Resende Joao, Sekkat Abderrahime, Nguyen Viet Huong, Chatin Tomy, Jiménez Carmen, Burriel Mónica, Bellet Daniel, Muñoz-Rojas David
Université Grenoble Alpes, CNRS, Grenoble INP, LMGP, Grenoble, F-38000, France.
AlmaScience, Almascience, Campus da Caparica, Caparica, Almada, 2829-516, Portugal.
Small. 2021 May;17(21):e2007344. doi: 10.1002/smll.202007344. Epub 2021 Apr 7.
Threshold switching devices are fundamental active elements in more than Moore approaches, integrating the new generation of non-volatile memory devices. Here, the authors report an in-plane threshold resistive switching device with an on/off ratio above 10 , a low resistance state of 10 to 100 kΩ and a high resistance state of 10 to 100 GΩ. Our devices are based on nanocomposites of silver nanowire networks and titanium oxide, where volatile unipolar threshold switching takes place across the gap left by partially spheroidized nanowires. Device reversibility depends on the titanium oxide thickness, while nanowire network density determines the threshold voltage, which can reach as low as 0.16 V. The switching mechanism is explained through percolation between metal-semiconductor islands, in a combined tunneling conduction mechanism, followed by a Schottky emission generated via Joule heating. The devices are prepared by low-cost, atmospheric pressure, and scalable techniques, enabling their application in printable, flexible, and transparent electronics.
阈值开关器件是超越摩尔定律方法中的基本有源元件,用于集成新一代非易失性存储器件。在此,作者报道了一种面内阈值电阻开关器件,其开/关比高于10,低电阻状态为10至100 kΩ,高电阻状态为10至100 GΩ。我们的器件基于银纳米线网络和氧化钛的纳米复合材料,其中挥发性单极阈值开关发生在部分球化纳米线留下的间隙中。器件的可逆性取决于氧化钛的厚度,而纳米线网络密度决定阈值电压,该电压可低至0.16 V。通过金属-半导体岛之间的渗流,在组合隧穿传导机制中,随后通过焦耳热产生肖特基发射来解释开关机制。这些器件通过低成本、大气压和可扩展技术制备,使其能够应用于可印刷、柔性和透明电子器件。
