Micro- and Nanosensors Laboratory | SSPA "Optics, Optoelectronics, and Laser Technology"

study of new functional materials based on modified anodic aluminum oxide
development of functional elements and systems for micro-nanoelectronics, optoelectronics and micromechanics
development of design options for physical and chemical sensors that operate on various physical principles
development of micro- and micro-optoelectromechanical systems (MEMS and MOEMS)
development and research of various functional micro- and nanodevices for biotechnology and filtration and separation systems

Influence of electrolyte composition on photoluminescent properties of anodic aluminum oxide // Journal of Applied Spectroscopy. – 2008. – Vol.75, No.2. – P. 214-218.
Photoluminescence of F-centers in films of anodic alumina //Journal of Applied Spectroscopy. – 2010. – Vol.77, No.4. – P.549-555.
A comparative study of surface-enhanced Raman scattering from silver-coated anodic aluminum oxide and porous silicon // Journal of Raman Spectroscopy. – – Vol.42, Issue1. – P.12–20.
Chemical composition and surface morphology of anodic alumina determined by electron microscopy and thermogravimetry // J. Surf. Inv. X-ray, Synchr. Neutr. Techn. –2011. – №5. – P.1005-1010.
Effect of annealing on the phase composition and morphology of Al2O3 formed in a complex electrolyte // J. Surf. Inv. X-ray, Synchr. Neutr. Techn. 2013. – №7. – P.536-541.
Optical properties of anodic aluminum oxide produced in a complex electrolyte, Surf. Inv. X-ray, Synchr. Neutr. Techn. 2014. – Vol.8, №4. – P.636-640.
Ordered growth of anodic aluminum in galvanostatic and galvanostatic-potentiostatic mode // Journal of Materials Science and Nanotechnology. – 2014. – Vol.1, No1. – 6p.
Photoluminescent properties of nanoporous anodic alumina doped with manganese ions // Journal of Luminescence. – 2017. – Vol.185. – P. 298-305.