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Superconducting and Graphene-based Devices
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Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

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

Keywords

Technology: general issues --- 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 --- 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


Book
Superconducting and Graphene-based Devices
Author:
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

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


Book
Superconducting and Graphene-based Devices
Author:
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

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

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