Two journals which explore novel materials have been published:
- Yazdanpanah Goharrizi, Arash, et al. “A theoretical study of armchair antimonene nanoribbons in the presence of uniaxial strain based on first-principles calculations.” ACS Applied Electronic Materials 5.8 (2023): 4514-4522.
- Zarate-Galvez, Sarai, et al. “Optimization of Doping Concentration to Obtain High Internal Quantum Efficiency and Wavelength Stability in An InGaN/GaN Blue Light-Emitting Diode.” ECS Journal of Solid State Science and Technology 12.7 (2023): 076014.
In 1, we explore materials for advanced and future technology nodes. In essence, we want to find out how 2D materials, such as antimonene, reacts to induced strain. This work is a part of a pathfinding approach, where TCAD is used to assess the feasibility of novel materials and processes, without even stepping foot in a lab or fab
In 2, We look at how the doping concentration of InGaN/GaN LEDs can be optimized to improve quantum efficiency and wavelength stability of devices based on these materials. Our objective is to determine the optimal doping concentration of the claddings using the Quantum Drift-Diffusion (QDD) model.