ANALYSİS OF ELECTRİCAL CONDUCTİVİTY İN NANOTRANSİSTOR STRUCTURES WİTH GRAPHENE OXİDE NANOFİBERS

E. Khanmamadova

doi:10.36074/logos-23.06.2023.41

Physics and Mathematics

June 23, 2023; Oxford, UK: V International Scientific and Practical Conference «THEORETICAL AND EMPIRICAL SCIENTIFIC RESEARCH: CONCEPT AND TRENDS»

ANALYSİS OF ELECTRİCAL CONDUCTİVİTY İN NANOTRANSİSTOR STRUCTURES WİTH GRAPHENE OXİDE NANOFİBERS

E. Khanmamadova ⁺⁻

DOI: https://doi.org/10.36074/logos-23.06.2023.41
Published: 03.07.2023

Abstract

In this article, an overview of the properties and application potential of graphene oxide-based nanofibers is presented. The electrical conductivity of graphene oxide nanofibers and nanotransistor structures is determined depending on the electrical properties of these materials and structures. Graphene oxide nanofibers are a material obtained by the oxidation process of graphene, and electrical conductivity is one of the main functions of batteries and transistors.

References

Geim, A. K., İlhan, B., Səfərli, B., & Ürk, K. M. (2020). Graphene Oxide Nanofiber-Based Transistors: Fabrication, Characterization, and Performance Analysis. IEEE Transactions on Nanotechnology, 19(5), 823-829.
E.A. Khanmamedova, Electrical conductivity properties of graphene oxide, NO. 32(151) (2023): 7TH ISPC «CURRENT ISSUES AND PROSPECTS FOR THE DEVELOPMENT OF SCIENTIFIC RESEARCH» (APRIL 19-20, 2023; ORLÉANS, FRANCE). https://archive.interconf.center/index.php/2709-4685/article/view/3099
Khanmamedova E.A., Abaszade R. G., Graphene-based transistors, Ecoenergetics, №2, pp.52-57, 2023. http://ieeacademy.org/journals/
E.A. Khanmamedova, THERMAL PROCESSING ANALYSIS OF GRAPHENE OXIDE, April 28, 2023; Seoul, South Korea: II International Scientific and Practical Conference «THEORETICAL AND PRACTICAL ASPECTS OF MODERN SCIENTIFIC RESEARCH» https://archive.logos-science.com/index.php/conference-proceedings/article/view/714
Khanmamedova E.A., Schematic representation of the preparation of graphene oxide, Ecoenergetics, №1, pp.63-67, 2023. http://ieeacademy.org/wp-content/uploads/2023/03/Ecoenergetics-N1-2023-1.pdf
E.A. Khanmamedova, Electrical conductivity properties of graphene oxide, NO. 32(151) (2023): 7TH ISPC «CURRENT ISSUES AND PROSPECTS FOR THE DEVELOPMENT OF SCIENTIFIC RESEARCH» (APRIL 19-20, 2023; ORLÉANS, FRANCE). https://archive.interconf.center/index.php/2709-4685/article/view/3099
R.G.Abaszade, A.G.Mamedov, I.Y.Bayramov, E.A.Khanmamadova, V.O.Kotsyubynsky, O.A.Kapush, V.M.Boychuk, E.Y.Gur, Structural and electrical properties of sulfur-doped graphene oxide/graphite oxide composite, Physics and Chemistry of Solid State, Vol.23, №2, pp. 256-260, 2022. https://doi.org/10.15330/pcss.23.2.256-260
E.A. Khanmamedova, MATHEMATICAL MODEL ANALYSIS OF GRAPHENE OXIDE THERMAL DEVELOPMENT, No. 26 (2023): I CISP Conference «SCIENTIFIC VECTOR OF VARIOUS SPHERE’ DEVELOPMENT: REALITY AND FUTURE TRENDS» https://archive.journal-grail.science/index.php/2710-3056/article/view/1145
E.A. Khanmamedova, X-ray analysis of graphene based materials, Proceedings of the 7th International Scientific and Practical Conference «Current Issues and Prospects for The Development of Scientific Research» (April 19-20, 2023). Orléans, France https://archive.interconf.center/index.php/2709-4685/article/view/3100
Zhang, Y., Hu, Z., & Liu, J. (2016). Graphene Oxide Nanofiber-Based Transistors: Fabrication, Characterization, and Performance. Nanotechnology, 27(32), 325203.
N. A. Guliyeva, R. G. Abaszade, E. A. Khanmammadova, E. M. Azizov, Synthesis and analysis of nanostructured graphene oxide, Journal of Optoelectronic and Biomedical Materials Vol. 15, No. 1,
January - March 2023, p. 23 – 30. https://chalcogen.ro/23_GuliyevaNA.pdf
R.G. Abaszade, A.G. Mammadov, V.O. Kotsyubynsky, E.Y. Gur, I.Y. Bayramov, E.A. Khanmamadova, O.A. Kapush, Photoconductivity of carbon nanotubes, International Journal on Technical and Physical Problems of Engineering, Vol.14, №3, pp.155-160, 2022. http://www.iotpe.com/IJTPE/IJTPE-2022/IJTPE-Issue52-Vol14-No3-Sep2022/21-IJTPE-Issue52-Vol14-No3-Sep2022-pp155-160.pdf

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How to Cite

Khanmamadova , E. (2023). ANALYSİS OF ELECTRİCAL CONDUCTİVİTY İN NANOTRANSİSTOR STRUCTURES WİTH GRAPHENE OXİDE NANOFİBERS. Collection of Scientific Papers «ΛΌГOΣ», (June 23, 2023; Oxford, UK), 152–155. https://doi.org/10.36074/logos-23.06.2023.41

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[1] Geim, A. K., İlhan, B., Səfərli, B., & Ürk, K. M. (2020). Graphene Oxide Nanofiber-Based Transistors: Fabrication, Characterization, and Performance Analysis. IEEE Transactions on Nanotechnology, 19(5), 823-829.

[2] E.A. Khanmamedova, Electrical conductivity properties of graphene oxide, NO. 32(151) (2023): 7TH ISPC «CURRENT ISSUES AND PROSPECTS FOR THE DEVELOPMENT OF SCIENTIFIC RESEARCH» (APRIL 19-20, 2023; ORLÉANS, FRANCE). https://archive.interconf.center/index.php/2709-4685/article/view/3099

[3] Khanmamedova E.A., Abaszade R. G., Graphene-based transistors, Ecoenergetics, №2, pp.52-57, 2023. http://ieeacademy.org/journals/

[4] E.A. Khanmamedova, THERMAL PROCESSING ANALYSIS OF GRAPHENE OXIDE, April 28, 2023; Seoul, South Korea: II International Scientific and Practical Conference «THEORETICAL AND PRACTICAL ASPECTS OF MODERN SCIENTIFIC RESEARCH» https://archive.logos-science.com/index.php/conference-proceedings/article/view/714

[5] Khanmamedova E.A., Schematic representation of the preparation of graphene oxide, Ecoenergetics, №1, pp.63-67, 2023. http://ieeacademy.org/wp-content/uploads/2023/03/Ecoenergetics-N1-2023-1.pdf

[6] E.A. Khanmamedova, Electrical conductivity properties of graphene oxide, NO. 32(151) (2023): 7TH ISPC «CURRENT ISSUES AND PROSPECTS FOR THE DEVELOPMENT OF SCIENTIFIC RESEARCH» (APRIL 19-20, 2023; ORLÉANS, FRANCE). https://archive.interconf.center/index.php/2709-4685/article/view/3099

[7] R.G.Abaszade, A.G.Mamedov, I.Y.Bayramov, E.A.Khanmamadova, V.O.Kotsyubynsky, O.A.Kapush, V.M.Boychuk, E.Y.Gur, Structural and electrical properties of sulfur-doped graphene oxide/graphite oxide composite, Physics and Chemistry of Solid State, Vol.23, №2, pp. 256-260, 2022. https://doi.org/10.15330/pcss.23.2.256-260

[8] E.A. Khanmamedova, MATHEMATICAL MODEL ANALYSIS OF GRAPHENE OXIDE THERMAL DEVELOPMENT, No. 26 (2023): I CISP Conference «SCIENTIFIC VECTOR OF VARIOUS SPHERE’ DEVELOPMENT: REALITY AND FUTURE TRENDS» https://archive.journal-grail.science/index.php/2710-3056/article/view/1145

[9] E.A. Khanmamedova, X-ray analysis of graphene based materials, Proceedings of the 7th International Scientific and Practical Conference «Current Issues and Prospects for The Development of Scientific Research» (April 19-20, 2023). Orléans, France https://archive.interconf.center/index.php/2709-4685/article/view/3100

[10] Zhang, Y., Hu, Z., & Liu, J. (2016). Graphene Oxide Nanofiber-Based Transistors: Fabrication, Characterization, and Performance. Nanotechnology, 27(32), 325203.

[11] N. A. Guliyeva, R. G. Abaszade, E. A. Khanmammadova, E. M. Azizov, Synthesis and analysis of nanostructured graphene oxide, Journal of Optoelectronic and Biomedical Materials Vol. 15, No. 1,

[12] January - March 2023, p. 23 – 30. https://chalcogen.ro/23_GuliyevaNA.pdf

[13] R.G. Abaszade, A.G. Mammadov, V.O. Kotsyubynsky, E.Y. Gur, I.Y. Bayramov, E.A. Khanmamadova, O.A. Kapush, Photoconductivity of carbon nanotubes, International Journal on Technical and Physical Problems of Engineering, Vol.14, №3, pp.155-160, 2022. http://www.iotpe.com/IJTPE/IJTPE-2022/IJTPE-Issue52-Vol14-No3-Sep2022/21-IJTPE-Issue52-Vol14-No3-Sep2022-pp155-160.pdf