Full metadata
Title
Boron Aluminum Nitride Studies Using Molecular Dynamics Simulations and Quantum Mechanical Simulations
Description
This paper delves into the exploration of the ultra-wide bandgap semiconductor wurtzite boron aluminum nitride (w-BAlN), a rarely studied semiconductor with promising potential for various technological applications. As an emerging material, w-BAlN possesses unique properties that distinguish it from conventional semiconductors, including its wide bandgap, high thermal conductivity, chemical stability, and mechanical robustness. Despite its potential, w-BAlN remains relatively underexplored in the realm of materials science and semiconductor technology. This paper aims to bridge this gap by studying w-BAlN through computational
simulations using molecular dynamics and quantum mechanical simulations. Furthermore, the paper explores the challenges and opportunities associated with studying and harnessing the properties of w-BAlN, including materials synthesis, characterization techniques, and device integration. By shedding light on the distinctive characteristics and potential applications of w-BAlN, this paper aims to stimulate further research and development efforts in exploring and exploiting the unique properties of this promising ultra-wide bandgap semiconductor.
Date Created
2024-05
Contributors
- Budhiraju, Srinidhi (Author)
- Foy, Joseph (Thesis director)
- Martin, Thomas (Committee member)
- Barrett, The Honors College (Contributor)
- Computer Science and Engineering Program (Contributor)
- School of Applied Sciences and Arts (Contributor)
Resource Type
Extent
34 pages
Copyright Statement
In Copyright
Primary Member of
Peer-reviewed
No
Open Access
No
Series
Academic Year 2023-2024
Handle
https://hdl.handle.net/2286/R.2.N.194930
System Created
- 2024-07-26 11:24:51
System Modified
- 2024-07-26 11:24:50
- 4 months 4 weeks ago
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