Dimensions, structure, and morphology variations of carbon-based materials for hydrogen storage: a review

Assyl S. Botakoz S. Saule Z.
December 2025 Springer

Discover Nano
2025 #20 Issue 1

The swift and far-reaching evolution of advanced nanostructures and nanotechnologies has accelerated the research rate and extent, which has a huge prospect for the benefit of the practical demands of solid-state hydrogen storage implementation. Carbonaceous materials are of paramount importance capable of forming versatile structures and morphology. This review aims to highlight the influence of the carbon material structure, dimension, and morphology on the hydrogen storage ability. An extensive range of synthesis routes and methods produces diverse micro/nanostructured materials with superb hydrogen-storing properties. The structures of carbon materials used for hydrogen adsorption, from 0 to 3D, and fabrication methods and techniques are discussed. Besides highlighting the striking merits of nanostructured materials for hydrogen storage, remaining challenges and new research avenues are also considered.

Carbonaceous materials , Hybrid structure , Hydrogen storage , Morphology

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Hydrogen Technologies Research Laboratory, KMG Engineering Atyrau, Atyrau, 060000, Kazakhstan
Renewable Energy Lab, National Laboratory Astana, Nazarbayev University, Astana, 010000, Kazakhstan
Department of Chemical and Materials Engineering, School of Engineering and Digital Science, Nazarbayev University, Astana, 010000, Kazakhstan

Hydrogen Technologies Research Laboratory
Renewable Energy Lab
Department of Chemical and Materials Engineering

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