Hydrogen Storage in Pure and Boron-Substituted Nanoporous Carbons—Numerical and Experimental Perspective

Abstract: Nanoporous carbons remain the most promising candidates for effective hydrogen storage by physisorption in currently foreseen hydrogen-based scenarios of the world’s energy future. An optimal sorbent meeting the current technological requirement has not been developed yet. Here we first review the storage limitations of currently available nanoporous carbons, then we discuss possible ways to improve their storage performance. We focus on two fundamental parameters determining the storage (the surface accessibl… Show more

“…In addition, the exploration of hydrogen storage in nanoporous carbons holds promise for unlocking the potential of hydrogen-based energy systems. A review in this Special Issue explores the possibilities of nanoporous carbons for effective hydrogen storage by physisorption, highlights the current limitations, and proposes strategies to improve storage performance, including chemical modifications of carbon pore walls [9]. Preliminary results of boron-substituted nanoporous carbons have demonstrated promising improvements in hydrogen adsorption energy, encouraging further research in this field.…”

State-of-the-Art 2D and Carbon Nanomaterials in France

“…In addition, the exploration of hydrogen storage in nanoporous carbons holds promise for unlocking the potential of hydrogen-based energy systems. A review in this Special Issue explores the possibilities of nanoporous carbons for effective hydrogen storage by physisorption, highlights the current limitations, and proposes strategies to improve storage performance, including chemical modifications of carbon pore walls [9]. Preliminary results of boron-substituted nanoporous carbons have demonstrated promising improvements in hydrogen adsorption energy, encouraging further research in this field.…”

State-of-the-Art 2D and Carbon Nanomaterials in France

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