Two-Dimensional CuO Inside the Supportive Bilayer Graphene Matrix

Kvashnin D.G., Kvashnin A.G., Kano E., Hashimoto A., Takeguchi M., Naramoto H., Sakai S., Sorokin P.B.
Тип документаJournal Article
Дата публикации2019-06-14
Название журналаJournal of Physical Chemistry C
ИздательAmerican Chemical Society
Квартиль по SCImagoQ1
Квартиль по Web of ScienceQ2
Импакт-фактор 20214.18
ISSN19327447, 19327455
Surfaces, Coatings and Films
Electronic, Optical and Magnetic Materials
Physical and Theoretical Chemistry
General Energy
Краткое описание
New two-dimensional (2D) copper monoxide located at the pore in a bilayer graphene matrix is investigated in both theoretical and experimental ways. Strict analysis of the lattice stability with respect to the magnetic state reveals that the CuO monolayer displays an antiferromagnetic rectangular structure as a favorable state. It is shown that 2D CuO can be confined in a bilayered graphene pore terminated with Cu atoms forming spin-polarized states on the graphene/CuO interface. It is found that the co-presence of Cu and O atoms around the bilayered graphene edge plays an essential role in the 2D CuO formation process.
Пристатейные ссылки: 45
Цитируется в публикациях: 7
Nanostructuring few-layer graphene films with swift heavy ions for electronic application: tuning of electronic and transport properties
Nebogatikova N.A., Antonova I.V., Erohin S.V., Kvashnin D.G., Olejniczak A., Volodin V.A., Skuratov A.V., Krasheninnikov A.V., Sorokin P.B., Chernozatonskii L.A.
Q1 Nanoscale 2018 цитирований: 26
Open Access
Open access
2D FeO: A New Member in 2D Metal Oxide Family
Larionov K.V., Kvashnin D.G., Sorokin P.B.
Q1 Journal of Physical Chemistry C 2018 цитирований: 13
Study of the New Two-Dimensional Compound CoC
Larionov K.V., Popov Z.I., Vysotin M.A., Kvashnin D.G., Sorokin P.B.
Q2 JETP Letters 2018 цитирований: 9
One-atom-thick 2D copper oxide clusters on graphene
Kano E., Kvashnin D.G., Sakai S., Chernozatonskii L.A., Sorokin P.B., Hashimoto A., Takeguchi M.
Q1 Nanoscale 2017 цитирований: 25
Opposite effects of Cu and Pt atoms on graphene edges
Kano E., Hashimoto A., Takeguchi M.
Q1 Applied Physics Express 2017 цитирований: 7
Unsupported single-atom-thick copper oxide monolayers
Yin K., Zhang Y., Zhou Y., Sun L., Chisholm M.F., Pantelides S.T., Zhou W.
Q1 2D Materials 2016 цитирований: 30
Controlled formation of closed-edge nanopores in graphene
He K., Robertson A.W., Gong C., Allen C.S., Xu Q., Zandbergen H., Grossman J.C., Kirkland A.I., Warner J.H.
Q1 Nanoscale 2015 цитирований: 30
In Situ Observations of Free-Standing Graphene-like Mono- and Bilayer ZnO Membranes
Quang H.T., Bachmatiuk A., Dianat A., Ortmann F., Zhao J., Warner J.H., Eckert J., Cunniberti G., Rümmeli M.H.
Q1 ACS Nano 2015 цитирований: 84
Stability of Two-Dimensional Iron Carbides Suspended across Graphene Pores: First-Principles Particle Swarm Optimization
Shao Y., Pang R., Shi X.
Q1 Journal of Physical Chemistry C 2015 цитирований: 23
Temperature Dependence of the Reconstruction of Zigzag Edges in Graphene
He K., Robertson A.W., Fan Y., Allen C.S., Lin Y., Suenaga K., Kirkland A.I., Warner J.H.
Q1 ACS Nano 2015 цитирований: 48
Bilayered semiconductor graphene nanostructures with periodically arranged hexagonal holes
Kvashnin D.G., Vancsó P., Antipina L.Y., Márk G.I., Biró L.P., Sorokin P.B., Chernozatonskii L.A.
Q1 Nano Research 2014 цитирований: 23
Open Access
Open access
Free-Standing Single-Atom-Thick Iron Membranes Suspended in Graphene Pores
Zhao J., Deng Q., Bachmatiuk A., Sandeep G., Popov A., Eckert J., Rümmeli M.H.
Q1 Science 2014 цитирований: 201
Open Access
Open access
Evolutionary method for predicting surface reconstructions with variable stoichiometry
Zhu Q., Li L., Oganov A.R., Allen P.B.
Q1 Physical Review B 2013 цитирований: 85
New developments in evolutionary structure prediction algorithm USPEX
Lyakhov A.O., Oganov A.R., Stokes H.T., Zhu Q.
Q1 Computer Physics Communications 2013 цитирований: 782
p-Channel Oxide Thin Film Transistors Using Solution-Processed Copper Oxide
Kim S.Y., Ahn C.H., Lee J.H., Kwon Y.H., Hwang S., Lee J.Y., Cho H.K.
Q1 ACS applied materials & interfaces 2013 цитирований: 85
1. Kvashnin D.G. и др. Two-Dimensional CuO Inside the Supportive Bilayer Graphene Matrix // The Journal of Physical Chemistry C. 2019. Т. 123. № 28. С. 17459–17465.


DO - 10.1021/acs.jpcc.9b05353

UR -

TI - Two-Dimensional CuO Inside the Supportive Bilayer Graphene Matrix

T2 - The Journal of Physical Chemistry C

AU - Kvashnin, D. G.

AU - Kvashnin, A. G.

AU - Kano, E.

AU - Hashimoto, A.

AU - Takeguchi, M.

AU - Naramoto, H.

AU - Sakai, S.

AU - Sorokin, P. B.

PY - 2019

DA - 2019/06/14

PB - American Chemical Society (ACS)

SP - 17459-17465

IS - 28

VL - 123

SN - 1932-7447

SN - 1932-7455

ER -

BibTex |


doi = {10.1021/acs.jpcc.9b05353},

url = {},

year = 2019,

month = {jun},

publisher = {American Chemical Society ({ACS})},

volume = {123},

number = {28},

pages = {17459--17465},

author = {D. G. Kvashnin and A. G. Kvashnin and E. Kano and A. Hashimoto and M. Takeguchi and H. Naramoto and S. Sakai and P. B. Sorokin},

title = {Two-Dimensional {CuO} Inside the Supportive Bilayer Graphene Matrix}


Kvashnin, D. G. et al. “Two-Dimensional CuO Inside the Supportive Bilayer Graphene Matrix.” The Journal of Physical Chemistry C 123.28 (2019): 17459–17465. Crossref. Web.