Sungkyu Kim scite author profile

With the advent of artificial intelligence (AI), memristors have received significant interest as a synaptic building block for neuromorphic systems, where each synaptic memristor should operate in an analog fashion, exhibiting multilevel accessible conductance states. Here, we demonstrate that the transition of the operation mode in poly(1,3,5-trivinyl-1,3,5-trimethyl cyclotrisiloxane) (pV3D3)-based flexible memristor from conventional binary to synaptic analog switching can be achieved simply by reducing the size of the formed filament. With the quantized conductance states observed in the flexible pV3D3 memristor, analog potentiation and depression characteristics of the memristive synapse are obtained through the growth of atomically thin Cu filament and lateral dissolution of the filament via dominant electric field effect, respectively. The face classification capability of our memristor is evaluated via simulation using an artificial neural network consisting of pV3D3 memristor synapses. These results will encourage the development of soft neuromorphic intelligent systems.

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Graphene-assisted spontaneous relaxation towards dislocation-free heteroepitaxy

Bae

Han

et al. 2020

Nat. Nanotechnol.

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The Role of NiO_x Overlayers on Spontaneous Growth of NiSi_x Nanowires from Ni Seed Layers

Kang

Kim

et al. 2008

Nano Lett.

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We report a controllably reproducible and spontaneous growth of single-crystalline NiSix nanowires using NiOx/Ni seed layers during SiH4 chemical vapor deposition (CVD). We provide evidence that upon the reactions of SiH4 (vapor)-Ni seed layers (solid), the presence of the NiOx overlayer on Ni seed layers plays the key role to promote the spontaneous one-dimensional growth of NiSix single crystals without employing catalytic nanocrystals. Specifically, the spontaneous nanowire formation on the NiOx overlayer is understood within the frame of the SiH4 vapor-phase reaction with out-diffused Ni from the Ni underlayers, where the Ni diffusion is controlled by the NiOx overlayers for the limited nucleation. We show that single-crystalline NiSix nanowires by this self-organized fashion in our synthesis display a narrow diameter distribution, and their average length is set by the thickness of the Ni seed layers. We argue that our simple CVD method employing the bilayers of transition metal and their oxides as the seed layers can provide implication as the general synthetic route for the spontaneous growth of metal-silicide nanowires in large scales.

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Vertical full-colour micro-LEDs via 2D materials-based layer transfer

Shin

Kim

Sundaram

et al. 2023

Nature

144

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Sungkyu Kim

Heterogeneous integration of single-crystalline complex-oxide membranes

Polymer Analog Memristive Synapse with Atomic-Scale Conductive Filament for Flexible Neuromorphic Computing System

Graphene-assisted spontaneous relaxation towards dislocation-free heteroepitaxy

The Role of NiO_x Overlayers on Spontaneous Growth of NiSi_x Nanowires from Ni Seed Layers

Vertical full-colour micro-LEDs via 2D materials-based layer transfer

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About

Sungkyu Kim

Heterogeneous integration of single-crystalline complex-oxide membranes

Polymer Analog Memristive Synapse with Atomic-Scale Conductive Filament for Flexible Neuromorphic Computing System

Graphene-assisted spontaneous relaxation towards dislocation-free heteroepitaxy

The Role of NiOx Overlayers on Spontaneous Growth of NiSix Nanowires from Ni Seed Layers

Vertical full-colour micro-LEDs via 2D materials-based layer transfer

Contact Info

Product

Resources

About

The Role of NiO_x Overlayers on Spontaneous Growth of NiSi_x Nanowires from Ni Seed Layers