ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ

ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ

Electrochemical impedance spectroscopy was used to study the electrical parameters of graphite-graphene systems with different mass concentrations of graphene. Graphene was synthesized using two methods of plasma arc discharge from aqueous and non-aqueous medium (water and liquid nitrogen) to determ...

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Дата:2021
Автори: Panteleimonov, Radyslav, Boichuk, Oleksandr, Pershina, Katherine, Ogenko, Volodymyr
Формат: Стаття
Мова:English
Опубліковано: V.I.Vernadsky Institute of General and Inorganic Chemistry 2021
Онлайн доступ:https://ucj.org.ua/index.php/journal/article/view/345
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Назва журналу:Ukrainian Chemistry Journal

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Ukrainian Chemistry Journal
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spelling oai:ojs2.1444248.nisspano.web.hosting-test.net:article-3452021-10-06T08:56:52Z IMPACT OF THE GRAPHENE SYNTHESIS AND CONCENTRATION CONDITIONS ON ELECTRICAL PARAMETERS OF GRAPHENE — GRAPHITE SYSTEM ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ Panteleimonov, Radyslav Boichuk, Oleksandr Pershina, Katherine Ogenko, Volodymyr graphene, capacity, conductivity, synthesis, water, liquid nitrogen. Electrochemical impedance spectroscopy was used to study the electrical parameters of graphite-graphene systems with different mass concentrations of graphene. Graphene was synthesized using two methods of plasma arc discharge from aqueous and non-aqueous medium (water and liquid nitrogen) to determine the impact of graphite concentration, water, and heat treatment of graphene on electrical parameters (conductivity and electrostatic capacity) of the graphite-graphene mixture. The average values of active resistance and electrostatic capacity of these systems are obtained. The optimal ratio of components with high capacitance and conductivity, which was 1: 1. The influence of heat treatment adsorbed on the graphene surface of the water and mass fraction of graphite on the change of electrical parameters of the system is shown. Comparison of the values of capacity and active resistance of the samples showed that the presence of water in graphene reduces the average values of capacity relative to graphene without water by 10 times and symbatically increases the active resistance at a mass ratio of graphene to graphite 1: 3, and at a ratio of 1: 1 values are proportional. Comparison of resistance, capacitance, and charge distribution calculations in a graphite-graphene mixture in the frequency range 10–2 ÷ 103 Hz established the effect of heat treatment on increasing the values of capacitance and active resistance. Heat treatment at 2500C of graphene, synthesized from an aqueous medium, leads to an increase in the values of capacitance and conductivity, which occurs due to a different distribution of charges on the surface. Analysis of charge distribution maps shows that water adsorbed on the surface of graphene in the presence of a significant amount of graphite can be a factor in interfering with the distribution of charge carriers and significantly reduce the conductivity and electrostatic capacity of the system.   V.I.Vernadsky Institute of General and Inorganic Chemistry 2021-09-24 Article Article Physical chemistry Физическая xимия Фізична xімія application/pdf https://ucj.org.ua/index.php/journal/article/view/345 10.33609/2708-129X.87.08.2021.127-137 Ukrainian Chemistry Journal; Vol. 87 No. 8 (2021): Ukrainian Chemistry Journal; 127-137 Украинский химический журнал; Том 87 № 8 (2021): Ukrainian Chemistry Journal; 127-137 Український хімічний журнал; Том 87 № 8 (2021): Український хімічний журнал; 127-137 2708-129X 2708-1281 en https://ucj.org.ua/index.php/journal/article/view/345/184
institution Ukrainian Chemistry Journal
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datestamp_date 2021-10-06T08:56:52Z
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language English
topic_facet graphene
capacity
conductivity
synthesis
water
liquid nitrogen.
format Article
author Panteleimonov, Radyslav
Boichuk, Oleksandr
Pershina, Katherine
Ogenko, Volodymyr
spellingShingle Panteleimonov, Radyslav
Boichuk, Oleksandr
Pershina, Katherine
Ogenko, Volodymyr
ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ
author_facet Panteleimonov, Radyslav
Boichuk, Oleksandr
Pershina, Katherine
Ogenko, Volodymyr
author_sort Panteleimonov, Radyslav
title ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ
title_short ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ
title_full ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ
title_fullStr ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ
title_full_unstemmed ВПЛИВ УМОВ СИНТЕЗУ ТА КОНЦЕНТРАЦІЇ ГРАФЕНУ НА ЕЛЕКТРИЧНІ ПАРАМЕТРИ СИСТЕМИ ГРАФЕН — ГРАФІТ
title_sort вплив умов синтезу та концентрації графену на електричні параметри системи графен — графіт
title_alt IMPACT OF THE GRAPHENE SYNTHESIS AND CONCENTRATION CONDITIONS ON ELECTRICAL PARAMETERS OF GRAPHENE — GRAPHITE SYSTEM
description Electrochemical impedance spectroscopy was used to study the electrical parameters of graphite-graphene systems with different mass concentrations of graphene. Graphene was synthesized using two methods of plasma arc discharge from aqueous and non-aqueous medium (water and liquid nitrogen) to determine the impact of graphite concentration, water, and heat treatment of graphene on electrical parameters (conductivity and electrostatic capacity) of the graphite-graphene mixture. The average values of active resistance and electrostatic capacity of these systems are obtained. The optimal ratio of components with high capacitance and conductivity, which was 1: 1. The influence of heat treatment adsorbed on the graphene surface of the water and mass fraction of graphite on the change of electrical parameters of the system is shown. Comparison of the values of capacity and active resistance of the samples showed that the presence of water in graphene reduces the average values of capacity relative to graphene without water by 10 times and symbatically increases the active resistance at a mass ratio of graphene to graphite 1: 3, and at a ratio of 1: 1 values are proportional. Comparison of resistance, capacitance, and charge distribution calculations in a graphite-graphene mixture in the frequency range 10–2 ÷ 103 Hz established the effect of heat treatment on increasing the values of capacitance and active resistance. Heat treatment at 2500C of graphene, synthesized from an aqueous medium, leads to an increase in the values of capacitance and conductivity, which occurs due to a different distribution of charges on the surface. Analysis of charge distribution maps shows that water adsorbed on the surface of graphene in the presence of a significant amount of graphite can be a factor in interfering with the distribution of charge carriers and significantly reduce the conductivity and electrostatic capacity of the system.  
publisher V.I.Vernadsky Institute of General and Inorganic Chemistry
publishDate 2021
url https://ucj.org.ua/index.php/journal/article/view/345
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first_indexed 2025-09-24T17:43:40Z
last_indexed 2025-09-24T17:43:40Z
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