Kyung Wook Seo scite author profile

We demonstrated analog memory, synaptic plasticity, and a spike-timing-dependent plasticity (STDP) function with a nanoscale titanium oxide bilayer resistive switching device with a simple fabrication process and good yield uniformity. We confirmed the multilevel conductance and analog memory characteristics as well as the uniformity and separated states for the accuracy of conductance change. Finally, STDP and a biological triple model were analyzed to demonstrate the potential of titanium oxide bilayer resistive switching device as synapses in neuromorphic devices. By developing a simple resistive switching device that can emulate a synaptic function, the unique characteristics of synapses in the brain, e.g. combined memory and computing in one synapse and adaptation to the outside environment, were successfully demonstrated in a solid state device.

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RRAM-based synapse for neuromorphic system with pattern recognition function

Park

et al. 2012

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Organic electrochemical transistor-based channel dimension-independent single-strand wearable sweat sensors

et al. 2018

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Despite the great potential of polymer microfibers in human-friendly wearable electronics, most previous polymeric electronics have been limited to thin-film-based devices due to practical difficulties in fabricating microfibrillar devices, as well as defining the active channel dimensions in a reproducible manner. Herein, we report on conducting polymer microfiber-based organic electrochemical transistors (OECTs) and their application in single-strand fiber-type wearable ion concentration sensors. We developed a simple wet-spinning process to form very conductive poly(3,4ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) microfibers using aqueous sulfuric acid solutions and carefully examined their electrical/electrochemical properties. In conjunction with fabricating substrate-free PEDOT:PSS microfiber-based OECT devices, the proposed novel characterization method demonstrated that the current variation ratio can be a reliable method for evaluating the device performance for sensing ion concentrations, regardless of the actual channel dimensions. Finally, we developed single-strand fiber-type skin-mountable OECTs by introducing a source-gate hybrid electrode and demonstrated that the resultant microfiber sensors can perform real-time repetitive measurements of the ion concentration in human sweat.

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Co-Occurrence of Threshold Switching and Memory Switching in $\hbox{Pt}/\hbox{NbO}_{x}/\hbox{Pt}$ Cells for Crosspoint Memory Applications

Liu

Sadaf

Son

et al. 2012

IEEE Electron Device Lett.

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Kyung Wook Seo

10×10nm<sup>2</sup> Hf/HfO<inf>x</inf> crossbar resistive RAM with excellent performance, reliability and low-energy operation

Analog memory and spike-timing-dependent plasticity characteristics of a nanoscale titanium oxide bilayer resistive switching device

RRAM-based synapse for neuromorphic system with pattern recognition function

Organic electrochemical transistor-based channel dimension-independent single-strand wearable sweat sensors

Co-Occurrence of Threshold Switching and Memory Switching in $\hbox{Pt}/\hbox{NbO}_{x}/\hbox{Pt}$ Cells for Crosspoint Memory Applications

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Kyung Wook Seo

10&#x00D7;10nm<sup>2</sup> Hf/HfO<inf>x</inf> crossbar resistive RAM with excellent performance, reliability and low-energy operation

Analog memory and spike-timing-dependent plasticity characteristics of a nanoscale titanium oxide bilayer resistive switching device

RRAM-based synapse for neuromorphic system with pattern recognition function

Organic electrochemical transistor-based channel dimension-independent single-strand wearable sweat sensors

Co-Occurrence of Threshold Switching and Memory Switching in $\hbox{Pt}/\hbox{NbO}_{x}/\hbox{Pt}$ Cells for Crosspoint Memory Applications

Contact Info

Product

Resources

About

10×10nm<sup>2</sup> Hf/HfO<inf>x</inf> crossbar resistive RAM with excellent performance, reliability and low-energy operation