Small

, volume 15 , issue 45 , pages 1903809

Molybdenum Disulfide Nanosheet/Quantum Dot Dynamic Memristive Structure Driven by Photoinduced Phase Transition

Xiao Fu ¹

Lei Zhang ²

Hak D Cho ¹

Tae Won Kang ¹

D. J. Fu ³

Dongjin Lee ¹

Sang Wuk Lee ¹

Luying Li ⁴

Qi Tianyu ⁴

Abdul S Chan ⁵

Ziyodbek A Yunusov ¹

Gennady N Panin ^{1, 6}

Hide authors affiliations Show authors affiliations: 6 affiliations

Nano Information Technology AcademyQuantum‐Functional Semiconductor Research CenterDepartment of PhysicsDongguk University 3‐26 Pildong, Jung‐Gu Seoul 04620 Republic of Korea |

Hubei Collaborative Innovation Center for Advanced Organic Chemical MaterialsKey Laboratory for the Green Preparation and Application of Functional MaterialsSchool of Materials Science and EngineeringHubei University No. 368, Friendship Avenue Wuhan 430061 P. R. China |

Key Laboratory of Artificial Micro‐ and Nano‐structures of Ministry of Education and Hubei Key Laboratory of Nuclear Solid PhysicsSchool of Physics and TechnologyWuhan University Bayi Road 299 Wuhan 430072 China |

⁴

Center for Nanoscale Characterization & Devices Wuhan National Laboratory for Optoelectronics Huazhong University of Science and Technology 1037 Luoyu Road Wuhan 430074 China |

⁵

Electrical Engineering DepartmentSukkur IBA University Airport Road Sukkur 65200 Pakistan |

⁶

Institute of Microelectronics Technology and High‐Purity MaterialsRussian Academy of Sciences Chernogolovka Moscow district 142432 Russia |

Publication type: Journal Article

Publication date: 2019-09-20

Wiley

Small

scimago Q1

wos Q1

SJR: 3.301

CiteScore: 16.1

Impact factor: 12.1

ISSN: 16136810, 16136829

DOI: 10.1002/smll.201903809

Copy DOI

PubMed ID: 31539209

General Chemistry

Biotechnology

General Materials Science

Biomaterials

Abstract

MoS2 2D nanosheets (NS) with intercalated 0D quantum dots (QDs) represent promising structures for creating low-dimensional (LD) resistive memory devices. Nonvolatile memristors based 2D materials demonstrate low power consumption and ultrahigh density. Here, the observation of a photoinduced phase transition in the 2D NS/0D QDs MoS2 structure providing dynamic resistive memory is reported. The resistive switching of the MoS2 NS/QD structure is observed in an electric field and can be controlled through local QD excitations. Photoexcitation of the LD structure at different laser power densities leads to a reversible MoS2 2H-1T phase transition and demonstrates the potential of the LD structure for implementing a new dynamic ultrafast photoresistive memory. The dynamic LD photomemristive structure is attractive for real-time pattern recognition and photoconfiguration of artificial neural networks in a wide spectral range of sensitivity provided by QDs.

Found

1 citation

Naumov Andrei

🥼

DSc in Physics and Mathematics, associate professor, associate member of the Russian Academy of Sciences

136 publications, 1 737 citations, 6 reviews

h-index: 24

P.N. Lebedev Physical Institute of the Russian Academy of Sciences

Institute of Spectroscopy of the Russian Academy of Sciences

Moscow Pedagogical State University

Research interests

Atomic force microscopy

Fluorescence nanoscopy

Single-molecule spectroscopy

Spectroscopy

1 citation

Kabachkov Evgeny

🥼 🤝

124 publications, 837 citations, 30 reviews

h-index: 15

Osipyan Institute of Solid State Physics of the Russian Academy of Sciences

Federal Research Center of Problem of Chemical Physics and Medicinal Chemistry RAS

Nonorganic nanomaterials

Plasma Physics

Spectroscopy

XPS

1 citation

Laptinskiy Kirill

71 publications, 608 citations, 8 reviews

h-index: 14

Lomonosov Moscow State University

1 citation

Mitiushev Nikita

🤝

9 publications, 11 citations

h-index: 2

Lomonosov Moscow State University

Institute of Microelectronics Technology and High Purity Materials of the Russian Academy of Sciences

Kurnakov Institute of General and Inorganic Chemistry of the Russian Academy of Sciences

Luminescent materials

Memristors

New carbon nanomaterials

Photomemristors

Reduced Graphene oxide

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GOST |

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GOST Copy

Fu X. et al. Molybdenum Disulfide Nanosheet/Quantum Dot Dynamic Memristive Structure Driven by Photoinduced Phase Transition // Small. 2019. Vol. 15. No. 45. p. 1903809.

GOST all authors (up to 50) Copy

Fu X., Zhang L., Cho H. D., Kang T. W., Fu D. J., Lee D., Lee S. W., Li L., Tianyu Q., Chan A. S., Yunusov Z. A., Panin G. N. Molybdenum Disulfide Nanosheet/Quantum Dot Dynamic Memristive Structure Driven by Photoinduced Phase Transition // Small. 2019. Vol. 15. No. 45. p. 1903809.

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1002/smll.201903809

UR - https://doi.org/10.1002/smll.201903809

TI - Molybdenum Disulfide Nanosheet/Quantum Dot Dynamic Memristive Structure Driven by Photoinduced Phase Transition

T2 - Small

AU - Fu, Xiao

AU - Zhang, Lei

AU - Cho, Hak D

AU - Kang, Tae Won

AU - Fu, D. J.

AU - Lee, Dongjin

AU - Lee, Sang Wuk

AU - Li, Luying

AU - Tianyu, Qi

AU - Chan, Abdul S

AU - Yunusov, Ziyodbek A

AU - Panin, Gennady N

PY - 2019

DA - 2019/09/20

PB - Wiley

SP - 1903809

IS - 45

VL - 15

PMID - 31539209

SN - 1613-6810

SN - 1613-6829

ER -

BibTex |

Cite this

BibTex (up to 50 authors) Copy

@article{2019_Fu,

author = {Xiao Fu and Lei Zhang and Hak D Cho and Tae Won Kang and D. J. Fu and Dongjin Lee and Sang Wuk Lee and Luying Li and Qi Tianyu and Abdul S Chan and Ziyodbek A Yunusov and Gennady N Panin},

title = {Molybdenum Disulfide Nanosheet/Quantum Dot Dynamic Memristive Structure Driven by Photoinduced Phase Transition},

journal = {Small},

year = {2019},

volume = {15},

publisher = {Wiley},

month = {sep},

url = {https://doi.org/10.1002/smll.201903809},

number = {45},

pages = {1903809},

doi = {10.1002/smll.201903809}

}

MLA

Cite this

MLA Copy

Fu, Xiao, et al. “Molybdenum Disulfide Nanosheet/Quantum Dot Dynamic Memristive Structure Driven by Photoinduced Phase Transition.” Small, vol. 15, no. 45, Sep. 2019, p. 1903809. https://doi.org/10.1002/smll.201903809.

Publisher

Wiley

Journal

Small

scimago Q1

wos Q1

SJR

3.301

CiteScore

16.1

Impact factor

12.1

ISSN

16136810 (Print)

16136829 (Electronic)