 This paper presents a review of hydrogen storage systems suitable for mobility applications, highlighting the ideal characteristics for such a medium, including high energy densities, quick uptake and release, safe use, and cost-effectiveness. However, current hydrogen storage technologies have significant drawbacks, such as complex thermal management systems, boil-off, poor efficiency, expensive catalysts, stability issues, slow response rates, high operating pressures, low energy densities, and risks of violent reactions. Despite these challenges, compressed hydrogen remains the leading industry standard for mobility hydrogen storage, providing a functional solution. This article was authored by A.T.N. Revard, M. Trudeau, and Kareem Zagib.