Sung-Yool ChoiElectrical Engineering, KAIST, Korea
Prof. Sung-Yool Choi received the BS (with Summa Cum Laude), MS, and PhD degrees from the Department of Chemistry, KAIST, in 1991, 1994, and 1998, respectively. Before joining KAIST, he had been with Basic Research Laboratory of ETRI, Korea as a principal researcher and worked on the national R&D programs for various functional electronic devices, including field emission display devices, high density optical data storage devices, and molecular electronic devices. After joining KAIST in Nov. 2011, he has focused his efforts towards forming an internationally recognized cross-disciplinary program that incorporates teaching and research in the area of graphene and applications devices. His research focus has largely centered on the electronics and photonics applications of graphene and 2D materials. He has authored/coauthored more than 150 refereed and conference papers. He also holds 27 domestic and 14 international patents. He is the recipient of several academic awards including the Prime Minister's Award (for Research Innovation in Nanotechnology) at Nano Korea 2015, and the Outstanding Lectureship Awards from the Dept. of Electrical Engineering, KAIST in 2014 and from UST in 2009.
Title:Graphene and 2D materials for future electronics
SymposiumA03 Flexible Electronics
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Abstract
Two-dimensional (2D) materials, including graphene and transition metal dichalcogenides, have huge potential to be exploited for the next-generation human-friendly soft electronic and optoelectronic systems due to their unique electrical, optical, and mechanical properties. Recently we have reported high performance electronic and optoelectronic devices based on low dimensional materials, i.e. field-effect transistors, gas sensors, nonvolatile memory devices, plasmonic waveguides, and active metamaterials, in which versatile properties of 2D materials have been incorporated into a flexible electronic and optoelectronic platforms [1-3]. However, there are several fundamental or technological issues to be addressed in real applications of 2D materials to the future electronic circuits [4, 5]. In this talk, I will present the unique electrical characteristics of 2D materials and the recent advances in their applications to flexible electronic devices and platforms.