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Paper detail

Benchtop Fabrication of Memristive Atomic Switch Networks

Recent advances in nanoscale science and technology provide possibilities to directly self-assemble and integrate functional circuit elements within the wiring scheme of devices with potentially unique architectures. Electroionic resistive switching circuits comprising highly interconnected fractal electrodes and metal-insulator-metal interfaces, known as atomic switch networks, have been fabricated using simple benchtop techniques including solution-phase electroless deposition. These devices are shown to activate through a bias-induced forming step that produces the frequency dependent, nonlinear hysteretic switching expected for gapless-type atomic switches and memristors. By eliminating the need for complex lithographic methods, such an approach toward device fabrication provides a more accessible platform for the study of ionic resistive switches and memristive systems.

preprint2014arXivOpen access
Henry O. SillinEric J. SandoukAudrius V. AvizienisMasakazu AonoAdam Z. StiegJames K. Gimzewski
cond-mat.mtrl-scicond-mat.dis-nn
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Henry O. SillinEric J. SandoukAudrius V. AvizienisMasakazu AonoAdam Z. StiegJames K. Gimzewski

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