Science and Technology of Atomically Thin Two-Dimensional Materials
Title: Science and Technology of Atomically Thin Two-Dimensional Materials
IEEE EDS Student Branch Chapter DU is proud to organize a webinar on “Science and Technology of Atomically Thin Two-Dimensional Materials” conducted by Saiful I. Khondaker. Two-dimensional (2D) materials that are crystalline substances with a thickness of a few atoms or less, have attracted significant attention as they offer a new material paradigm to solve our future electronic, optoelectronic, energy, catalytic, and sensing needs. 2D materials research is still at its infancy and significant challenges remain in terms of their scalable synthesis, tailoring of properties via doping or defect manipulation, and device fabrications. In this talk, the speaker will discuss his group’s effort in the synthesis of different 2D semiconducting transition metal dichalcogenides (TMD) and their tunable properties via defect engineering and doping.
Details about the Webinar:
Date: Wednesday, 2nd February,2022
Time: 7.00pm (Bangladesh Standard Time)
Type: Online
Platform: Zoom
Zoom ID: 656 0689 6197
For any query, e-mail us at ieeeedssbcdu@gmail.com
Title: Science and Technology of Atomically Thin Two-Dimensional Materials
IEEE EDS Student Branch Chapter DU is proud to organize a webinar on “Science and Technology of Atomically Thin Two-Dimensional Materials” conducted by Saiful I. Khondaker. Two-dimensional (2D) materials that are crystalline substances with a thickness of a few atoms or less, have attracted significant attention as they offer a new material paradigm to solve our future electronic, optoelectronic, energy, catalytic, and sensing needs. 2D materials research is still at its infancy and significant challenges remain in terms of their scalable synthesis, tailoring of properties via doping or defect manipulation, and device fabrications. In this talk, the speaker will discuss his group’s effort in the synthesis of different 2D semiconducting transition metal dichalcogenides (TMD) and their tunable properties via defect engineering and doping.
Details about the Webinar:
Date: Wednesday, 2nd February,2022
Time: 7.00pm (Bangladesh Standard Time)
Type: Online
Platform: Zoom
Zoom ID: 656 0689 6197
For any query, e-mail us at ieeeedssbcdu@gmail.com
Short Bio: Dr. Saiful Khondaker is a professor of nanoscience, physics, and electrical engineering and an office of research faculty fellow at the University of Central Florida (UCF). He is also the director for PREM Center for Ultrafast Dynamics and Catalysis in Emerging Materials at UCF. Khondaker received his Ph.D. degree in 1999 from the Cavendish Laboratory of the University of Cambridge. During 2001-2005, he worked at the University of Texas at Austin, first as a postdoctoral fellow (01-03) and then as an assistant director at the center for nano and molecular science and technology (03-05). He joined UCF in 2005 as a tenure track assistant professor, was promoted to associate professor with tenure in 2010 and full professor in 2017. He was appointed as an office of research faculty fellow in 2019, where his primary responsibility is mentoring of junior faculty for their grant success. Dr. Khondaker’s research is in the fabrication and electron transport investigation of nanoscale electronic devices. He published over 100 peer reviewed journal articles in high impact factor journals with over 9500 citations and a H index of 40. He delivered more than 60 invited talks at national and international conferences and prestigious institutions. He is a recipient of prestigious UK Commonwealth Scholarship (1994), National Science Foundation (NSF) CAREER award (2008), multiple UCF research awards (2010, 2015), UCF teaching award (2017), JSPS invitation fellowship (2016), and US Airforce Summer Fellowship (2016-18).