Abstract
Resistance random access memory (RRAM) is an emerging nonvolatile memory that offers advantages of scalability, fast switching, and low voltages. Magnetite, Fe 3O 4, has been shown to exhibit resistance switching in nanoscale architectures such as superlattices. Here, we show that electrodeposited polycrystalline films of Fe 3O 4 exhibit multistate resistance switching. Experiments suggest that the insulator-to-metal transition may be facilitated by the presence of a thin nano-crystalline layer which is critical for resistance switching to occur at lower bias. We also show that the switching behavior can be tuned through the applied deposition potential. The multiple resistance states accessible in these simple architectures open up new possibilities for multi-bit data storage and retrieval.
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