"Programmability of nanowire networks"
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Bellew, A.T. Bell, A.P. McCarthy, E.K. Fairfield, J.A. Boland, J.J., "Programmability of nanowire networks", Nanoscale, 6, 16, 2014, 9632 - 9639
Abstract
Electrical connectivity in networks of nanoscale junctions must be better understood if nanowire devices are to be scaled up from single wires to functional material systems. We show that the natural connectivity behaviour found in random nanowire networks presents a new paradigm for creating multi-functional, programmable materials. In devices made from networks of Ni/NiO core–shell nanowires at different length scales, we discover the emergence of distinct behavioural regimes when networks are electrically stressed. We show that a small network, with few nanowire–nanowire junctions, acts as a unipolar resistive switch, demonstrating very high ON/OFF current ratios (>105). However, large networks of nanowires distribute an applied bias across a large number of junctions, and thus respond not by switching but instead by evolving connectivity. We demonstrate that these emergent properties lead to fault–tolerant materials whose resistance may be tuned, and which are capable of adaptively reconfiguring under stress. By combining these two behavioural regimes, we demonstrate that the same nanowire network may be programmed to act both as a metallic interconnect, and a resistive switch device with high ON/OFF ratio. These results enable the fabrication of programmable, multi-functional materials from random nanowire networks
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Sponsor: European Research Council (ERC)
Grant Number: COGNET 321160
Author's Homepage: http://people.tcd.ie/jboland
Type of material: Journal Article

