Thermally driven hydrogen interaction with single-layer graphene on SiO2/Si substrates quantified by isotopic labeling

Abstract: In the present work, we investigated the interaction of hydrogen with single-layer graphene. Fully hydrogenated monolayer graphene was predicted to be a semiconductor with a bandgap of 3.5 eV in contrast to the metallic behavior of its pristine counterpart. Integration of these materials is a promising approach to develop new electronic devices. Amidst numerous theoretical works evidencing the efficient formation of fully hydrogenated graphene, few experimental studies have tackled this issue. A possible expla… Show more

“…There are predictions of theoretical calculations that hydrogenated graphene sheet would be a semiconductor. Deuterium (D) has been incorporated into graphene via thermal annealing in a process above 400 °C, which is not entirely reversible [ 43 ] to verify those predictions. Defects in graphene can also improve H 2 adsorption.…”

Carbon Nanostructures Doped with Transition Metals for Pollutant Gas Adsorption Systems

“…There are predictions of theoretical calculations that hydrogenated graphene sheet would be a semiconductor. Deuterium (D) has been incorporated into graphene via thermal annealing in a process above 400 °C, which is not entirely reversible [ 43 ] to verify those predictions. Defects in graphene can also improve H 2 adsorption.…”

Carbon Nanostructures Doped with Transition Metals for Pollutant Gas Adsorption Systems

Hydrogenated graphene systems: A novel growth and hydrogenation process