Szymczykiewicz, E.; Bordun, I.; Maksymych, V.; Klapchuk, M.; Kohut, Z.; Borysiuk, A.; Kulyk, Y.; Ivashchyshyn, F. Charge Storage and Magnetic Properties Nitrogen-Containing Nanoporous Bio-Carbon. Energies2024, 17, 903.
Szymczykiewicz, E.; Bordun, I.; Maksymych, V.; Klapchuk, M.; Kohut, Z.; Borysiuk, A.; Kulyk, Y.; Ivashchyshyn, F. Charge Storage and Magnetic Properties Nitrogen-Containing Nanoporous Bio-Carbon. Energies 2024, 17, 903.
Szymczykiewicz, E.; Bordun, I.; Maksymych, V.; Klapchuk, M.; Kohut, Z.; Borysiuk, A.; Kulyk, Y.; Ivashchyshyn, F. Charge Storage and Magnetic Properties Nitrogen-Containing Nanoporous Bio-Carbon. Energies2024, 17, 903.
Szymczykiewicz, E.; Bordun, I.; Maksymych, V.; Klapchuk, M.; Kohut, Z.; Borysiuk, A.; Kulyk, Y.; Ivashchyshyn, F. Charge Storage and Magnetic Properties Nitrogen-Containing Nanoporous Bio-Carbon. Energies 2024, 17, 903.
Abstract
The article presents a technology for producing nitrogen-containing nanoporous biocarbon with high degree of elemental composition homogeneity, confirmed by electron spectroscopy. The research explores the relationship among the electronic characteristics of supramolecular nanoporous carbon, its porous structure, and the capacitance at its interface with the electrolyte. The obtained biocarbon is characterized by micro and mesopores, as evidenced by the results of studies by the method of nitrogen adsorption/desorption. The specific area of the available porous surface was found to be 1247 m2/g. Comparing this result with the data of small-angle X-ray scattering, we conclude that micropores are open while mesopores remain closed. This material was found to have a saturation magnetization σs of 1.4 A∙m2∙kg-1 and a coercive force Hc of 10 kA/m. The impedance studies of electrochemical cells of supercapacitors made of the experimental biocarbon were carried out. Equivalent electrical circuits of the studied electrochemical processes were constructed and characterized.
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