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Large Memory Window of van der Waals Heterostructure Devices Based on MOCVD‐Grown 2D Layered Ge<sub>4</sub>Se<sub>9</sub>

Gichang Noh, Hwayoung Song, Heenang Choi, Mingyu Kim, Jae Hwan Jeong, Yongjoon Lee, Min‐Yeong Choi, Saeyoung Oh, Min‐kyung Jo, Dong Yeon Woo, Yooyeon Jo, Eunpyo Park, Eoram Moon, Tae Soo Kim, Hyun‐Jun Chai, Woong Huh, Chul‐Ho Lee, Cheol‐Joo Kim, Heejun Yang, Seungwoo Song, Hu Young Jeong, Yong‐Sung Kim, Gwan‐Hyoung Lee, Jongsun Lim, Chang Gyoun Kim, Taek‐Mo Chung, Joon Young Kwak, Kibum Kang

2022Advanced Materials38 citationsDOI

Abstract

Abstract Van der Waals (vdW) heterostructures have drawn much interest over the last decade owing to their absence of dangling bonds and their intriguing low‐dimensional properties. The emergence of 2D materials has enabled the achievement of significant progress in both the discovery of physical phenomena and the realization of superior devices. In this work, the group IV metal chalcogenide 2D‐layered Ge 4 Se 9 is introduced as a new selection of insulating vdW material. 2D‐layered Ge 4 Se 9 is synthesized with a rectangular shape using the metalcorganic chemical vapor deposition system using a liquid germanium precursor at 240 °C. By stacking the Ge 4 Se 9 and MoS 2 , vdW heterostructure devices are fabricated with a giant memory window of 129 V by sweeping back gate range of ±80 V. The gate‐independent decay time reveals that the large hysteresis is induced by the interfacial charge transfer, which originates from the low band offset. Moreover, repeatable conductance changes are observed over the 2250 pulses with low non‐linearity values of 0.26 and 0.95 for potentiation and depression curves, respectively. The energy consumption of the MoS 2 /Ge 4 Se 9 device is about 15 fJ for operating energy and the learning accuracy of image classification reaches 88.3%, which further proves the great potential of artificial synapses.

Topics & Concepts

Materials scienceHeterojunctionDangling bondvan der Waals forceOptoelectronicsChalcogenideMetalorganic vapour phase epitaxyChemical vapor depositionGermaniumStackingNanotechnologyChemical physicsSiliconEpitaxyLayer (electronics)ChemistryOrganic chemistryPhysicsNuclear magnetic resonanceMolecule2D Materials and ApplicationsAdvanced Memory and Neural ComputingPerovskite Materials and Applications
Large Memory Window of van der Waals Heterostructure Devices Based on MOCVD‐Grown 2D Layered Ge<sub>4</sub>Se<sub>9</sub> | Litcius