Nature Communications (Sep 2023)

Monolithic 3D integration of 2D transistors and vertical RRAMs in 1T–4R structure for high-density memory

  • Maosong Xie,
  • Yueyang Jia,
  • Chen Nie,
  • Zuheng Liu,
  • Alvin Tang,
  • Shiquan Fan,
  • Xiaoyao Liang,
  • Li Jiang,
  • Zhezhi He,
  • Rui Yang

DOI
https://doi.org/10.1038/s41467-023-41736-2
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract Emerging data-intensive computation has driven the advanced packaging and vertical stacking of integrated circuits, for minimized latency and energy consumption. Yet a monolithic three-dimensional (3D) integrated structure with interleaved logic and high-density memory layers has been difficult to achieve due to challenges in managing the thermal budget. Here we experimentally demonstrate a monolithic 3D integration of atomically-thin molybdenum disulfide (MoS2) transistors and 3D vertical resistive random-access memories (VRRAMs), with the MoS2 transistors stacked between the bottom-plane and top-plane VRRAMs. The whole fabrication process is integration-friendly (below 300 °C), and the measurement results confirm that the top-plane fabrication does not affect the bottom-plane devices. The MoS2 transistor can drive each layer of VRRAM into four resistance states. Circuit-level modeling of the monolithic 3D structure demonstrates smaller area, faster data transfer, and lower energy consumption than a planar memory. Such platform holds a high potential for energy-efficient 3D on-chip memory systems.