JETP Letters, volume 111, issue 11, pages 627-632

Theoretical Study of the Electronic and Optical Properties of a Heterostructure Based on PTCDA Organic Semiconductor and MoSe2

Sukhanova E.V. ^{1, 2}

Popov Z I ^{1, 3}

Kvashnin D G ^{1, 4}

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Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, Russia |

Moscow Institute of Physics and Technology, National Research University, Dolgoprudny, Moscow region, Russia |

National University of Science and technology MISIS, Moscow, Russia |

⁴

School of Chemistry and Technology of Polymer Materials, Plekhanov Russian University of Economics, Moscow, Russia |

Publication type: Journal Article

Publication date: 2020-06-01

Pleiades Publishing

Journal: JETP Letters

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Impact factor: 1.3

ISSN: 00213640, 10906487

DOI: 10.1134/S0021364020110090

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Physics and Astronomy (miscellaneous)

Abstract

The structural and physicochemical properties of the MoSe2/PTCDA heterostructure, which consists of two-dimensional inorganic and molecular organic semiconductors, have been studied theoretically. Features of change in the electronic properties of the PTCDA monomolecular layer on the MoSe2 surface have been described by density functional theory. The quantitative analysis of charge transfer between the heterostructure components has explained the features of coupling between the layers. The study of the optical characteristics of the heterostructure has revealed the enhancement of the absorption spectrum in the infrared range. Consequently, MoSe2/PTCDA heterostructures are promising for applications in electronics, optoelectronics, and materials for the utilization of solar energy.

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JETP Letters	JETP Letters, 1, 33.33% JETP Letters 1 publication, 33.33%
Chemosphere	Chemosphere, 1, 33.33% Chemosphere 1 publication, 33.33%
Physical Chemistry Chemical Physics	Physical Chemistry Chemical Physics, 1, 33.33% Physical Chemistry Chemical Physics 1 publication, 33.33%
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Pleiades Publishing	Pleiades Publishing, 1, 33.33% Pleiades Publishing 1 publication, 33.33%
Elsevier	Elsevier, 1, 33.33% Elsevier 1 publication, 33.33%
Royal Society of Chemistry (RSC)	Royal Society of Chemistry (RSC), 1, 33.33% Royal Society of Chemistry (RSC) 1 publication, 33.33%
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Sukhanova E. et al. Theoretical Study of the Electronic and Optical Properties of a Heterostructure Based on PTCDA Organic Semiconductor and MoSe2 // JETP Letters. 2020. Vol. 111. No. 11. pp. 627-632.

GOST all authors (up to 50) Copy

Sukhanova E., Popov Z. I., Kvashnin D. G. Theoretical Study of the Electronic and Optical Properties of a Heterostructure Based on PTCDA Organic Semiconductor and MoSe2 // JETP Letters. 2020. Vol. 111. No. 11. pp. 627-632.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1134/S0021364020110090

UR - https://doi.org/10.1134%2FS0021364020110090

TI - Theoretical Study of the Electronic and Optical Properties of a Heterostructure Based on PTCDA Organic Semiconductor and MoSe2

T2 - JETP Letters

AU - Sukhanova, E.V.

AU - Kvashnin, D G

AU - Popov, Z I

PY - 2020

DA - 2020/06/01 00:00:00

PB - Pleiades Publishing

SP - 627-632

IS - 11

VL - 111

SN - 0021-3640

SN - 1090-6487

ER -

BibTex |

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BibTex Copy

@article{2020_Sukhanova,

author = {E.V. Sukhanova and D G Kvashnin and Z I Popov},

title = {Theoretical Study of the Electronic and Optical Properties of a Heterostructure Based on PTCDA Organic Semiconductor and MoSe2},

journal = {JETP Letters},

year = {2020},

volume = {111},

publisher = {Pleiades Publishing},

month = {jun},

url = {https://doi.org/10.1134%2FS0021364020110090},

number = {11},

pages = {627--632},

doi = {10.1134/S0021364020110090}

}

MLA

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MLA Copy

Sukhanova, E.V., et al. “Theoretical Study of the Electronic and Optical Properties of a Heterostructure Based on PTCDA Organic Semiconductor and MoSe2.” JETP Letters, vol. 111, no. 11, Jun. 2020, pp. 627-632. https://doi.org/10.1134%2FS0021364020110090.

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Publisher

Pleiades Publishing

Journal

JETP Letters

Quartile SCImago

Quartile WOS

Impact factor

1.3

ISSN

00213640 (Print)
10906487 (Electronic)

Labs

Center for Computer Modeling of Inorganic and Composite Nanoscale Materials

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