脉动流
微流控
记忆电阻器
材料科学
计算机科学
纳米技术
电子工程
心脏病学
医学
工程类
作者
A. Barnaveli,T. M. Kamsma,Willem Q. Boon,R. van Roij
标识
DOI:10.1103/physrevapplied.22.054057
摘要
A hitherto unexploited characteristic feature of emerging iontronic devices for information processing is the intrinsic mobility of the medium (water) of dissolved ions in aqueous electrolytes, which therefore respond not only to voltage but also to pressure. Here we study a microfluidic memristor, in the form of a conical channel, exposed to simultaneously applied time-dependent voltage and pressure drops, through numerical solutions of the Poisson-Nernst-Planck-Stokes equations for ion and fluid transport. We show that the channel's memristive properties can be enhanced, reduced, or instantaneously reset by appropriate pressure, and we leverage this finding with two examples of time series processing of simultaneously applied voltage and pressure pulses. We show not only that the distinction between different voltage time series can be improved by enhancing the conductance response with corresponding pressure pulses, but also that the bandwidth of information transfer through the channel can be doubled by letting the pressure pulses represent a second independent time series.
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