Preface

Abstract

The 2022 International Symposium on Semiconductor and Electronic Technology (ISSET 2022), scheduled to be held on August 12-14, 2022 in Fuzhou, China, was changed to be held as a virtual conference. ISSET 2022 promoted the development and application of theories and technologies in the fields of semiconductor and electronic technology in universities and enterprises, established business or research contact and found global partners for future careers for all the participants.During the conference, we had the honor of having invited both Prof. Zhigang Zang from Chongqing University, China and Prof. Jiangzhao Chen from Chongqing University, China to serve as our Conference General Chairs. This online conference was composed of three parts: keynote speeches, oral presentations and online Q&A discussion, attracting 60 delegates from all over the world. Firstly, keynote speakers were each allocated 30-45 minutes to hold their speeches. Then in the oral presentations, the excellent papers we had selected were presented by their authors one by one.At the beginning of the conference, five distinguished keynote speakers were invited to address their speeches. Among them, Prof. Wenli Zhou from Huazhong University of Science and Technology, China performed a thought-provoking speech on: Reservoir Computing Based on Carbon Nanotube Network. Due to the great interest on the implementation of Reservoir Computing (RC) on novel hardware, her team fabricated a physical reservoir consisting of single-walled carbon nanotubes (SWCNTs) network with phosphomolybdic acid modification and investigated its computing architecture and characteristic dynamics, demonstrating high performances in several test benches. Moreover, Prof. Junjie Qi from University of Science and Technology Beijing, China shared with us his study: In-situ Atomic Scale Studies of Structural Transitions for 2D TMDs. His team studied the phase transition and interlayer structure transition of bilayer PtSe2 under electron beam irradiation and combined atomic resolution STEM and DFT calculation to study the behavior of interlayer stacking orders and interlayer rotations in bilayer PtSe2, revealing the phase transition and interlayer structure transition mechanisms of PtSe2 at atomic scale. Their dramatic speeches had triggered heated discussion in the third part of the conference. Besides, every participant praised this conference for disseminating useful and insightful knowledge.List of Committee member is available in this pdf.