In this work, we demonstrate a two-dimension MoS 2 -based reconfigurable analog hardware that emulate synaptic, heterosynaptic, and somatic functionalities. The inner-states and inter-connections of all modules
2D materials are attractive for nanoelectronics due to their ultimate thickness dimension and unique physical properties. A wide variety of emerging spintronic device concepts will greatly benefit from the use of 2D materials, leading a better way to man
Fabrication of 2D semiconductors-based CMOS devices via transfer-based approach.an-MoS2and a p-type WSe2flakes placed nearby on a SiO2/p+-Si substrate using mechanical exfoliation and imprint-transfer-based approach. Circuit layout and the schematic diagram of the fabricated CMOS device. The 3D i...
aThe device schematic of MoS2/graphene heterostructure-based spin transistor (left) and measured nonlocal resistances (Rnl) with a wide range of gate voltage biases (Vg) applied (right)139. For the nonlocal measurement, a DC current of 10 µA is injected into graphene from the Co/TiO2tu...