Modeling and simulating the adaptive electrical properties of stochastic polymeric 3D networks

Abstract: Memristors are passive two-terminal circuit elements that combine resistance and memory. Although in theory memristors are a very promising approach to fabricate hardware with adaptive properties, there are only very few implementations able to show their basic properties. We recently developed stochastic polymeric matrices with a functionality that evidences the formation of self-assembled three-dimensional (3D) networks of memristors. We demonstrated that those networks show the typical hysteretic behavior o… Show more

“…Stable channels of the signal transfer were formed in the first case, while it was a dynamic pattern of chains with high and low conductivity in the second one [53]. A model, describing such behavior [54] was similar to that used for the description of the brain reaction to the external stimuli.…”

Organic memristive device as key element for neuromorphic networks

“…Stable channels of the signal transfer were formed in the first case, while it was a dynamic pattern of chains with high and low conductivity in the second one [53]. A model, describing such behavior [54] was similar to that used for the description of the brain reaction to the external stimuli.…”

Organic memristive device as key element for neuromorphic networks

Neuromorphic Computing Based on Organic Memristive Systems

Memristor: Modeling and Research of Information Properties