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- Title
A Nanoscale Ternary Amide‐rGO Composite with Boosted Kinetics for Reversible H<sub>2</sub> Storage (Adv. Mater. Interfaces 27/2023).
- Authors
Dun, Chaochao; Li, Sichi; Chen, Linfeng; Horton, Robert D.; Allendorf, Mark D.; Wood, Brandon C.; Stavila, Vitalie; Urban, Jeffrey J.
- Abstract
The nanosizing effect of rGO shortens hydrogen diffusion paths, boosting the speed of dehydrogenation compared to conventional methods. Hydrogen storage, kinetics of dehydrogenations, melt infiltrations, nanoconfinement, reduced graphene oxides Keywords: hydrogen storage; kinetics of dehydrogenations; melt infiltrations; nanoconfinement; reduced graphene oxides EN hydrogen storage kinetics of dehydrogenations melt infiltrations nanoconfinement reduced graphene oxides 1 1 1 09/26/23 20230922 NES 230922 B Reversible H SB 2 sb Storage b In article 2300310, Vitalie Stavila, Jeffrey J. Urban, and co-workers unleashed the full potential of hydrogen storage with rGO: This innovative material catalyzes hydrogen bond breakage at the Mg-amide/Li hydride interface, leading to faster dehydrogenation.
- Subjects
MELT infiltration; DEHYDROGENATION kinetics; HYDROGEN storage; STORAGE; GRAPHENE oxide
- Publication
Advanced Materials Interfaces, 2023, Vol 10, Issue 27, p1
- ISSN
2196-7350
- Publication type
Article
- DOI
10.1002/admi.202300310