Research group of professor Smirnov V.

Department of Solid state chemistry

 

Group members

The head of the group – Professor, Ph. D. Smirnov Vladimir

The group

  • Zemtsova E. G.Ph. D.; associate Professor
  • Arbenin A.Yu., Ph. D.; senior scientific.
  • Sidorov Yu.V., Ph. D.; researcher
  • Morozov P. E., chief engineer;
  • Ponomarev A. N., graduate student (research engineer);
  • Mironov V. S., postgraduate student (research engineer);
  • Mironov V. S., postgraduate student (research engineer);
  • Nazarov D. V., postgraduate student (research engineer);
  • Yurchuk D. V., research engineer;
  • Galiulina L. F., student (laboratory researcher);
  • Orekhov E. V., student (laboratory researcher);
  • Solohin A. Yu., student (laboratory researcher).

Research group carries out joint work with the staff of the Department of analytical chemistry: Professor D., PhD. Semenov V. G. and assistant Professor, PhD. Panchuk V. V. (joint articles, conference presentations).

Joint work is carried out by staff of the faculty of mathematics and mechanics (Department of elasticity theory (prof. Morozov N. F.); with the Laboratory of mechanics of bulk (massive) nanomaterials (professor Valiev R. Z.); and Institute of Cytology RAS. (associate professor, Ph. D.). Shevtsov M.)

The topics of scientific research group

  • Development of methods for synthesis of composite magnetic materials for superdense recording information.
  • Creation of scientific bases of synthesis of smart materials for spintronics and medicine
  • Development of scientific bases of obtaining ceramic, metallic and polymer composite nanomaterials for engine
  • Synthesis of nanoscale oxide powders and coatings by Sol-gel method and study the possibility of creating a dispersed system with high stability.
  • Development of scientific bases of creation of composite nanomaterials (implants) for biomedical applications.
  • Development of biomaterial based on nanostructured titanium with bioactive nanocoating for implants.
  • Development of a new approach to designing smart materials systems based on mesoporous silica – magnetite nanoparticles for targeted drug delivery.
  • The development of the chemical concept of the method of directed synthesis in the framework of obtaining new nanomaterials with controlled properties.