Thin polyaniline films for organic memristors were prepared by spin coating for the first time.
The preparation condition effects on morphology and conductivity of the made-up films were …

Memristors and memristive devices represent a splendid area of research due to the unique
possibilities for the realization of new types of computer hardware elements and mimicking …

The biomimetic devices such as the artificial synapses are of great significance because
they can emulate the functions of biological systems. The development of memristive …

Organic memristive device based on polyaniline emeraldine base–polyethylene oxide was
fabricated. Cyclic voltage–current characteristics of the device, measured at different …

Langmuir–Shaefer films of a polyaniline–gold nanoparticle composite were fabricated and
characterized. The thickness of each deposited monolayer, determined with AFM, was found …

Polyaniline (PANI) based memristive devices have emerged as promising candidates for
hardware implementation of artificial synapses (the key components of neuromorphic …

Realizing element able to mimic some features of the human brain is a challenging
perspective. The concept of organic devices, based on conductive polymers, is attracting …

Gold nanoparticles-polyaniline, graphene sheets-polyaniline composite materials were
fabricated and their structure and electrical properties were analyzed. The fabricated …

The operation mechanism of polyaniline-based Organic Memristive Devices, synapse-like
devices particularly important for neuromorphic applications, are further investigated to …

The electrochemical organic memristor with polyaniline active layer is a stand-alone device
designed and realized for reproduction of some synapse properties in the innovative …