3D integration of vertical-stacking of MoS2and Si CMOS featuring embedded 2T1R configuration demonstrated on full wafers
Journal
Technical Digest - International Electron Devices Meeting, IEDM
Journal Volume
2020-December
Pages
12.2.1 - 12.2.4
Date Issued
2020
Author(s)
Su, Chunjung
Huang, Minkun
Lee, K. S.
Huang, Y. F.
Zheng, B. C.
Yao, C. H.
Lin, Neichih
Kao, Kuo-Hsing Hsing
Hong, Tzu Chieh
Sung, Pojung
Wu, Chienting
Yu, Tungyuan
Lin, Kun–Lin
Tseng, Y. C.
Lin, C. L.
Lee, Yaojen
Chao, Tiensheng
Wu, Wenfa
Shieh, Jiaming
Wang, Yeong-Her
Yeh, Wenkuan
Abstract
For the first time, a 3D stacking of MoS2 and Si CMOS integrated with embedded RRAM is proposed and fabricated, and CMOS inverter comprised of MoS2 nFET and Si pFET is demonstrated. Vertically stacked multiple MoS2 channels are required for the performance matching. Resistive switching (RS) of a Ti/MoS2 /p+-Si structure showing high ON/OFF ratio of 106 is demonstrated firstly by highly Si-compatible process. Surface modification is the key to formation of uniform and smooth stacked MoS2 multiple channels and to enhanced resistive switching endurance. This scheme can be applied to CMOS-based bipolar RRAM 1T1R or 2T1R without increasing the cell size. Our work offers a new pathway with high feasibility of integrated 2D materials and Si FETs into CMOS to enabling 3D embedded logics and memories for future computing systems. ? 2020 IEEE.
Event(s)
66th Annual IEEE International Electron Devices Meeting, IEDM 2020
Subjects
Computation theory; Electron devices; Embedded systems; Layered semiconductors; Molybdenum compounds; RRAM; Silicon wafers; Three dimensional integrated circuits; 3-D integration; CMOS inverters; Compatible process; Computing system; Multiple channels; Performance matching; Resistive switching; Vertical stacking; CMOS integrated circuits
Type
conference paper