Application-oriented hydrolysis reaction system of solid-state hydrogen storage materials for high energy density target: A review

Hydrogen storage and delivery technology is still a bottleneck in the hydrogen industry chain. Among all kinds of hydrogen storage methods, light-weight solid-state hydrogen storage (LSHS) materials could become promising due to its intrinsic high hydrogen capacity. Hydrolysis reaction of LSHS materials occurs at moderate conditions, indicating the potential for portable applications. At present, most of review work focuses on the improvement of material performance, especially the catalysts design. This part is important, but the others, such as operation modes, are also vital to to make full use of material potential in the practical applications. Different operation modes of hydrolysis reaction have an impact on hydrogen capacity to various degrees. For example, hydrolysis in solution would decrease the hydro-gen capacity of hydrogen generator to a low value due to the excessive water participating in the reac-tion. Therefore, application-oriented operation modes could become a key problem for hydrolysis reaction of LSHS materials. In this paper, the operation modes of hydrolysis reaction and their practical applications are mainly reviewed. The implements of each operation mode are discussed and compared in detail to determine the suitable one for practical applications with the requirement of high energy den-sity. The current challenges and future directions are also discussed.(c) 2022 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences. Published by ELSEVIER B.V. and Science Press. All rights reserved.

Automated summary

Light-weight solid-state hydrogen storage (LSHS) materials have promising potential in the hydrogen industry due to their high hydrogen capacity. In addition to improving material performance, the choice of operation modes is also vital for maximizing the practical applications of LSHS materials.