量子隧道
光电子学
接口(物质)
材料科学
磁滞
非易失性存储器
电子工程
计算机科学
物理
凝聚态物理
工程类
毛细管数
复合材料
毛细管作用
作者
Gino Giusi,Guilherme Migliato Marega,András Kis,Giuseppe Iannaccone
标识
DOI:10.1109/ted.2022.3208804
摘要
Two-dimensional materials (2DMs) have found potential applications in many areas of electronics, such as sensing, memory systems, optoelectronics, and power. Despite an intense experimental work, the literature is lacking of accurate modeling of nonvolatile memories (NVMs) based on 2DMs. In this work, using technology CAD simulations and model calibration with experiments, we show that the experimental program/erase characteristics of floating-gate (FG) memory devices based on monolayer molybdenum disulphide can be explained by considering bandgap trap states at the dielectric-semiconductor interface. The simulation model includes a classical approach based on drift-diffusion longitudinal channel transport and on nonlocal Wentzel-Kramers-Brillouin (WKB) tunneling for transversal transport (responsible of FG charging/discharging) and for tunneling at contacts. From hysteresis and pulse programming simulations on scaled devices, we find that the long-channel programming window is still maintained at similar to 100 nm and that process improvements aimed at reducing the concentration of interface traps in the semiconducting bandgap could significantly optimize memory operation.
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