Research output: Contribution to journal › Article › peer-review
First Observation of Nickel Nitrides During the Interaction of NiCu Alloys with Melamine and g-C3N4 in a Closed Volume. / Кенжин, Роман Мугарамович; Комаровских, Андрей; Капишников, Александр Владимирович et al.
In: Materials Letters, Vol. 383, 137976, 2025.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - First Observation of Nickel Nitrides During the Interaction of NiCu Alloys with Melamine and g-C3N4 in a Closed Volume
AU - Кенжин, Роман Мугарамович
AU - Комаровских, Андрей
AU - Капишников, Александр Владимирович
AU - Афонникова, Софья Дмитриевна
AU - Бауман, Юрий
AU - Мишаков, Илья Владимирович
AU - Володин, Александр Михайлович
AU - Ведягин, Алексей Анатольевич
N1 - This study was funded by the Ministry of Science and Higher Education of the Russian Federation (projects FWUR-2024-0034 and 121031700313-8). First observation of nickel nitrides during the interaction of NiCu alloys with melamine and g-C3N4 in a closed volume / R. M. Kenzhin, A. Y. Komarovskikh, A. V. kapishikov, S. D. Afonnikova, Y. I. Bauman, I. V. Mishakov, a. M. Volodin, A.A. Vedyanin // Materials Letters - 2025 - 383. - 137976.
PY - 2025
Y1 - 2025
N2 - Nitrogen-doped carbon nanomaterials are often produced by the catalytic decomposition of various N-containing organic substrates over nickel-based catalysts. Generally, most such catalysts are ferromagnetic. In the present research, the effect of complete disappearance of ferromagnetic resonance spectra for similar systems during the heat treatment of a NiCu alloy with melamine or g-C3N4 in a closed reaction volume within the temperature range of 450–500 °C was observed for the first time. The X-ray diffraction method showed that the cause of the observed phenomenon is the formation of new products such as nickel nitrides (Ni3N and Ni4N) and a copper-enriched NiCu alloy, which do not possess ferromagnetism at the temperature of registration of their ferromagnetic resonance spectra. The resulting nickel nitrides decompose when the temperature rises above 550 °C to form nickel nanoparticles stable under reaction conditions up to 850 °C and detectable by ferromagnetic resonance spectroscopy.
AB - Nitrogen-doped carbon nanomaterials are often produced by the catalytic decomposition of various N-containing organic substrates over nickel-based catalysts. Generally, most such catalysts are ferromagnetic. In the present research, the effect of complete disappearance of ferromagnetic resonance spectra for similar systems during the heat treatment of a NiCu alloy with melamine or g-C3N4 in a closed reaction volume within the temperature range of 450–500 °C was observed for the first time. The X-ray diffraction method showed that the cause of the observed phenomenon is the formation of new products such as nickel nitrides (Ni3N and Ni4N) and a copper-enriched NiCu alloy, which do not possess ferromagnetism at the temperature of registration of their ferromagnetic resonance spectra. The resulting nickel nitrides decompose when the temperature rises above 550 °C to form nickel nanoparticles stable under reaction conditions up to 850 °C and detectable by ferromagnetic resonance spectroscopy.
KW - Ferromagnetic resonance
KW - Graphitic carbon nitride
KW - Melamine
KW - Nickel nitrides
KW - Nickel-copper alloy
KW - X-ray diffraction analysis
UR - https://www.mendeley.com/catalogue/3698269f-243e-3cc1-a8cc-b59bf6177d82/
U2 - DOI: 10.1016/j.matlet.2025.137976
DO - DOI: 10.1016/j.matlet.2025.137976
M3 - Article
VL - 383
JO - Materials Letters
JF - Materials Letters
SN - 0167-577X
M1 - 137976
ER -
ID: 61636995