Browse Journals

[1] A. V. Notchenko and O. V. Gradov, Elementary morphometric labs-on-a-chip based on hemocytometric chambers with radiofrequency culture identification and relay of spectrozonal histochemical monitoring, Visualization, Image Processing and Computation in Biomedicine 2 (2013).

DOI: 10.1615/VisualizImageProcComputatBiomed.2013005968

[2] A. V. Notchenko and O. V. Gradov, A five-axis arm-manipulator laser system & an algorithm for digital processing of output data for recording and morpho-topological identification of cells and tissue structures, Visualization, Image Processing and Computation in Biomedicine 2 (2013).

DOI: 10.1615/VisualizImageProcComputatBiomed.2013005967

[3] E. V. Zaytsev, P. L. Alexandrov and  O. V. Gradov, Conventional patch-clamp techniques for multi-channel lab-on-a-chip signal registration from cell culture using real time target machine interfaces and in situ real-time digital signal processing, International Workshop “Structure and Functions of Biomembranes” (Biomembranes’14), Dolgoprudny (29 September - 3 October 2014), 158-159.

[4] O. V. Gradov, A. V. Notchenko and V. А. Oganessian, Mechanotronic neurogoniometry for  in vivo & in situ measurements on neuroblast cultures, neurosphere-like stem cell clusters, embryonic brain tissues & living brain slices, Skoltech Biomed. Conf.: “Towards Therapies of the Future” (May 26-28, 2014). 

{POSTER} DOI: 10.13140/2.1.2616.1281 [2014]

[5] F. K. Orehov and O. V. Gradov, Spectral and fluorescent detection of the DNA/XNA cyclic code decoding on the selectively stained microscopic samples, International Seminar «Life of Genomes», Kazan, [October 26-29, 2014], 16.

DOI: 10.13140/2.1.4347.4889

[6] O. V. Gradov, Qualimetric approach to molecular phylogenetics, NGS (2014), 6.

[7] F. C. Orehov and O. V. Gradov, On-line сompatibility of COBAC, QSPR/QSAR and SBGN technologies: The unity of theory & practice for biomedical equipment design & biochemical diagnostic analysis, X RGC on Biomed. Eng. (2014), 4.

DOI: 10.13140/2.1.1616.1921

[8] O. V. Gradov, Experimental setups for ozonometric microscopy, Biomedical Engineering 46(6) (2013), 260-264.

DOI: 10.1007/s10527-013-9319-8

[9] O. V. Gradov and F. K. Orekhov, Comparative labs-on-a-chip for dairy product analysis with automatic calibration using spectrophotometric or colorimetric temperature and tuple chemometric analyte systematization, Veterin., Zootech. & Biotech. 6 (2014), 45-63.

[10] O. V. Gradov and A. V. Notchenko, Accessible morphohistochemical labs-on-a-chip based on different counting chambers’ grids: Microfluidic morphodynamical workstations, Morphologia VI(1) (2012), 5-19. Max Planck IRGC:

core.coll.mpg.de/Record/DOAJ020377843

[11] O. Gradoff, Visualization of photoinduced self-organization processes in reaction-diffusion media for modelling of abiogenesis & primitive waves in morphogenesis, Int. Journ. Biophys. 2(3) (2012), 26-39.

DOI: 10.5923/j.biophysics.20120203.01

[12] M. A. Gradova and O. V. Gradov, Photoinduced self-oscillatory processes in hydrolyzed ferric chloride solutions, Int. Conf. Reaction Kinetics in Condensed Matter, P-S7 (2010), 120-121.

[13] O. V. Gradov and M. A. Gradova, Photoinduced biomimetic self-oscillatory processes in biopolymer-immobilized silver halides, Int. Conf. Reaction Kinetics in Condensed Matter, P-S7 (2010), 118-119.

[14] O. V. Gradov and M. A. Gradova, Synchronization of photochemical processes and photoinduced self-organization in dispersed semiconductors under optical pumping, 3-rd International Symposium “Molecular Photonics” (2012), 156.

[15] O. V. Gradov, Digital lab-on-a-chip as analog of soil chambers & Rossi-Cholodny slides, VII International Symposium “Cooperation in Biotechnology, Agriculture, Forestly, Fisheries & Food (EU-RF)” (2012), 17-18.

[16] O. V. Gradov and A. V. Notchenko, Spectrozonal lab-on-a-chip with RF broadcasting, X Int. Conf. “Physics and Radioelectronics in Medicine and Ecology”, Vol. III.

DOI: 10.13140/2.1.4907.7127