidation and nitrogen annealing.

Authors: Lathapriya Vellingiri; Karthigeyan Annamalai; Ramamurthi Kandasamy; Iyakutti Kombiah
Journal: RSC Adv Date: 2019-10-03 Impact factor: 4.036

Review 2. Tuning LiBH₄ for Hydrogen Storage: Destabilization, Additive, and Nanoconfinement Approaches.

Authors: Julián Puszkiel; Aurelien Gasnier; Guillermina Amica; Fabiana Gennari
Journal: Molecules Date: 2019-12-31 Impact factor: 4.411

2 in total

Changing the dehydrogenation pathway of LiBH4-MgH2via nanosized lithiated TiO2.

1. Single-walled carbon nanotubes/lithium borohydride composites for hydrogen storage: role of in situ formed LiB(OH)4, Li2CO3 and LiBO2 by oxidation and nitrogen annealing.

Review 2. Tuning LiBH4 for Hydrogen Storage: Destabilization, Additive, and Nanoconfinement Approaches.

Changing the dehydrogenation pathway of LiBH₄-MgH₂via nanosized lithiated TiO₂.

1. Single-walled carbon nanotubes/lithium borohydride composites for hydrogen storage: role of in situ formed LiB(OH)₄, Li₂CO₃ and LiBO₂ by oxidation and nitrogen annealing.

Review 2. Tuning LiBH₄ for Hydrogen Storage: Destabilization, Additive, and Nanoconfinement Approaches.