Switching dynamics in titanium dioxide memristive devices
Hewlett-Packard (United States)
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Abstract
Memristive devices are promising components for nanoelectronics with applications in nonvolatile memory and storage, defect-tolerant circuitry, and neuromorphic computing. Bipolar resistive switches based on metal oxides such as TiO2 have been identified as memristive devices primarily based on the “pinched hysteresis loop” that is observed in their current-voltage (i-v) characteristics. Here we show that the mathematical definition of a memristive device provides the framework for understanding the physical processes involved in bipolar switching and also yields formulas that can be used to compute and predict important electrical and dynamical properties of the device. We applied an electrical…
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755
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- References
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Authors
7Topics & keywords
Topics
Keywords
- Memristor
- Neuromorphic engineering
- Materials science
- Hysteresis
- Nanoelectronics
- Resistive random-access memory
- Non-volatile memory
- Optoelectronics
UN Sustainable Development Goals
- Affordable and clean energy
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