The Resistive Switching Behavior of Al/Chitosan-Graphene Oxide/FTO Structure

Ho, Hau Huu Do; Le, Tung; Pham, Ngoc Kim

doi:10.1155/2021/5565169

Cited by 7 publications

(3 citation statements)

References 28 publications

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“…Compared with previously reported pure honey-RSM devices [17][18][19][20] and other natural organic materials based RSM devices [22][23][24] embedded with nanomaterials such as CNTs and nanoparticles, this study shows that the incorporation of CNTs in honey-RSM devices can lower the HRS leakage current, increase the ON/OFF current ratio, and reduce SET and RESET time response and increase switching speed, which are desirable for nonvolatile memory. This study established a useful practice for fabrication of RSM devices based on honey and can be extended to other natural organic materials.…”

Section: Resultsmentioning

confidence: 46%

“…Investigations have been carried out to further improve switching properties of natural organic materials by incorporating carbon-based nanomaterials such as graphene in chitosan [22], graphite nanosheet in keratin [23], and carbon nanotube (CNT) in egg albumen [24]. The improvement by these nanomaterials is attributed to the regulation of formation and rupture of conductive filaments [25].…”

Section: Introductionmentioning

confidence: 99%

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Study of carbon nanotube embedded honey as a resistive switching material

Tanim¹,

Sueoka²,

Cheong³

et al. 2022

Nanotechnology

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In this paper, natural organic honey embedded with carbon nanotubes (CNTs) was studied as a resistive switching material for biodegradable nonvolatile memory in emerging neuromorphic systems. CNTs were dispersed in a honey-water solution with the concentration of 0.2 wt% CNT and 30 wt% honey. The final honey-CNT-water mixture was spin-coated and dried into a thin film sandwiched in between Cu bottom electrode and Al top electrode to form a honey-CNT based resistive switching memory (RSM). Surface morphology, electrical characteristics and current conduction mechanism were investigated. The results show that although CNTs formed agglomerations in the dried honey-CNT film, both switching speed and the stability in SET and RESET process of honey-CNT RSM were improved. The mechanism of current conduction in CNT is governed by Ohm’s law in low-resistance state and the low-voltage range in high-resistance state, but transits to the space charge limited conduction at high voltages approaching the SET voltage.

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Section: Resultsmentioning

confidence: 46%

Section: Introductionmentioning

confidence: 99%

Study of carbon nanotube embedded honey as a resistive switching material

Tanim¹,

Sueoka²,

Cheong³

et al. 2022

Nanotechnology

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“…Polysaccharides, such as chitosan (CS) and cellulose, have been reported to be able to prepare transistors, memristors, and synaptic devices. − Rho et al prepared a flexible memristive device with Ag/Au–CS/Au structure based on CS on a flexible transparent substrate . This transparent biomemristive device is feasible, flexible, and biodegradable.…”

Section: Research Progressmentioning

confidence: 99%

Flexible Memristor-Based Nanoelectronic Devices for Wearable Applications: A Review

Rao,

Wang,

Mao

et al. 2023

ACS Appl. Nano Mater.

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In the high-tech and intelligent era of the 21st century, as one of the important electronic devices, wearable electronic products can effectively improve work efficiency and quality of life. Since memristors have broad application prospects in information storage, neural synapses, neural networks, neuromorphic computation, electronic skin (e-skin), and brain-like chips, the development of flexible electronic devices based on memristors has received extensive attention. However, the incompatibility between the flexible substrate and the functional layer, the performance degradation after repeated bending, and the instability of devices in the biological environment greatly limit the commercial application of flexible memristors. In this review, the characteristics and applications of different types of functional layer nanomaterial-based memristors are first analyzed, and the preparation and integration of the devices are discussed. Then the development bottleneck of flexible memristors is introduced, and corresponding solutions are proposed. Finally, we look forward to the development of intelligent flexible memristors and point out the direction for the development of wearable electronic products based on flexible memristors, which promotes research of flexible memristors in artificial intelligence.

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Resistive Switching Characteristics of Fullerene (C60) in Polymannose Thin Film

Cheong

Tayeb

Zhao

2022

Physica Rapid Research Ltrs

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The effects of C60 incorporated in polymannose‐based resistive switching memory have been systematically investigated for the first time in bioorganic‐based resistive switching memory. C60 with different concentrations (0–7 wt%) is dispersed in polymannose precursor, drop‐casted on ITO/PET substrate, and dried to form a thin film. Electrochemically inert Au–Pd is used as top electrode. The devices with embedded C60 show better endurance and stability. Read memory window decreases and ON/OFF ratio increases as the concentration of C60 increases. Stable retention time up to 10 years is achieved for all of the devices except the one with 7 wt% C60. Based on zeta potential measurement, polymannose is more negatively charged than C60. Hence, C60 functions as an effective interlock that bridges between long molecular chains of polymannose and enhances the resistive switching properties of the polymannose thin film.

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The Resistive Switching Behavior of Al/Chitosan-Graphene Oxide/FTO Structure

Cited by 7 publications

References 28 publications

Study of carbon nanotube embedded honey as a resistive switching material

Study of carbon nanotube embedded honey as a resistive switching material

Flexible Memristor-Based Nanoelectronic Devices for Wearable Applications: A Review

Resistive Switching Characteristics of Fullerene (C60) in Polymannose Thin Film

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