Search Results - "Sharikov, R V"

Effect of Plasma Treatment of Biomedical Scaffolds on Neuronal Cell Adhesion by Azieva, A. M., Yastremsky, E. V., Kirillova, D. A., Patsaev, T. D., Mikhutkin, A. A., Sharikov, R. V., Kamyshinsky, R. A., Lukanina, K. I., Sharikova, N. A., Grigoriev, T. E., Vasiliev, A. L.

“…The adhesive properties of scaffolds, which primarily depend on the chemical and structural features of their surface, play an important role in the tissue…”
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Influence of the Morphological Characteristics and Filling of Polylactide Matrices on the Proliferation of HEK293T Cells by Azieva, A M, Kirillova, D A, Yastremsky, E V, Sharikov, R V, Sharikova, N A, Antipova, K G, Grigoriev, T E, Vasiliev, A L

“…The adhesion, proliferation, differentiation, and other types of interaction of a cell culture with synthetic biocompatible matrices completely depend on the…”
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In Situ Study of the Influence of Degradation of Different Types of Polymer Matriсes on Their Mechanical Properties inside Sem by Patsaev, T D, Antipova, C G, Azieva, A M, Kirillova, D A, Grigoriev, T E, Sharikov, R V, Sharikova, N A, Volkov, D A, Yastremsky, E V, Kamyshinsky, R A, Vasiliev, A L

“…The architecture and mechanical properties of synthetic biocompatible scaffolds used in modern tissue engineering are the most important characteristics in the…”
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On a Promising Electrode Material for Microbial Biofuel Cells Based on Natural Polymers by Sharikova, N A, Lukanina, K I, Krasheninnikov, S V, Yu, Vdovichenko A, Sharikov, R V, Malakhov, S N, Parunova, Yu M, Grigoriev, T E

“…A production technology for conductive materials with different morphologies is developed: flat (films) and porous (sponges) composites suitable for use as the…”
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Surface Modification of Biomedical Scaffolds by Plasma Treatment by Yastremsky, E. V., Patsaev, T. D., Mikhutkin, A. A., Sharikov, R. V., Kamyshinsky, R. A., Lukanina, K. I., Sharikova, N. A., Grigoriev, T. E., Vasiliev, A. L.

“…The effects of plasma treatment on the surface roughness and hydrophility of polymer materials used as biodegradable scaffolds (polylactide films, sponges, and…”
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In Situ Mechanical Testing of Polymer Materials Using a Scanning Electron Microscope by Yastremsky, E V, Patsaev, T D, Krasheninnikov, S V, Krupnin, A E, Antipova, K G, Lukanina, K I, Grigoriev, T E, Sharikov, R V, Sharikova, N A, Volkov, D A, Kamyshinsky, R A, Vasiliev, A L

“…The structural and mechanical features of synthetic matrices are examined using the developed in situ mechanical testing setup in a…”
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Application of Biogenic Mineral Formation for the Preservation of Limestone Masonry at the Eski-Kermen Archeological Site by Rudenko, A P, Namsaraev, Z B, Komova, A V, Yu, Loboda A, Mandrykina, A V, Krasheninnikov, S V, Sharikov, R V, Gurieva, P V, Kovalenko, E S, Khairedinova, E A, Yu, Tereschenko E, Aibabin, A I, Yatsishina, E B

“…Minimal interference with historical material and maximum preservation is one of the basic principles of the scientific restoration and conservation of…”
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Advanced Recombinant and Regenerated Silk Materials for Medicine and Tissue Engineering by Tenchurin, T. K., Sharikov, R. V., Chvalun, S. N.

“…A spiderweb is one of the strongest natural materials. The strength of its filaments can reach 1.3–1.5 GPa, which is comparable to the strength of steel. Its…”
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