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Общее количество найденных документов : 23
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| Адсорбция и адгезия полимеров к поверхности наночастиц ysz в жидкой среде и композитной пленке = Adsorption and adhesion of polymers at the interface of YSZ nanoparticles in liquid phase and composite FILM/А. П. Сафронов, Т. В. Терзиян, Е. Г. Калинина, И. С. Пузырев, Ю. Г. Ятлук // Российские нанотехнологии, 2007. т.№ 9-10.-С.81-89
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| Variation in tumor pH affects pH-triggered delivery of peptide-modified magnetic nanoparticles/A. G. Pershina, O. Y. Brikunova, S. V. Vtorushin [et al.] // Nanomedicine: nanotechnology, biology and medicine, 2021. т.Vol. 32.-С.102317
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| Use of low-molecular polyacrylic acid as the dispersant of Nd3+, Yb3+ doped Y2O3 nanoparticles for slip casting and sintering of laser ceramics/I. Puzyrev, M. Ivanov, V. Osipov, Yu. G. Yatluk // Nanotech Insight 2007 : The International conference on Nanotechnology, Luxor, Egypt, 10-17 march 2007 : abstr. . -Luxor, Egypt, 2007.-С.310-311
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| Synthesis of Fe@C nanoparticles containing sulfo groups on their surfaces and study of their aggregation behavior in aqueous media/I. A. Bakhteeva, I. V. Medvedeva, I. V. Byzov [et al.] // Russian chemical bulletin, 2021. т.Vol. 70,N № 4.-С.722-731
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| Synthesis of derivatives of the RGD peptide with the residues of glutaric and adipic acids /A. Yu. Vigorov, I. A. Nizova, V. P. Krasnov, A. M. Demin // Russian Journal of Bioorganic Chemistry, 2014. т.Vol.40,N №2.-С.142-150
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| Synthesis of carbon encapsulated metal (Ni and Cu) nano particles and applications for chiral catalysts /Young Rang Uhm , Hi Min Lee , O. V. Fedorova, I. G. Ovchinnikova, M. S. Valova, G. L. Rusinov, V. N. Charushin, Chang Kyu Rhee // Research on Chemical Intermediates , 2010. т.Vol. 36,N № 6-7.-С.867-873
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| Synthesis and antimicrobial activity of silicon-titanium-zinc- and silicon-titanium-boron-containing glycerohydrogels/T. G. Khonina, E. Yu. Nikitina, E. V. Shadrina [et al.] // Russian chemical bulletin, 2021. т.Vol. 70,N № 5.-С.967-974
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| Sol-gel synthesis of titanum dioxide by hydrolysis of titanium glycerolates and peroxides/V. A. Osipova, G. S. Zakharova, E. Andreikov, Yu. G. Yatluk, I. Puzyrev // Glass Physics and Chemistry, 2013. т.Vol.39,N №4.-С.398-402
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| Silica coating of Fe3O4 magnetic nanoparticles with pmida assistance to increase the surface area and enhance peptide immobilization efficiency/A. M. Demin, A. I. Maksimovskikh, A. V. Mekhaev [и др.] // Ceramics international, 2021. т.№ б/н.-С.1-6
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| Reactivity of nanocrystalline copper oxide and its modification under magnetic field /A. Ye. Yermakov [и др.] // Solid State ionics, 2004. т.Vol. 172,N № 1-4.-С.317-323
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| Reactivity features of polychlorobiphenyl congeners in the nucleophilic substitution reactions /T. I. Gorbunova, M. G. Pervova, V. I. Saloutin, O. N. Chupakhin // Russian Journal of General Chemistry, 2012. т.Vol. 82,N № 1.-С.138-143
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| Polystyrene stabilized iridium nanoparticles catalyzed chemo- and regio-selective semi-hydrogenation of nitroarenes to N-arylhydroxylamines/D. Bhattacherjee, G. V. Zyryanov, Shaifali [et al.] // Molecular catalysis, 2021. т.Vol. 514.-С.111836
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| Peptide ligands on the PEGylated nanoparticle surface and human serum composition are key factors for the interaction between immune cells and nanoparticles/A. G. Pershina, A. M. Demin, N. A. Perekucha [et al.] // Colloids and Surfaces B: Biointerfaces, 2023. т.Vol. 221.-С.112981
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| Modification of Fe3O4 magnetic nanoparticles with a GRGD peptide/A. M. Demin, A. V. Vakhrushev, A. V. Mekhaev [и др.] // Russian chemical bulletin, 2021. т.Vol. 70,N № 3.-С.449-456
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| Modification of chemically and physically obtained Fe3O4 magnetic nanoparticles with L-Lys for cell labeling/A. M. Demin, O. F. Kandarakov, A. S. Minin [et al.] // Russian chemical bulletin, 2021. т.Vol. 70,N № 6.-С.1199-1208
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| Individual iron(III) glycerolate: synthesis and characterisation/T. G. Khonina, E. Y. Nikitina, D. S. Tishin [et al.] // RSC Advances, 2022. т.Vol. 12,N № 7.-С.4042-4046
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| Immobilization of pmida on Fe3O4 magnetic nanoparticles surface: mechanism of bonding/A. M. Demin, A. V. Mekhaev, V. P. Krasnov, A. A. Esin, D. K. Kuznetsov, P. S. Zelenovskiy, Y. Y. Shur // Applied surface science, 2018. т.V 440.-С.1196-1203
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| Functionalization of Fe3O4 magnetic nanoparticles with RGD peptide derivatives/A. M. Demin, A. Yu. Vigorov, I. A. Nizova, M. A. Uimin, N. N. Shchegoleva, A. E. Ermakov, V. P. Krasnov, V. N. Charushin // Mendeleev Communications, 2014. т.Vol.24,N №1.-С.20-22
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| Development of methods for preparation of Nd : YAG nanoparticles/I. S. Puzyrev, I. V. V'yukhina, M. Ivanov, Yu. G. Yatluk // Glass Physics and Chemistry, 2012. т.Vol.38,N №4.-С.427-430
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| Design of SiO2/aminopropylsilane-modifi ed magnetic Fe3O4 nanoparticles for doxorubicin immobilization/A. M. Demin, A. V. Vakhrushev, M. S. Valova [et al.] // Russian chemical bulletin, 2021. т.Vol. 70,N № 5.-С.987-994
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