Towards hybrid superlattices in graphene | Nature Communications
Synthesis, properties and potential applications of hydrogenated graphene - ScienceDirect
Robust ferromagnetism in hydrogenated graphene mediated by spin-polarized pseudospin | Scientific Reports
Prediction of Selective Formation of Chair- and Boat-Type Hydrogenated Graphene via Birch Reduction | Chemistry of Materials
Synthesis, properties and potential applications of hydrogenated graphene - ScienceDirect
Graphene Supported Graphone/Graphane Bilayer Nanostructure Material for Spintronics | Scientific Reports
Universal roles of hydrogen in electrochemical performance of graphene: high rate capacity and atomistic origins | Scientific Reports
Surface Confined Hydrogenation of Graphene Nanoribbons | ACS Nano
Graphene: What lies between
Hydrogenated monolayer graphene with reversible and tunable wide band gap and its field-effect transistor | Nature Communications
Molecular embroidering of graphene | Nature Communications
Gap Opening in Double-Sided Highly Hydrogenated Free-Standing Graphene | Nano Letters
Hydrogen-free graphene edges | Nature Communications
Large transport gap modulation in graphene via electric-field-controlled reversible hydrogenation | Nature Electronics
Catalysis with two-dimensional materials and their heterostructures | Nature Nanotechnology
Hydrogenated monolayer graphene with reversible and tunable wide band gap and its field-effect transistor | Nature Communications
What lies between | Nature Materials
Jakob Jørgensen: Tunable band gap opening in graphene by high-temperature hydrogenation - Carbonhagen2015
Coverage-dependent essential properties of halogenated graphene: A DFT study | Scientific Reports
Metal-enhanced hydrogenation of graphene with atomic pattern - ScienceDirect
Bandgap opening in graphene induced by patterned hydrogen adsorption | Nature Materials
Prediction of Selective Formation of Chair- and Boat-Type Hydrogenated Graphene via Birch Reduction | Chemistry of Materials
Hydrogen Spillover and Storage on Graphene with Single-Site Ti Catalysts | ACS Energy Letters
