Feature Papers in Electronic Materials Section

doi:10.3390/books978-3-0365-3226-4

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Feature Papers in Electronic Materials Section

Edited by

February 2022

438 pages

ISBN978-3-0365-3227-1 (Hardback)
ISBN978-3-0365-3226-4 (PDF)

https://doi.org/10.3390/books978-3-0365-3226-4

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This book is a reprint of the Special Issue Feature Papers in Electronic Materials Section that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This book entitled "Feature Papers in Electronic Materials Section" is a collection of selected papers recently published on the journal Materials, focusing on the latest advances in electronic materials and devices in different fields (e.g., power- and high-frequency electronics, optoelectronic devices, detectors, etc.). In the first part of the book, many articles are dedicated to wide band gap semiconductors (e.g., SiC, GaN, Ga₂O₃, diamond), focusing on the current relevant materials and devices technology issues. The second part of the book is a miscellaneous of other electronics materials for various applications, including two-dimensional materials for optoelectronic and high-frequency devices. Finally, some recent advances in materials and flexible sensors for bioelectronics and medical applications are presented at the end of the book.

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Keywords

vertical GaN; quasi-vertical GaN; reliability; trapping; degradation; MOS; trench MOS; threshold voltage; nanomanufacturing; high-throughput method; material printing; flexible bioelectronics; nanomembrane; hybrid integration; GaAs; InGaAs channel; epitaxial lift-off; HEMT; van der Waals; 3C-SiC; stacking faults; doping; KOH etching; silicon carbide; radiation hardness; proton and electron irradiation; charge removal rate; compensation; irradiation temperature; 3C-SiC; heteroepitaxy; bulk growth; compliant substrates; defects; stress; 3C-SiC; cubic silicon carbide; power electronics; thin film; iron-based superconductor; pulsed laser deposition; transmission electron microscopy; diamond; MPCVD growth; power electronics; electron microscopy; chemical vapour deposition; 2D materials; MoS₂; silica point defects; optical fibers; radiation effects; 4H-SiC; ohmic contact; SIMS; Ti₃SiC₂; simulation; silicon carbide; 4H-SiC; Schottky barrier; Schottky diodes; electrical characterization; graphene absorption; Fabry–Perot filter; radio frequency sputtering; CVD graphene; diamond; GaN; HEMT; thermal management; GaN-on-diamond; CVD; arrhythmia detection; cardiovascular monitoring; soft biosensors; wearable sensors; flexible electronics; GaN; gate dielectric; aluminum oxide; interface; traps; instability; insulators; binary oxides; high-κ dielectrics; power electronics; wide band gap semiconductors; energy electronics; ultra-wide bandgap; power electronics; diodes; transistors; gallium oxide; Ga₂O₃; spinel; ZnGa₂O₄