WSe 2 homojunctions and quantum dots created by patterned hydrogenation of epitaxial graphene substrates

Scanning tunneling microscopy (STM) at 5 K is used to study WSe 2 layers grown on epitaxial graphene which is formed on Si-terminated SiC(0 0 0 1). Specifically, a partial hydrogenation process is applied to intercalate hydrogen at the SiC–graphene interface, yielding areas of quasi-free-standing bilayer graphene coexisting with bare monolayer graphene. We find that an abrupt and structurally perfect homojunction (band-edge offset ~0.25 eV) is formed when WSe 2 overgrows a lateral junction between adjacent monolayer and quasi-free-standing bilayer areas in the graphene. The band structure modulation in the WSe 2 overlayer arises from the varying work function (electrostatic potential) of the graphene beneath. Scanning tunneling spectroscopy measurements reveal that this effect can be also utilized to create WSe 2 quantum dots that confine either valence or conduction band states, in agreement with first-principles band structure calculatio…

Published in: "2DMaterials".