Voznyakovskii, A.P.; Ilyushin, M.A.; Vozniakovskii, A.A.; Shugalei, I.V.; Savenkov, G.G. Safe Explosion Works Promoted by 2D Graphene Structures Produced under the Condition of Self-Propagation High-Temperature Synthesis. Nanomanufacturing2024, 4, 45-57.
Voznyakovskii, A.P.; Ilyushin, M.A.; Vozniakovskii, A.A.; Shugalei, I.V.; Savenkov, G.G. Safe Explosion Works Promoted by 2D Graphene Structures Produced under the Condition of Self-Propagation High-Temperature Synthesis. Nanomanufacturing 2024, 4, 45-57.
Voznyakovskii, A.P.; Ilyushin, M.A.; Vozniakovskii, A.A.; Shugalei, I.V.; Savenkov, G.G. Safe Explosion Works Promoted by 2D Graphene Structures Produced under the Condition of Self-Propagation High-Temperature Synthesis. Nanomanufacturing2024, 4, 45-57.
Voznyakovskii, A.P.; Ilyushin, M.A.; Vozniakovskii, A.A.; Shugalei, I.V.; Savenkov, G.G. Safe Explosion Works Promoted by 2D Graphene Structures Produced under the Condition of Self-Propagation High-Temperature Synthesis. Nanomanufacturing 2024, 4, 45-57.
Abstract
Carbonization of a biopolymer (lignin) in self-propagating high-temperature synthesis (SHS) led to the production of 2D graphene structures. With the help of modern analytical methods (Raman spectroscopy, X-ray diffraction) and electron microscopy, the resulting product was confirmed to have a few-layer 2D graphene structure. The predicted photovoltaic properties of the resulting few-layer graphene were implemented for laser ignition of a model pyrotechnic composition based on porous silicon. A phenomenological model of the formation mechanism of 2D graphene structures under the conditions of the SHS process is proposed.
Chemistry and Materials Science, Chemical Engineering
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