Monolayer amorphous carbon exhibits a distribution of hydrogen adsorption free energies from -0.91 to +1.70 eV with about 15% of sites below +0.25 eV, suggesting potential for HER activity tunable via local structure like 7-membered rings and curvature.
Amorphizing noble metal chalcogenide catalysts at the single -layer limit towards hydrogen production
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Harnessing Structural Disorder: Unraveling Hydrogen Evolution in Monolayer Amorphous Carbon via First-Principles Simulations and Machine-Learned Potentials
Monolayer amorphous carbon exhibits a distribution of hydrogen adsorption free energies from -0.91 to +1.70 eV with about 15% of sites below +0.25 eV, suggesting potential for HER activity tunable via local structure like 7-membered rings and curvature.