APL Materials (Oct 2019)
Electrochemical memristive devices based on submonolayer metal deposition
Abstract
This paper explores the concept of an analog memristive device based on reversible electrochemical deposition and deplating of a submonolayer metal layer on a 108 Ω resistive bar. Initial feasibility experiments demonstrate a continuous resistance change by seven orders of magnitude during physical vapor deposition of Cu on TaNx/SOI, with the most promising range from 5.6 × 107 to 1.1 × 107 Ω/□ during a 0.64 monolayer Cu deposition. Cyclic electrochemical deposition and deplating of Cu on a metal seed on SiO2 in a 0.01M CuSO4/H2SO4 pH 1.4 solution demonstrates a reversible resistance variation with a minimum of 10 ± 1 discrete resistance states. These initial results are promising but also reveal a key materials challenge: the need for controlled and reversible electrochemical deposition/deplating of a submonolayer metal on the surface of a relatively high resistivity (≥10−2 Ω m) material.
