Optoelectronic Memristor
An optoelectronic memristor includes a first electrode, a second electrode, and a solid electrolyte in between that is in electrical communication with the first electrode and the second electrode. The solid electrolyte has an electronic conductivity of about lCT10 Siemens/cm to about lCT4 Siemens/cm at room temperature. The first electrode, and optionally the second electrode, can be optically transparent at a specific wavelength and/or a wavelength range. A direct current (DC) voltage source is employed to apply an electric field across the solid electrolyte, which induces a spatial redistribution of ionic defects in the solid electrolyte. In turn, this causes a change in electrical resistance of the solid electrolyte. The application of the electric field can also cause a change in an optical property of the solid electrolyte at the specific wavelength, and/or at the wavelength range (or a portion thereof).
Researchers
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optoelectronic memristor devices including one or more solid electrolytes with electrically controllable optical properties
United States of America | Granted | 10,910,559 -
optoelectronic memristor devices
Patent Cooperation Treaty | Published application
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