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We demonstrate memristive functions of the room temperature thermoelectric material Bi-Se fabricated by electrochemical deposition in combination with active electrode Ag-based contacts. We present microfabrication steps for creating polymer molds… Click to show full abstract
We demonstrate memristive functions of the room temperature thermoelectric material Bi-Se fabricated by electrochemical deposition in combination with active electrode Ag-based contacts. We present microfabrication steps for creating polymer molds for the growth of compact memristive films. The electrical measurements show clear forming-free resistive switching behaviour for the electrochemically deposited material while temperature dependent measurements point to Schottky and space-charge-limited-current conduction mechanisms. For the envisioned combination of the memristors with a thermoelectric device we can conclude that electrodeposition is a viable method to produce silver-chalcogenide based non-volatile memristors for co-integration in zero power sensors.
Journal Title: Journal of Micromechanics and Microengineering
Year Published: 2021
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