Abstract
Synthesis of nanoparticles of metals and their compounds with given morphology and dispersity for use in medicine, pharmacology, microelectronics, as well as subsequent research of their properties, is one of the current problems in the field of preparative inorganic chemistry. Interphase synthesis and redox-transmetalation reduction are as promising as the traditional precipitation from aqueous solutions, but not as researched. This study presents the results of a physicochemical analysis of nanoparticles of metals and their compounds obtained through chemical precipitation from aqueous solutions, interphase and redox-transmetalation interaction. Data describing the influence of phase composition and dispersity of copper and copper oxide (II) nanoparticles on their antimicrobial properties, as well as the results of researching the possibility to use magnetite magnetic fluids for mesenchymal stem cells marking, illustrate the application options synthe-sized nanoparticles find in pharmacology and medicine.
Highlights
OPINION NANOMEDICINENANOPRTICLES OF METALS AND THEIR INORGANIC COMPOUNDS OBTAINED THROUGH INTERPHASE AND REDOX-TRANSMETALATION INTERACTION: APPLICATION IN MEDICINE AND PHARMACOLOGY
Data describing the influence of phase composition and dispersity of copper and copper oxide (II) nanoparticles on their antimicrobial properties, as well as the results of researching the possibility to use magnetite magnetic fluids for mesenchymal stem cells labeling, illustrate the application options synthesized nanoparticles find in pharmacology and medicine
We investigated the effect phase composition has on the antimicrobial potency, morphology and dispersity of metallic copper and copper (II) oxide nanoparticles obtained through chemical precipitation from aqueous solutions with polyethylene glycol [11]
Summary
NANOPRTICLES OF METALS AND THEIR INORGANIC COMPOUNDS OBTAINED THROUGH INTERPHASE AND REDOX-TRANSMETALATION INTERACTION: APPLICATION IN MEDICINE AND PHARMACOLOGY. Data describing the influence of phase composition and dispersity of copper and copper oxide (II) nanoparticles on their antimicrobial properties, as well as the results of researching the possibility to use magnetite magnetic fluids for mesenchymal stem cells marking, illustrate the application options synthesized nanoparticles find in pharmacology and medicine. В работе представлены результаты физико-химического исследования наночастиц металлов и их соединений, полученных химическим осаждением из водных растворов, межфазным и контактным взаимодействием. Data describing the influence of phase composition and dispersity of copper and copper oxide (II) nanoparticles on their antimicrobial properties, as well as the results of researching the possibility to use magnetite magnetic fluids for mesenchymal stem cells labeling, illustrate the application options synthesized nanoparticles find in pharmacology and medicine.
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