Nidhin Kurian Kalarickal
,
Spring 2025
David M. McComas
Electrical engineering
Diamond Static Induction Transistor Design and Optimization in TCAD
Optimizing diamond static induction transistors will allow operation at high-frequency, very-high-frequency and ultra-high-frequency bands.
Program: Guest Researcher
Julian Gervassi-Saga
Electrical engineering
Modeling of Space Modulated Junction Termination Extensions for High Performance NiO/β-Ga₂O₃ Heterojunction Devices
Optimizing NiO/β-Ga₂O₃ diodes will make β-Ga₂O₃ devices more commercially viable for high-power applications like renewable energy and EVs.
Program: Guest Researcher
Fall 2024
David M. McComas
Electrical engineering
Diamond Static Induction Transistors
Diamond static induction transistors will achieve higher output power than the leading technology at high-frequency, very-high-frequency and ultra-high-frequency bands.
Program: FURI
Spring 2024
David M. McComas
Electrical engineering
TCAD Simulation of Diamond Static Induction Transistors for Radio Frequency Power Amplifiers
Vertical diamond static induction transistors can offer five times higher output power at ultra-high and S-band frequencies for future radar and communication systems.
Program: FURI
Clara Chaves Azevedo
Civil engineering (sustainable engineering)
Nontoxic Material Design Using Tin-based Perovskites for Sustainable Energy Production
Studying ink-based perovskite materials with reduced toxicity to explore the opportunity to gather energy from the sun on buildings.
Program: FURI
Fall 2023
Abishek Katta
Materials science and engineering
Simulation and Fabrication of Trench Schottky Diodes on Ga2O3 for Applications in High Voltage DC Power Conversion
Power semiconductors are new class of semiconductors with wide bandgap and excellent suitability in high-frequency applications.
Program: MORE