| P. I. Nikitin |
| Magnetic nanoparticles for in vitro medical diagnostics and in vivo targeted delivery of medicinal preparations
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| A. O. Orlova |
| Photophysics of complexes of quantum-confined semiconductor nanocrystals with tetrapyrrole compounds
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| V. Antonov, P. Efremov, and V. Semenyutin |
| Malformations in cerebral vessels: diagnostics, modeling, and curing
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| K. M. Lebedinskii and A. N. Kovalenko |
| Physiological and physical-technical foundations of medical monitoring
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| S. G. Lushnikov |
| Relationship between structure and dynamics of globular proteins
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| A. E. Osadchii |
| Solution of the inverse problem of magnetoencephalography based on the assumption of wave propagation of neuronal activity
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| B. S. Gutkin |
| Role of oscillations in working memory
|
| Kasas Sandor |
| AFM based sensors for detection of nanoscale motion in living organisms
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| L. V. Kukharenko |
| AFM studies of irradiated skin fibroblasts in patients with anemia
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| A. G. Temiryazev |
| Potentialities of modern atomic-force microscopy in studies of bio-objects
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| N.T. Bagraev, P.A. Golovin |
| Sources and detectors of terahertz radiation, based on microcavities built-in edge channels of silicon nanosandwiches |
| A. V. Kozlenok |
| Use of mass-spectroscopic analysis of exhaled air in medical diagnostics
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| Acad. V. A. Dragavtsev |
| Need to develop physical devices for fast (without alternation of generations) identification of genotypes for selection in segregating and wild populations
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| S. von Gratowski |
| Physical methods for studying the plant physiology and the microwave and millimeter-wave spectroscopy for real-time nondestructive in-life monitoring of the moisture content of plants
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| G. G. Panova |
| Fundamentals of physical modeling in ideal agricultural-ecological systems
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| E. V. Kanash et al. |
| Noninvasive physical methods for phenotyping of plants to solve selection-genetic problems
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| M. L. Gel'fond |
| Local and systemic photodynamic therapy in curing of disseminated tumor diseases
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| V. G. Bespalov |
| High-intensity focused ultrasound in curing of malignant and benign tumors
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| D. A. Gorin |
| Combination of photonics and nanostructured-particle methods for biomedical applications
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| O. S. Vasyutinskii |
| Study of molecules important for biology and medicine by femtosecond laser spectroscopy
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| E. A. Markvicheva |
| Biodegradable matrices based on natural and synthetic polymers for regenerative medicine
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| S. N. Chvalun |
| Natural or synthetic polymers for biomedicine: pro et contra
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| A. B. Burlakov |
| Sensitivity of biological objects to weak electromagnetic fields and radiation during critical periods of embryogenesis
|
| M. Knodel |
| 2D and 3D simulations to relate form and function at presynaptic boutons, in virology and for multiphase flow in porous media |
| Yu. V. Bogachev |
| Magnetic resonance theranostics
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| I.I. Vlasov, O.A. Shenderova, O.S. Kudryavtsev, A.A. Khomich, T.A. Dolenko |
| Carbon-dot-decorated nanodiamonds for biomedical applications |
| I. V. Yaminsky |
| Experimental possibilities of bionanoscopy in solving practical problems of biology and medicine |
| A. L. Vasiliev |
| Modern methods of transmission electron microscopy in the study of biological objects |
| E. S. Kornilova |
| highly Specific delivery by nanoparticles on the example of complexes of quantum dots with epidermal growth factor |
| E. P. Podolskaya |
| Langmuir Technology as a tool for organic and Bioorganic analysis
|
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