SYNTHESIS OF GRAPHENE-LIKE STRUCTURES BY A PLASMA-ARC DISCHARGE IN LIQUID NITROGEN
Vol 86 No 10 (2020), Physical chemistry
Vol 86 No 10 (2020)

SYNTHESIS OF GRAPHENE-LIKE STRUCTURES BY A PLASMA-ARC DISCHARGE IN LIQUID NITROGEN

Physical chemistry
https://doi.org/10.33609/2708-129X.86.10.2020.88-94
Published November 16, 2020
Radyslav Panteleimonov
V. I. Vernadskii Institute of General and Inorganic Chemistry of the National Academy of Sciences of Ukraine
https://orcid.org/0000-0002-5645-0524
Oleksandr Korduban
V. I. Vernadskii Institute of General and Inorganic Chemistry of the National Academy of Sciences of Ukraine
https://orcid.org/0000-0003-4401-0203
Volodymyr Ogenko
V. I. Vernadskii Institute of General and Inorganic Chemistry of the National Academy of Sciences of Ukraine
https://orcid.org/0000-0002-3243-5960
Taras Kryshchuk
V. I. Vernadskii Institute of General and Inorganic Chemistry of the National Academy of Sciences of Ukraine
https://orcid.org/0000-0001-6527-2021
№2

Keywords

graphene-like structures, graphene, liquid nitrogen, Raman spectroscopy, plasma arc discharge.

How to Cite

Panteleimonov, R., Korduban , O., Ogenko , V., & Kryshchuk, T. (2020). SYNTHESIS OF GRAPHENE-LIKE STRUCTURES BY A PLASMA-ARC DISCHARGE IN LIQUID NITROGEN. Ukrainian Chemistry Journal, 86(10), 88-94. https://doi.org/10.33609/2708-129X.86.10.2020.88-94
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Abstract

Using scanning electron microscopy, X-ray photoelectron spectroscopy, and Raman scattering we studied the charge state of matrix and doping element atoms on the surface, morphology, and defects in the structure of graphene-like materials synthesized by plasma-arc discharge in liquid nitrogen.

https://doi.org/10.33609/2708-129X.86.10.2020.88-94
№2

References

Avouris Phaedon Graphene: Electronic and Photonic Properties and Devices // IBM T. J. Watson Research Center, Yorktown Heights, New York 10598, United States. - Nano Lett. 2010. 10: 4285-4294.

Gubin S. P., Tkachev S. V. Graphene and materials based on it // Radioelectronics | Nanosystems Information Technology. 2010. 2: 99-137.

Shmalko, V. M. Keush, L. G. Zelenskiy, O. I. (2018) Nanomaterialy iz uglya i produktov ego piroliza [Nanomaterials from coal and its pyrolysis products], Lira, Dnipro, Ukraine.

Nosulenko V. I. Electric arc in a transverse flow of a dielectric medium as a heat source for new technologies // ELECTRICAL PROCESSES IN ENGINEERING AND CHEMISTRY. 2005. 41 (2): 26-33.

Usachev D. Yu., Fedorov A.V., Vil­kov O. Yu., Senkovsky B. V., Adamchuk V. K., Andryushechkin B. V., Flabby D. V. Synthesis and electronic structure of graphene doped with nitrogen atoms // Solid State Physics. 2012. 55(6): 1231-1237.

Korobko D. I., Khomenko V. G., Barsukov V. Z., Makeeva I. S. Influence of impurities and methodology of their determination in graphite as in the active material of lithium-ion current sources // KNUTD Bulletin. 2015. 86(3): 43-49.

Chowdhury F. A., Hossain M. A., Uchi­da K., Tamura T., Sugawa K., Mochida T., Otsuki J., Mohiuddin T., Boby M. A., Alam M. S. Graphene oxide/carbon nanoparticle thin film based IR detector: Surface properties and device characterization /AIP Advances. 2015. 5; https://doi.org/10.1063/1.4935042 2015.

Nakajima T. G., Fujisawa K., Anil V., Terrones M., Yeh Y.-T. Controlling Nitrogen Doping in Graphene with Atomic Precision: Synthesis and Characterization Nanomaterials. 2019. 9(3): 425; https://doi.org/10.3390/nano9030425.

Schiros T., Nordlund D., Pálová L., Prezzi D., Kim K. S., Wurstbauer U., Guti­érrez C., Zhao L., Delongchamp D., Jaye C. et al. Connecting Dopant Bond Type with Electronic Structure in N-Doped Graphene. Nano Lett. 2012. 12: 4025–4031.

Susi T., Pichler T., Ayala P. X-ray photoelectron spectroscopy of graphitic carbon nanomaterials doped with heteroatoms. Beilstein J. Nanotechnol. 2015, 6: 177–192.

Konakova R. V., Kolomys A. F., Okhri­menko O. B., Strelchuk V. V., Volkov E. Yu., Grigoriev M. N., Svetlichny A. M., Spiri­donov O. B. Comparative characteristics of the Raman spectra of graphene films on conductive and semi-insulating 6H-SiC substrates // Physics and Technology of Semiconductors. 2013. 47(6): 802-804.

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