Journal
SCIENCE CHINA-MATERIALS
Volume 66, Issue 6, Pages 2383-2392Publisher
SCIENCE PRESS
DOI: 10.1007/s40843-022-2367-0
Keywords
resistive switching; organic-inorganic halide perovskite; ion migration; grain boundary; space-confined
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In this study, it is found that organic-inorganic halide perovskite exhibits fast ion transport within the grain boundaries of two-dimensional films, which can be controlled by the structure of the perovskite. This discovery enables the fabrication of electroforming-free resistive random access memory (RRAM) devices with low set voltage and small variations. It also has potential applications in electronic and photonic circuits.
Organic-inorganic halide perovskite has attracted significant interest in being switching medium for resistive random access memory (RRAM), yet the in-depth understanding of ion spatial distribution and transport kinetics-which is responsible for the filament formation and normally suffers from a paradox between stochasticity and dynamics-remains limited. Herein, we show evidence of space-confined, fast extrinsic ion transport within grain boundaries (GBs) of two-dimensional perovskite films through systematic ex-situ and in-situ studies. The filament growth can be dominated by the geometrical feature of GBs that act as the channel for cation transport in the dielectric film. By tailoring the structure of perovskite GBs, electroforming-free RRAM devices are fabricated with an ultralow set voltage of 0.09 V (1.8kVcm(-1)) and small temporal/spatial variations (< 10%). The devices can also be integrated with flexible substrates for multifunctional applications, including multilevel writing and light erasing. Our work may open new perspectives for regulating filament formation kinetics in RRAMs and provides a reliable building block for future applications in electronic and photonic circuits.
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