Login / Signup

Bi2O2Se-Based Memristor-Aided Logic.

Bo LiuYudi ZhaoDharmendra VermaLe An WangHanyuan LiangHui ZhuLain-Jong LiTuo-Hung HouChao Sung Lai
Published in: ACS applied materials & interfaces (2021)
The implementation of two-dimensional materials into memristor architectures has recently been a new research focus by taking advantage of their atomic thickness, unique lattice, and physical and electronic properties. Among the van der Waals family, Bi2O2Se is an emerging ternary two-dimensional layered material with ambient stability, suitable band structure, and high conductivity that exhibits high potential for use in electronic applications. In this work, we propose and experimentally demonstrate a Bi2O2Se-based memristor-aided logic. By carefully tuning the electric field polarity of Bi2O2Se through a Pd contact, a reconfigurable NAND gate with zero static power consumption is realized. To provide more knowledge on NAND operation, a kinetic Monte Carlo simulation is carried out. Because the NAND gate is a universal logic gate, cascading additional NAND gates can exhibit versatile logic functions. Therefore, the proposed Bi2O2Se-based MAGIC can be a promising building block for developing next-generation in-memory logic computers with multiple functions.
Keyphrases
  • healthcare
  • monte carlo
  • primary care
  • mental health
  • air pollution
  • working memory
  • risk assessment
  • quality improvement
  • optical coherence tomography
  • human health