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This Special Issue reprint aims to collect new or improved ideas to exploit superconducting materials, as well as graphene, towards achieving innovative devices, either at a small scale, as well as at a large scale. Several potential applications of graphene are enhanced by the possibility to modify its surface to introduce a non-zero bandgap, to tune adhesion and/or hydrophobicity/hydrophilicity, etc. These surface properties are crucial to the realization of graphene-based devices. Papers demonstrating graphene and/or superconducting devices, device processing, characterization, and applications, are particularly welcomed. Topics in this Special Issue include, but are not limited to: Graphene devices Graphene based heterostructures Superconducting interfaces Superconducting devices Electronic, optical, photonic and magnetic properties Surface and interfacial characterization techniques Device integration and fabrication

GFET --- RF --- access region --- superconducting devices --- photodetectors --- nanostructured materials --- nanostructured and microstructured superconductors --- high temperature superconductors --- bolometers --- quantum electronics --- noise spectroscopy --- granular aluminum oxide --- superconducting nanowires --- current-resistance effects --- iron-based superconductors --- nanowires --- single-photon detectors --- superconductivity --- transport properties --- energy gap --- superconducting order parameter --- proximity effect --- nano-junction --- Andreev reflection --- chemical --- vapor deposition --- graphene oxide --- transition-metal dichalcogenides --- WS2 --- perfect graphene (p–Gr) --- defective graphene (d–Gr) --- Gr/Si slab --- diffusion barrier --- CI-NEB calculation --- n/a --- perfect graphene (p-Gr) --- defective graphene (d-Gr)