Mohsen Nami
About Mohsen Nami
Mohsen Nami is an Associate Research Scientist at Yale University, specializing in semiconductor physics and solid-state lighting. He holds a PhD in Optics/Optical Sciences from The University of New Mexico and has expertise in III-Nitride materials and photonic integrated circuit biosensors.
Work at Yale University
Currently, Mohsen Nami serves as an Associate Research Scientist at Yale University, a position he has held since 2020. His work at Yale focuses on semiconductor physics and solid-state lighting. Prior to this role, he was a Postdoctoral Associate at the same institution from 2017 to 2020. During his time at Yale, he has been involved in research related to lab-on-a-chip technologies and the development of photonic integrated circuit biosensors.
Education and Expertise
Mohsen Nami earned his Doctor of Philosophy (PhD) in Optics/Optical Sciences from The University of New Mexico, completing his studies from 2013 to 2017. He also holds a Master's degree in the same field from The University of New Mexico, which he obtained in 2012. His academic background provides a strong foundation for his research focus on semiconductor physics, solid-state lighting, and the growth and characterization of III-Nitride materials using Metal-Organic Chemical Vapor Deposition (MOCVD).
Background
Before joining Yale University, Mohsen Nami worked as a Research Assistant at the UNM Center for High Technology Materials from 2012 to 2017. In this role, he contributed to various research projects and gained experience in nanofabrication processes. His time at UNM helped shape his expertise in semiconductor materials and optical sciences, which he continues to apply in his current research.
Research Focus
Mohsen Nami's research primarily centers on semiconductor physics and solid-state lighting. He specializes in the growth and characterization of III-Nitride materials, which are critical for various applications in optoelectronics. His involvement in lab-on-a-chip technologies and the development of photonic integrated circuit biosensors highlights his commitment to advancing the field of optics and materials science.