Abstract
This letter investigates self-compliance behavior for nonvolatile resistance random access memory using the indium tin oxide (ITO)/Gd:SiOx/TiN structure. Different current compliances in the electroforming process results in different trends in the set process, including a different self-compliance scale and one-or two-step set behaviors. The oxygen ions generated during the electroforming and set process drift to ITO, inducing a semiconductor-like ITO interface formation, which can be regarded as a self-built series resistor.
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