What question did this study set out to answer?

The review aims to examine efficient hydrogen storage systems that operate under ambient conditions.

January 25, 2026

Hydrogen Storage under Ambient Conditions: A Mini-Review

Key Points

The review aims to examine efficient hydrogen storage systems that operate under ambient conditions.
Review of physical and chemisorption materials for hydrogen storage.
Discussion of composite materials integrating various storage approaches.
Assessment of performance and efficiency of ambient hydrogen storage systems.
Conventional storage methods are insufficient for onboard hydrogen applications.
Various materials, like metal-organic frameworks and zeolites, show promise for efficient storage.
Insights into future directions for commercialization of advanced hydrogen storage media are provided.

Abstract

Abstract Hydrogen is a promising energy carrier due to its high gravimetric energy density and clean oxidation product. However, the efficient storage of hydrogen at ambient conditions remains a significant challenge, particularly for onboard applications, as conventional methods fail to store sufficient quantities. This mini-review explores ambient hydrogen storage systems, including physical sorbents (e.g., metal-organic frameworks, covalent organic frameworks, porous organic polymers, carbon-based materials, and zeolites) and chemisorption materials (e.g., metallic hydrides). Additionally, we highlight studies on composite materials that integrate these approaches for improved storage under near-ambient conditions. The mini-review concludes with insights into future directions and commercialization potential for advanced hydrogen storage media.

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Hydrogen Storage under Ambient Conditions: A Mini-Review

Key Points

Abstract

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