Noncovalent interaction between semiconducting single-walled carbon nanotubes (SWNTs) and graphene oxide (GO) in composite films (GO-SWNTs) was analyzed by Raman spectroscopy in the range of D and G modes (1170–1780 cm−1). Comparison between Raman spectra of composite film and single-component GO and SWNTs films showed that the interaction between GO and SWNTs is accompanied by a band broadening and spectral shifting. Observed spectral transformations are attributed to charge transfer between GO and SWNTs as well as a deformation of carbon surfaces which occurs in the composite. Spectral measurements of composite GO-SWNTs film with biological globular molecules (the enzyme glucoseoxidase) showed that these molecules weaken mechanical stress of GO on the nanotubes.
REFERENCES
1.
C.
Cheng
, S.
Li
, A.
Thomas
, N. A.
Kotov
, and R.
Haag
, Chem. Rev.
117
, 1826
(2017
). 2.
X.-M.
Huang
, L.-Z.
Liu
, S.
Zhou
, and J.-J.
Zhao
, Front. Phys.
15
, 33301
(2020
). 3.
W.
Yu
, L.
Sisi
, Y.
Haiyana
, and L.
Jie
, RSC Adv.
10
, 15328
(2020
). 4.
A. M.
Dimiev
and Sefid
Eigler
, Graphene Oxide Funda-Mentals and Applications
(John Wiley & Sons Ltd.
, New York
, 2017
).5.
M. V.
Karachevtsev
, S. G.
Stepanian
, A. Y.
Ivanov
, V. S.
Leontiev
, V. A.
Valeev
, O. S.
Lytvyn
, L.
Adamowicz
, and V. A.
Karachevtsev
, J. Phys. Chem. C
121
, 18221
(2017
). 6.
S.
Nardecchia
, D.
Carriazo
, M. L.
Ferrer
, M. C.
Gutierrez
, and F.
del Monte
, Chem. Soc. Rev.
42
, 794
(2013
). 7.
W.
Fan
, L.
Zhang
, and T.
Liu
, Graphene-Carbon Nanotube Hybrids for Energy and Environmental Applications
(Springer
, Singapore
, 2017
).8.
A. B.
Kaiser
and V.
Skakalova
, Chem. Soc. Rev.
40
, 3786
(2011
). 9.
A. L.
Hu
, D. S.
Hecht
, and G.
Gruner
, Chem. Rev.
110
, 5790
(2010
).10.
J.
Zaumseil
, Semicond. Sci. Technol.
30
, 074001
(2015
). 11.
V.
Skakalova
, A. B.
Kaiser
, Y.-S.
Woo
, and S.
Roth
, Phys. Rev. B
74
, 085403
(2006
). 12.
V. А.
Karachevtsev
and N. V.
Kurnosov
, Fiz. Nizk. Temp.
45
, 1300
(2019
) [Low Temp. Phys.
45, 1109 (2019)]. 13.
N.
Kurnosov
and V.
Karachevtsev
, Temperature Dependence of Conductivity in Composite Film of Single-Walled Carbon Nanotubes with Graphene Oxide, in Microstructure and Properties of Micro- and Nanoscale Materials, Films, and Coatings (NAP 2019)
, edited by A.
Pogrebnjak
and O.
Bondar
(Springer Proceedings in Physics, Springer
, Singapore
, 2020
), Vol. 240
.14.
V. A.
Karachevtsev
, A. M.
Plokhotnichenko
, M. V.
Karachevtsev
, A. S.
Linnik
, and N. V.
Kurnosov
, Fiz. Nizk. Temp.
45
, 881
(2019
) [Low Temp. Phys.
45, 754 (2019)]. 15.
R.
Saito
, M.
Hofmann
, G.
Dresselhaus
, A.
Jorio
, and M. S.
Dresselhaus
, Adv. Phys.
60
, 413
(2011
). 16.
J.-B.
Wu
, M.-L.
Lin
, X.
Cong
, H.-N.
Liu
, and P.-H.
Tan
, Chem. Soc. Rev.
47
, 1822
(2018
). 17.
M. S.
Dresselhaus
, G.
Dresselhaus
, R.
Saito
, and A.
Jorio
, Phys. Rep.
409
, 47
(2005
). 18.
L. G.
Cancado
, A.
Jorio
, E. H.
Martins Ferreira
, F.
Stavale
, C. A.
Achete
, R. B.
Capaz
, M. V. O.
Moutinho
, A.
Lombardo
, T. S.
Kulmala
, and A. C.
Ferrari
, Nano Lett.
11
, 3190
(2011
).19.
P. V.
Kumar
, N. M.
Bardhan
, G.-Y.
Chen
, Z.
Li
, A. M.
Belcher
, and J. C.
Grossman
, Carbon
100
, 90
(2016
).20.
A.
Eckmann
, A.
Felten
, A.
Mishchenko
, L.
Britnell
, R.
Krupke
, K. S.
Novoselov
, and C.
Casiraghi
, Nano Lett.
12
, 3925
(2012
).21.
D.
López-Díaz
, M.
López Holgado
, J. L.
García-Fierro
, and M. M.
Velázquez
, J. Phys. Chem. C
121
, 20489
(2017
).22.
K.
Tsirka
, A.
Katsiki
, N.
Chalmpes
, D.
Gournis
, and A. S.
Paipetis
, Front. Mater.
5
, 37
(2018
).23.
A. Yu.
Glamazda
, S. G.
Stepanian
, M. V.
Karachevtsev
, A. M.
Plokhotnichenko
, L.
Adamowicz
, and V. A.
Karachevtsev
, Physica E
124
, 114279
(2020
).24.
W. S.
Hummers Jr
and R. E.
Offeman
, J. Am. Chem. Soc.
80
, 1339
(1958
).25.
A.
Jorio
, A. G.
Souza Filho
, G.
Dresselhaus
, M. S.
Dresselhaus
, A. K.
Swan
, M. S.
Unlu
, B. B.
Goldberg
, M. A.
Pimenta
, J. H.
Hafner
, C. M.
Lieber
, and R.
Saito
, Phys. Rev. B
65
, 155412
(2002
).26.
H.
Telg
, J. G.
Duque
, M.
Staiger
, X.
Tu
, F.
Hennrich
, M. M.
Kappes
, M.
Zheng
, J.
Maultzsch
, C.
Thomsen
, and S. K.
Doorn
, ACS Nano
6
, 904
(2012
).27.
V. A.
Karachevtsev
, A. Yu.
Glamazda
, U.
Dettlaff-Weglikowska
, V. S.
Leontiev
, P. V.
Mateichenko
, S.
Roth
, and A. M.
Rao
, Carbon
44
, 1292
(2006
).28.
V. A.
Karachevtsev
, A. Yu.
Glamazda
, E. S.
Zarudnev
, M. V.
Karachevtsev
, V. S.
Leontiev
, A. S.
Linnik
, O. S.
Lytvyn
, A. M.
Plokhotnichenko
, and S. G.
Stepanian
, Ukr. J. Phys.
57
, 700
(2012
).29.
A.
Kaniyoor
and S.
Ramaprabhu
, AIP Adv.
2
, 032183
(2012
).© 2021 Author(s).
2021
Author(s)
You do not currently have access to this content.
