Asaad K.Edaan Al-mashaal
Associate Professor (Engineering; Physical sciences; Nanotechnology; Micro- and nanosystems; Materials engineering; Microelectromechanical systems (MEMS); Microelectronics; Nanofabrication, growth and self assembly)
Edinburgh, UK
Dr. Asaad K. Edaan Al-Mashaal is an academic and researcher with a PhD in Electronics and Electrical Engineering, specializing in Micro-Electro-Mechanical Systems (MEMS), Nano-Electro-Mechanical Systems (NEMS), and nano-based devices.
Currently serving as an Associate Professor at Basrah University, Dr. Asaad K. Edaan is dedicated to educating and mentoring the next generation of engineers and scientists. His research focuses on the design, fabrication, and characterization of MEMS/NEMS devices, as well as exploring the potential of nanomaterials in creating cutting-edge technologies. His work has contributed to advancements in sensors, actuators, and other nano-enabled systems.
Dr. Asaad K. Edaan has published several peer-reviewed articles in high-impact journals, fostering collaboration and knowledge exchange within the global scientific community. Committed to both research and education, Dr. Asaad K. Edaan strives to inspire innovation and critical thinking while pushing the boundaries of nanotechnology to address real-world challenges. His dedication to his field and his institution makes him a valued member of the academic community at Basrah University and beyond.
Publications
- Fabrication and characterisation of suspended microstructures of tantalum
- Evaluation of residual stress in sputtered tantalum thin-film
- Dynamic behavior of ultra large graphene-based membranes using electrothermal transduction
- Tunable Graphene-Polymer Resonators for Audio Frequency Sensing Applications
- Design and Characterization of a Micro-Fabricated Graphene-Based MEMS Microphone
- Electrostatically driven long-microbeams for low-frequency applications
- Fabrication and modal characterisation of large-area polymer membranes for acoustic micro-electromechanical systems devices
- Realization of Closed Cavity Resonator Formed by Graphene-PMMA Membrane for Sensing Audio Frequency
- Delamination of polyimide in hydrofluoric acid
- Reactive ion etching of tantalum in silicon tetrachloride
- Bending of Graphene Via Electrostatic Actuation
- Electromechanical Pressure Sensors Based on Graphene: A Review