每年專案
摘要
Multiterminal memtransistors made from two-dimensional (2D) materials have garnered increasing attention in the pursuit of low-power heterosynaptic neuromorphic circuits. However, existing 2D memtransistors tend to necessitate high set voltages (>1 V) or feature defective channels, posing concerns regarding material integrity and intrinsic properties. Herein, we present a monocrystalline monolayer MoS2 memtransistor designed for operation within submicron regimes. Under reverse drain bias sweeps, our experiments reveal memristive behavior within the device, further controllable through modulation of the gate terminal. This controllability facilitates the consistent manifestation of multistate memory effects. Notably, the memtransistor behavior becomes more significant as the channel length diminishes, particularly with channel lengths below 1.6 μm, showcasing an increase in the switching ratio alongside a decrease in the set voltage with the decreasing channel length. Our optimized memtransistor demonstrates the ability to exhibit individual resistance states spanning 5 orders of magnitude, with switching drain voltages of approximately 0.05 V. To elucidate these findings, we investigate hot carrier effects and their interplay with oxide traps within the HfO2 dielectric. This work highlights the importance of memtransisor behavior in highly scaled 2D transistors, particularly those featuring low contact resistances. This understanding holds the potential to tailor memory characteristics essential for the development of energy-efficient neuromorphic devices.
原文 | ???core.languages.en_GB??? |
---|---|
頁(從 - 到) | 6936-6945 |
頁數 | 10 |
期刊 | ACS Nano |
卷 | 18 |
發行號 | 9 |
DOIs | |
出版狀態 | 已出版 - 5 3月 2024 |
指紋
深入研究「Submicron Memtransistors Made from Monocrystalline Molybdenum Disulfide」主題。共同形成了獨特的指紋。專案
- 1 已完成
-
低維度材料之關鍵技術整合於建構前瞻半導體元件之研究-低維度材料之關鍵技術整合於建構前瞻半導體元件之研究(1/3)
Su, C.-Y. (PI)
1/05/23 → 30/04/24
研究計畫: Research