In situ forming, characterization, and transduction of nanowire memristors

Abstract: We report the nanorobotic in situ formation and characterization of memristors based on individual copper oxide nanowires (CuO NWs) and their potential applications as nanosensors with memory function (memristic sensors or "memsensors"). A series of in situ techniques for the experimental investigations of memristors are developed including nanorobotic manipulation, electro-beam-based forming, and electron energy loss spectroscopy (EELS) enabled correlation of transport properties and dopant distribution. All … Show more

“…The highest photoelectric conversion efficiency has reached to 5.38% [6][7]. Cu 2 O also has wide applications in gas sensing, [8][9] memristors, [10] and catalyst [11]. Due to the advantages in abundance, low cost, and nontoxicity, Cu 2 O satisfies the necessary economical and environmental requirement for large scale applications.…”

Orientation and Grain Shape control of Cu2O Film and the Related Properties

“…The highest photoelectric conversion efficiency has reached to 5.38% [6][7]. Cu 2 O also has wide applications in gas sensing, [8][9] memristors, [10] and catalyst [11]. Due to the advantages in abundance, low cost, and nontoxicity, Cu 2 O satisfies the necessary economical and environmental requirement for large scale applications.…”

Orientation and Grain Shape control of Cu2O Film and the Related Properties

“…In addition to perovskite-type ReRAMs [37][38][39] and devices based on binary oxides, [40][41][42][43][44][45][46] many reports on CBRAMs have appeared in recent years. [47][48][49][50][51][52][53] In one example, the dynamic growth and rupture of a Cu CF was confirmed during a switching cycle.…”

Microstructural transitions in resistive random access memory composed of molybdenum oxide with copper during switching cycles

“…In terms of TEM analysis these devices are advantageous because they forestall the need for complicated and time-consuming crosssectional specimen preparation if deposited directly onto electron transparent membranes. Horizontal memristive devices have been realized with switching nano-structures containing Ag wires (Avizienis et al, 2012), CuO nanowires (Fan et al, 2013;Liang et al, 2014), ZnO nanowires (Chiang et al, 2011), TiO 2 (Lin et al, 2016), Cu 2 S nanowires (Liu et al, 2015), GeTe nanowires (Sun et al, 2007), and Ge/Si nanowires (Yan et al, 2011). The large variety of material systems analyzed underlines the flexibility and relative ease with which such investigations can be conducted.…”

Transmission Electron Microscopy on Memristive Devices: An Overview