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Chalcogenides. / Evarestov, R.A.

In: NanoScience and Technology (см. в книгах), 2020, p. 631-833.

Research output: Contribution to journalArticle

Harvard

Evarestov, RA 2020, 'Chalcogenides.', NanoScience and Technology (см. в книгах), pp. 631-833. <http://elibrary.ru/item.asp?id=43299316>

APA

Evarestov, R. A. (2020). Chalcogenides. NanoScience and Technology (см. в книгах), 631-833. http://elibrary.ru/item.asp?id=43299316

Vancouver

Evarestov RA. Chalcogenides. NanoScience and Technology (см. в книгах). 2020;631-833.

Author

Evarestov, R.A. / Chalcogenides. In: NanoScience and Technology (см. в книгах). 2020 ; pp. 631-833.

BibTeX

@article{343cdd3d71bb46afa7bfe768e304a50f,
title = "Chalcogenides.",
abstract = "The layered transition metal disulfides MS2 (M=Mo, W, Ti, Zr) have attracted considerable attention because of their unique electronic features resulting in numerous applications in catalysis, electrochemical intercalation, and hydrogen storage technology [1, 2]. The rapidly developing nanotechnology offers great opportunities to improve the performance of MS2-based hydrogen storage materials and rechargeable batteries.",
author = "R.A. Evarestov",
year = "2020",
language = "English",
pages = "631--833",
journal = "NanoScience and Technology",
issn = "1434-4904",
publisher = "Springer Nature",

}

RIS

TY - JOUR

T1 - Chalcogenides.

AU - Evarestov, R.A.

PY - 2020

Y1 - 2020

N2 - The layered transition metal disulfides MS2 (M=Mo, W, Ti, Zr) have attracted considerable attention because of their unique electronic features resulting in numerous applications in catalysis, electrochemical intercalation, and hydrogen storage technology [1, 2]. The rapidly developing nanotechnology offers great opportunities to improve the performance of MS2-based hydrogen storage materials and rechargeable batteries.

AB - The layered transition metal disulfides MS2 (M=Mo, W, Ti, Zr) have attracted considerable attention because of their unique electronic features resulting in numerous applications in catalysis, electrochemical intercalation, and hydrogen storage technology [1, 2]. The rapidly developing nanotechnology offers great opportunities to improve the performance of MS2-based hydrogen storage materials and rechargeable batteries.

M3 - Article

SP - 631

EP - 833

JO - NanoScience and Technology

JF - NanoScience and Technology

SN - 1434-4904

ER -

ID: 78608107