Nature Search

Flexible three-dimensional artificial synapse networks with correlated learning and trainable memory capability

High-density information storage calls for the development of modern electronics with multiple stacking architectures that increase the complexity of three-dimensional interconnectivity. Here, Wu et al. build a stacked yet flexible artificial synapse network using layer-by-layer solution processing.

Chaoxing Wu
Tae Whan Kim
J. Joshua Yang
ResearchOpen Access29 Sept 2017
Nature Communications

Volume: 8, P: 1-9
Memory-electroluminescence for multiple action-potentials combination in bio-inspired afferent nerves

In this work, a nanoscale light-emitting diode with memory-electroluminescence is demonstrated, which is used for mimicking the generation of multiple action-potentials and their combinations in bio-inspired afferent nerves.

Kun Wang
Yitao Liao
Tae Whan Kim
ResearchOpen Access25 Apr 2024
Nature Communications

Volume: 15, P: 1-11
Electroluminescence from μLED without external charge injection

Kun Wang
Ye Liu
Tailiang Guo
ResearchOpen Access15 May 2020
Scientific Reports

Volume: 10, P: 1-8
Flexible organic synaptic device based on poly (methyl methacrylate):CdSe/CdZnS quantum-dot nanocomposites

Bon Min Koo
Sihyun Sung
Tae Whan Kim
ResearchOpen Access05 Jul 2019
Scientific Reports

Volume: 9, P: 1-7
Interface-induced sign reversal of the anomalous Hall effect in magnetic topological insulator heterostructures

Berry curvature connects to exotic electronic phases hence it provides important insights to understand quantum materials. Here, the authors report sign change of the anomalous Hall effect resulted from Berry curvature change at the interface of a topological insulator/magnetic topological insulator heterostructure.

Fei Wang
Xuepeng Wang
Cui-Zu Chang
ResearchOpen Access04 Jan 2021
Nature Communications

Volume: 12, P: 1-8
Ultrathin electronic synapse having high temporal/spatial uniformity and an Al₂O₃/graphene quantum dots/Al₂O₃ sandwich structure for neuromorphic computing

This article demonstrates an ultrathin e-synapse having high yield, minimal performance variation, and extremely low power consumption based on a Al₂O₃/graphene quantum dots/Al₂O₃ sandwich structure that was fabricated by using atomic layer deposition. It showed both high device-to-device and cycle-to-cycle reproducibility with high stability, endurance, and switching uniformity, because of which the essential synaptic behaviors could be observed. This implementation of an e-synapse with an Al₂O₃/graphene quantum dots/Al₂O₃ structure should intensify motivation for engineering e-synapses for neuromorphic computing.

Zhongwei Xu
Fushan Li
Tae Whan Kim
ResearchOpen Access19 Apr 2019
NPG Asia Materials

Volume: 11, P: 1-10
Highly Stable and Flexible Memristive Devices Based on Polyvinylpyrrolidone: WS₂ Quantum Dots

Haoqun An
Yong Hun Lee
Tae Whan Kim
ResearchOpen Access01 Apr 2020
Scientific Reports

Volume: 10, P: 1-8
Large-scale microlens arrays on flexible substrate with improved numerical aperture for curved integral imaging 3D display

Wenwen Wang
Guixiong Chen
Yongai Zhang
ResearchOpen Access16 Jul 2020
Scientific Reports

Volume: 10, P: 1-9
Highly-stable write-once-read-many-times switching behaviors of 1D–1R memristive devices based on graphene quantum dot nanocomposites

Sihyun Sung
Chaoxing Wu
Tae Whan Kim
ResearchOpen Access13 Aug 2018
Scientific Reports

Volume: 8, P: 1-7
Biosynaptic devices based on chicken egg albumen:graphene quantum dot nanocomposites

Sihyun Sung
Jae Hyeon Park
Tae Whan Kim
ResearchOpen Access27 Jan 2020
Scientific Reports

Volume: 10, P: 1-8
Flexible memristive devices based on polyimide:mica nanosheet nanocomposites with an embedded PEDOT:PSS layer

Myoung Kyun Choi
Woo Kyum Kim
Tae Whan Kim
ResearchOpen Access16 Aug 2018
Scientific Reports

Volume: 8, P: 1-8
Highly flexible and stable resistive switching devices based on WS₂ nanosheets:poly(methylmethacrylate) nanocomposites

Jeong Heon Lee
Chaoxing Wu
Tae Whan Kim
ResearchOpen Access17 Dec 2019
Scientific Reports

Volume: 9, P: 1-8
Electromagnetic induction heating for single crystal graphene growth: morphology control by rapid heating and quenching

Chaoxing Wu
Fushan Li
Tailiang Guo
ResearchOpen Access12 Mar 2015
Scientific Reports

Volume: 5, P: 1-7
Flexible bio-memristive devices based on chicken egg albumen:Au@SiO₂ core-shell nanoparticle nanocomposites

Chang Han Bok
Sung Jun Woo
Tae Whan Kim
ResearchOpen Access20 Sept 2017
Scientific Reports

Volume: 7, P: 1-8
Concurrence of quantum anomalous Hall and topological Hall effects in magnetic topological insulator sandwich heterostructures

The coexistence of chiral edge states and chiral spin textures in magnetic topological insulator sandwiches provides a platform for proof-of-concept dissipationless spin-textured spintronic applications.

Jue Jiang
Di Xiao
Cui-Zu Chang
Research03 Feb 2020
Nature Materials

Volume: 19, P: 732-737
High sensitivity and wide response range artificial synapse based on polyimide with embedded graphene quantum dots

Lijie Kou
Nan Ye
Fushan Li
ResearchOpen Access20 May 2023
Scientific Reports

Volume: 13, P: 1-10
Low-voltage driving high-resistance liquid crystal micro-lens with electrically tunable depth of field for the light field imaging system

Wenwen Wang
Wandi Chen
Chaoxing Wu
ResearchOpen Access19 Oct 2022
Scientific Reports

Volume: 12, P: 1-11
Unique visible-light-assisted field emission of tetrapod-shaped ZnO/reduced graphene-oxide core/coating nanocomposites

Chaoxing Wu
Tae Whan Kim
Fushan Li
ResearchOpen Access12 Dec 2016
Scientific Reports

Volume: 6, P: 1-10
Enhancing the short-circuit current and power conversion efficiency of polymer solar cells with graphene quantum dots derived from double-walled carbon nanotubes

Graphene quantum dots (GQDs) derived from double-walled carbon nanotubes with strong emission were prepared through solution chemistry. The introduction of GQDs in a bulk heterojunction polymer solar cell based on Poly (3-hexylthiophene):(6,6)-phenyl-C61 butyric acid methyl ester (P3HT:PCBM) resulted in the significant enhancement of power conversion efficiency (PCE). The efficiency can be further improved by adjusting the PCBM content in the active layer, with the highest PCE of 5.24%.

Fushan Li
Lijie Kou
Tailiang Guo
ResearchOpen Access23 Aug 2013
NPG Asia Materials

Volume: 5, P: e60
Organic electronic synapses with pinched hystereses based on graphene quantum-dot nanocomposites

Organic electronic synapses based on poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS)/graphene quantum-dot (GQD) nanocomposites were fabricated by using a solution method. Current–voltage (I–V) curves for the devices under dual positive bias voltage sweeps and under dual negative bias voltage sweeps showed that the conductance with a pinched hysteresis gradually increased and gradually decreased, respectively, with increasing applied voltage which is a fingerprint of e-synapses. The current in the devices was found to decrease with increasing concentration of GQDs in the active layer, and the devices fabricated utilizing the ratio of PEDOT:PSS to GQDs of 1:0.4 showed the best performance among the e-synapses. The carrier transport and operating mechanisms of the e-synapses are described in this paper on the basis of both the I–V results and the trapping and escape of electrons from the GQDs. We believe that our letter contains significant results of interest to a broad spectrum of NPG Asia Materials readers.

Hwan Young Choi
Chaoxing Wu
Tae Whan Kim
ResearchOpen Access28 Jul 2017
NPG Asia Materials

Volume: 9, P: e413

Search

Filter By:

Search

Quick links