Bis-BN Cyclohexane: a Remarkably Kinetically Stable Chemical Hydrogen Storage Material
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A critical component for the successful development of fuel cell applications is hydrogen storage. For back-up power applications, where long storage periods under extreme temperatures are expected, the thermal stability of the storage material is particularly important. Here, we describe the development of an unusually kinetically stable chemical hydrogen storage material with a H2 storage capacity of 4.7 wt%. The compound, which is the first reported parental BN isostere of cyclohexane featuring two BN units, is thermally stable up to 150 °C both in solution and as a neat material. Yet, it can be activated to rapidly desorb H2 at room temperature in the presence of a catalyst without releasing other detectable volatile contaminants. We also disclose the isolation and characterization of two cage compounds with S4 symmetry from the H2 desorption reactions.
El-Demerdash S, F Gad S, M El-Mehasseb I, El-Kelany K Heliyon. 2023; 9(10):e20542.
PMID: 37810871 PMC: 10551570. DOI: 10.1016/j.heliyon.2023.e20542.
A comparison of hydrogen release kinetics from 5- and 6-membered 1,2-BN-cycloalkanes.
Giustra Z, Chen G, Vasiliu M, Karkamkar A, Autrey T, Dixon D RSC Adv. 2022; 11(54):34132-34136.
PMID: 35497319 PMC: 9042405. DOI: 10.1039/d1ra07477f.
BN-Substitution in Dithienylpyrenes Prevents Excimer Formation in Solution and in the Solid State.
Appiarius Y, Gliese P, Segler S, Rusch P, Zhang J, Gates P J Phys Chem C Nanomater Interfaces. 2022; 126(9):4563-4576.
PMID: 35299818 PMC: 8919264. DOI: 10.1021/acs.jpcc.1c08812.
Alkali-Metal-Mediated Reversible Chemical Hydrogen Storage Using Seawater.
Sharma P, Han J, Park J, Kim D, Lee J, Oh D JACS Au. 2022; 1(12):2339-2348.
PMID: 34977902 PMC: 8715542. DOI: 10.1021/jacsau.1c00444.
Kumar A, Daw P, Milstein D Chem Rev. 2021; 122(1):385-441.
PMID: 34727501 PMC: 8759071. DOI: 10.1021/acs.chemrev.1c00412.