Li Tao of Southeast University

Low-dimensional atomic sheets offer unprecedented advances in electrical, optical and thermal properties for innovative flexible micro-nano devices and systems. This talk introduces our recent experimental progress on the synthesis, characterization and device integration on 2D BixSb1-x and PtSe2 as well as boron nitride (BN) quantum dots for flexible transistor, sensor/transceiver and display components in wearable circuits. We take unique approach in surface state tuning of materials and nanofabrication of device to achieve high durability, fast response and descent quantum yield. Our results indicate that low-dimensional transitional materials are versatile for wearable IoTs.

Biography:

Prof. Li Tao is a young chief professor at Southeast University, Nanjing, China. His research interests focus on 2D materials and their flexible/wearable devices, microsystem and nanoengineering platforms for internet of things and health care.

He is a co-inventor of the silicene transistor, 12’’ wafer-scale graphene on evaporated Cu for GHz flexible RF electronics, featured by TIME blog, Nature News and 50+ tech media. He has 50+ publications, including Nature Nanotechnology (citations>1200), Chemical Society Reviews, Advanced Functional Materials, ACS Nano, Infomat, IEEE TED&TAP and etc, with WoS citations 5000+.

He is the principle investigator for core research projects funded by MoST and NSF of China and Jiangsu Province. He has delivered 10+ invited talks in IEEE, MRS and APS, and serves as a committee member for EIPBN (3-beam) conference.

He is a senior member of IEEE, general chair for NMDC 2020&2022, NTC Chapter Coordinator (R10 other) and NTC Distinguished Lecturer (2023 &2024). He is a deputy editor for Research (Science partner journal) and Microelectronics Engineering, and a co-chair of IEEE NTC TC3 and MRS China young scientist branch.

Address:Nanjing, China