Our Partners
Svetlana V. Patsaeva Senior Lecturer, Chair of General Physics, Physical Department, Moscow State University; Ph.D.
Igor I. Vlasov Senior Researcher, Center of Research in Natural Sciences, Institute of General Physics of RAS; Ph.D.
Igor G. Persiantsev Leading Researcher, Research Institute of Nuclear Physics, Moscow State University; Professor, Doctor of Science
Sergey A. Dolenko Senior Researcher, Research Institute of Nuclear Physics, Moscow State University; Ph.D.
Tatiana V. Laptinskaya Associate Professor, Chair of Polymers and Crystals, Physical Department, Moscow State University; Ph.D.
Tatiana M. Ilyasova Researcher, A.N.Belozersky Research Institute of Physico-Chemical Biology, Moscow State University
Special courses for Ph.D. students
Solution of inverse problems of optical spectroscopy with the help of adaptive methods of data analysis. Lecturer - Senior Researcher, Ph.D. Tatitana A. Dolenko.
Modern methods and possibilities of laser Raman spectroscopy. Experimental equipment and techniques. Lecturers - Senior Researcher, Ph.D. Tatitana A. Dolenko, Senior Researcher, Ph.D. Sergey A.Burikov.
Topics of yearly projects for students of the second course
Investigation of molecular interactions in colloidal solutions of nanoparticles (nanodiamonds, carbon quantum dots) using laser spectroscopy. Supervisor: Dr. Tatiana A. Dolenko.
Optical properties of water solutions of nanodiamands and their application in biology and medicine. Supervisor: Dr. Sergey A. Burikov.
Vibrational spectroscopy of water solutions of amphiphilic compounds. Supervisor: Dr. Sergey A. Burikov.
Solvate and energetic properties of lipophylic cations in solutions. Supervisor: Dr. Tatiana A. Dolenko.
Solution of inverse problems of Raman spectroscopy of water media using artificial neural networks and genetic algorithms. Supervisor: Dr. Tatiana A. Dolenko.
Forming mechanisms of water Raman spectra. Fermi and Darling-Dennison resonances. Supervisors: Dr. Tatiana A. Dolenko, Dr. Sergey A. Burikov.
Main Scientific Directions of the Group
Group of laser spectroscopy of solutions of supramolecular compounds and nanostructures is very young. We have grown up in the laboratory of laser spectroscopy of water media. Our history begins since September 2008. Scientific themes of the group include the following main directions.
Study of solutions of supramolecular compounds
Creation of new well-ordered supramolecular materials with given structure and properties plays an important role in processes of creation of new nanocomposites, films, membranes, in nanobiotechnologies and nanomedicine. Because amphiphilic compounds (containing hydrophilic and hydrophobic groups) are the base of supramolecular compounds, it is very important to study processes of formation of clathrates, self-organization, creation of micellar systems in water-ethanol solutions, surface active compounds, polymers etc.
One of our new problems is from the domain of energetics of biologic membranes: study of solvate and energetic properties of lipophylic cations, which can selectively penetrate membranes and deliver antioxidants into mitochondria of cells. Study of molecular interactions of such ions in water and bioobjects open fundamentally new opportunities of creating drug products and solving gerontology problems at the cell level. In our group, these studies are carried out using methods of vibrational spectroscopy (spectroscopy of infrared (IR) absorption and Raman spectroscopy) combined with correlation spectroscopy (Chair of Physics of Polymers and Crystals, Physcial Department of Moscow State University), potentiometry (Department of Bioengineering and Bioinformatics, A.N.Belozersky Research Institute of Physico-Chemical Biology, Moscow State University), methods of molecular dynamics (A.N.Frumkin Institute of Physical Chemistry and Electrochemistry).
Study of properties of nanoparticles and nanocomposites in liquid media
Objects of our investigations belong to a principally new class of composite materials that have emerged due to latest achievements in synthesis, bioadaptation and bioconjugation of nanoparticles. These are colloidal solutions of fluorescing nanoparticles (nanodiamonds (ND), carbon quantum dots (CQD)). These objects are of interest both from fundamental and practical points of view. Unique fluorescent properties of carbon quantum dots and nanodiamonds, their safety and non-toxicity allow their active use as optical biosensors. Due to developed multifunctional surface of ND and possibility of its modification this material has a very promising perspective for wide application in biology and medicine for adsorption and targeted drug delivery as well.
Thereby it is very topical to study molecular interactions and optical properties of nanoparticles in solutions, to search for approaches to manage these properties, including modification of surface functional groups or creation of new nanocomposites based on nanoparticles. Thus, optimization of properties of nanoparticles in the solutions for getting maximal therapeutic effect is impossible without solution of fundamental problems - study of mutual influence of matrix-solvent and nanoparticles on their optical, adsorption, vibrational properties. Such studies of molecular interactions of surface functional groups of initial and modified nanoparticles in solutions are carried out in our laboratory together with partners from GPI RAS, chemists from Turku University, technologists from USA.
Methods of artificial intelligence in optical spectroscopy
For precision analysis of vibrational spectra of studied solutions and to solve multi-parametrical inverse problems of vibrational spectroscopy we use artificial neural networks and genetic algorithms. Use of such powerful modern tools of solution of inverse problems and problems of optimization provides successful solution of a wide range of applied problems of diagnostics and analysis of water media.
Fundamental problems
Important information about intra- and intermolecular interactions in water can be obtained from spectroscopic characteristics of water, in particular, from the spectra of water Raman scattering. Until now, the structure of liquid water is not clear, and no complete model of vibrational processes in liquid water, which could adequately explain mechanisms of formation of water Raman spectral bands, has been established. Besides that, there are serious contradictions in conceptions about resonance interactions of vibrations in water molecules. The problem of contribution of Fermi resonance (resonance between overtone of bending vibrations and symmetric valence vibrations) to formation of valence band of water Raman spectrum still remains topical.
Water Raman spectrum is rather complicated, and it consists of a number of bands with different intensities, widths, and shapes. Its typical appearance is displayed at the diagram below.
- 50~200 cm-1 - bands of intermolecular translational vibrations with maxima at about 60 and 190 cm-1;
- 300~900 cm-1 - band of intermolecular librations with maximum at about 700 cm-1;
- 1600~1700 cm-1 - bending band with maximum at about 1645 cm-1;
- 2000~2400 cm-1 - associative band with maximum at about 2200 cm-1; probably caused by overtones of intermolecular vibrations and by combinational frequences;
- 3000~3800 cm-1 - valence band with maximum at about 3400 cm-1;
- 3900~4200 cm-1 - weak intensity band with maximum at about 4000 cm-1; probably caused by overtones of intermolecular vibrations and by combinational frequencies;
- 6000~7000 cm-1 - weak intensity band, probably an overtone of the valence band.
It is very difficult to get information directly from the spectrum because many of these bands are weak and have nearly no internal structure. That is why it is very important to study changes of Raman spectra under influence of various factors (for example, dissolved compounds or temperature). Under influence of dissolved substances and change of temperature hydrogen bonds in water and configuration of water clusters change and it reveals in Raman spectra.
Experimental data about weak bands of water Raman spectrum is very contradictory. These bands can be studied only using ultra-high sensitive detectors (CCD and photomultipliers with photon counting systems). Behaviour of most intensive valence band was studied in detail, but obviously the whole picture of vibration processes in water can be presented only when all of Raman bands are studied. Up until now there were few publications with results of research of some water Raman bands simultaneously (usually no more than two). Mechanisms of intra- and intermolecular interactions are formed in different ways and that is why they can be clarified only in case all Raman bands are studied simultaneously.
We pay special attention the research of weak bands of water Raman spectrum. These bands are caused by resonance vibrational interactions of water molecules and combination frequencies. Especially the role of Fermi resonance in formation of water Raman valence band and spectral band at 6000-7000 cm-1 are studied.
We also study intra- and intermolecular interactions in water, mechanisms of formation of water vibrational bands and structural peculiarities of water. This is achieved through studying of changes of water Raman spectrum under influence of the following factors: temperature, dissolved compounds.
Influence of the temperature
Study of Raman bands of water at different phases:
ice (-50~0 њC); supercooled water (-25~0 њC); liquid water (0~100 њC) and (as planned) vapor (over 100 њC). Under increase of the temperature hydrogen bonds weaken, water clusters change and it is revealed in Raman spectra.
Various dissolved compounds
Study of behaviour of water Raman spectra in the solutions of various compounds.
Solutions (Н2О+D2О) in different ratio
These solutions are interesting because at dilution D2О in Н2О number and orientation of intra- and intermolecular bonds do not change (deuterium atoms just replace hydrogen atoms). But forces of intramolecular, deuterium and hydrogen bonds change and it reveals in Raman spectra.
Solutions of inorganic salts, acids, alkalis in the full range of their solubility
Molecules of inorganic compounds dissociate in water and ions are surrounded by hydrate shells. In dependence on properties of ions their hydration happens in different ways. Revelation of hydration properties in Raman bands is studied, as well as formation of ion pairs, proton migration in water.
Solutions of organic compounds
Studied is the revelation of interactions of water molecules with hydrophilic and hydrophobic organic compounds in low frequency bands of water Raman spectra and in Raman spectra of these compounds.
Applied science
Results of study of influence of temperature and various admixtures on valence band of water Raman spectra are used for solution of inverse problems of Raman spectroscopy - development of remote methods of simultaneous determination of temperature, salinity of water and concentration of inorganic and organic compounds in water media including natural waters.
We have developed a method of simultaneous determination of water temperature and salinity (i. e. determination of total concentration of salts in seawater). Inverse three-parametrical problem - identification of the salts and determination of their partial concentrations in three-component solutions - was solved.
Novel methods of solution of inverse problems are used throughout our research - artificial neural networks, genetic algorithms, group method of data handling.
Experimental setup
- Raman spectrometer including argon laser (wavelengths of 488 and 514 nm, average power of 1 W, long-term stability - 1 %), double monochromator (Acton), PMT module with photon counting system (Hamamatsu), ССD (Jobin Yvon). Notch-filter (Semrock) is used in order to weaken elastic scattering in the low frequency region of spectrum, it allows to measure spectra starting at 200 cm-1
- System of thermostabilization of samples, allowing to maintain the temperature with the accuracy of 0,3 њC from -10 to 100 њC
- Spectrophotometer (Perkin Elmer) for measuring absorption spectra in the range of 200~900 nm
Selected publications
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N.Prabhakar, T.Nareoja, E. von Haartman, D.S.Karaman, H.Jiang, S.Koho, T.Dolenko, P.Hanninen, D.I.Vlasov, V.G.Ralchenko, S.Hosomi, I.I.Vlasov, C.Sahlgren, J.M.Rosenholm. Core-shell designs of photoluminescent nanodiamonds with porous silica coatings for bioimaging and drug delivery II: Application. Nanoscale, 2013, v.5, N 9, pp.3713-3722, DOI: 10.1039/C3NR33926B.
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Eva von Haartman, Hua Jiang, Andrei A. Khomich, Jixi Zhang, Sergey A. Burikov, Tatiana A. Dolenko, Janne Ruokolainen, Hongchen Gu, Olga A. Shenderova, Igor I. Vlasov and Jessica M. Rosenholm, Core-shell designs of photoluminescent nanodiamonds with porous silica coatings for bioimaging and drug delivery I: Fabrication. J. of Materials Chemistry B, 2013, v.1, N18, pp.2358-2366, DOI: 10.1039/C3TB20308E. PDF (2.9 МБ)
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T.A.Dolenko, S.A.Burikov, J.M.Rosenholm, O.A.Shenderova, I.I.Vlasov.. Diamond-water coupling effects in Raman and Photoluminescence of nanodiamond colloidal suspensions. J. Phys. Chem. С, 2012, v.116, N45, pp 24314-24319. DOI: 10.1021/jp306803n. PDF (987 kB)
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S.A.Dolenko, S.A.Burikov, T.A.Dolenko, I.G.Persiantsev. Adaptive Methods for Solving Inverse Problems in Laser Raman Spectroscopy of Multi-Component Solutions. Pattern Recognition and Image Analysis, 2012, v.22, N4, pp.551-558.
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S.Dolenko, T.Dolenko, S.Burikov, V.Fadeev, A.Sabirov, and I.Persiantsev. Comparison of Input Data Compression Methods in Neural Network Solution of Inverse Problem in Laser Raman Spectroscopy of Natural Waters. In: A.E.P. Villa et al. (Eds.): ICANN 2012, Part II. Lecture Notes in Computer Science, 2012, v.7553, pp.443-450. PDF (234 kB)
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V.V.Fadeev, N.N.Sysoev, I.V.Fadeeva, S.A.Dolenko, T.A.Dolenko. On the Potentiality of Using the Fluorescence of Humic Substances for the Determination of Hydrological Structures in Coastal Sea Waters and in Inland Water Basins. Oceanology, 2012, v.52, No.4, pp.606-616.
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S.A. Burikov, T.A. Dolenko, I.S. Kurchatov, S.V. Patsaeva, Yu.V. Starokurov. Computer analysis of vibrational spectra of water-ethanol solutions. Izv. VUZov. Physcis, 2012, V.55, No.4, p.38-43. (In Russian.)
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T.A. Dolenko, S.A. Burikov, S.V. Patsaeva, V.I. Yuzhakov. Manifestation of hydrogen bonds of aqueous ethanol solutions in the Raman scattering spectra. Quantum Electronics, 2011, V.41, ?3, с.267-272.PDF (250 kB)
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S. Burikov, T. Dolenko, S. Patsaeva, Yu.Starokurov, and V. Yuzhakov. Raman and IR spectroscopy research on Hydrogen bonding in water-ethanol systems. Molecular Physics, 2010, No.18, pp.2427-2436.PDF (300 kB)
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Naiping Hu, Dan Wu, Kelly Cross, Sergey Burikov, Tatiana Dolenko, Svetlana Patsaeva, and Dale W. Schaefer. Structurability: A Collective Measure of the Structural Differences in Vodkas. J. of Agricultural and Food Chemistry, 2010, V.58, pp.7394-7401. PDF (3,7 MB)
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S.A.Burikov, S.A.Dolenko, T.A.Dolenko, I.G.Persiantsev. Application of Artificial Neural Networks to Solve Problems of Identification and Determination of Concentration of Salts in Multi-Component Water Solutions by Raman Spectra. Optical Memory and Neural Networks (Information Optics), 2010, v.19, No 2, pp.140-148. PDF (200 kB)
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S.A.Burikov, T.A.Dolenko, D.M.Karpov. Contribution of Fermi resonance to formation of valence band of Raman spectrum of water. Optics and Spectroscopy, 2010, v.109, No 2, pp.272-278. PDF (in Russian) (250 kB)
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S.Burikov, S.Dolenko, T,Dolenko, S.Patsaeva, V.Yuzhakov. Decomposition of water Raman stretching band with a combination of optimization methods.
Molecular Physics, 2010, V.108, No.6, pp.739-747. PDF (520 kB)
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S.A.Burikov, S.A.Dolenko, T.A.Dolenko, I.G.Pesiantsev. Use of adaptive neural network based algorithms to solve problems of identification and determination of concentrations of salts in multi-component water solution by Raman spectra. Neurocomputers: Development, Application, 2010, No.3, pp.55-69. In Russian. (С.А.Буриков, С.А.Доленко, Т.А.Доленко, И.Г.Персианцев. Применение адаптивных нейросетевых алгоритмов для решения задач идентификации и определения концентраций солей в многокомпонентном водном растворе по спектрам комбинационного рассеяния света. Нейрокомпьютеры: разработка, применение, 2010, ?3, с.55-69.) Summary as PDF (1.3 MB) Full text PDF (in Russian) (24 MB (!))
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S.A.Burikov, T.A.Dolenko, S.V.Patsaeva, V.I.Yuzhakov. Laser analyzer of liquids with complex software. Water: Chemistry and Ecology, 2010, No.1, p.31-37. In Russian. (С.А.Буриков, Т.А.Доленко, С.В.Пацаева, В.И.Южаков. Лазерный анализатор жидкостей с комплексным программным обеспечением. Вода: химия и экология, 2010, ?1, с.31-37.) PDF (in Russian) (2.1 MB)
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S.A.Burikov, T.A.Dolenko, S.V.Patsaeva, V.I.Yuzhakov. Diagnostics of water-ethanol solutions by Raman spectroscopy method. Optics of Atmosphere and Ocean, 2009, No.11, p.1082-1088. In Russian. (С.А.Буриков, Т.А.Доленко, С.В.Пацаева, В.И.Южаков. Диагностика водно-этанольных растворов методом спектроскопии комбинационного рассеяния света. Оптика атмосферы и океана, 2009, ?11, с.1082-1088.) PDF (in Russian) (2,4 МБ)
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S. Burikov, T. Dolenko, V. Fadeev. The Role of Fermi Resonance in formation of valence band of water Raman scattering. Research Letters in Optics, v. 2008, ID 204828, 4 pages, DOI 10.1155/2008/204828. PDF (664 kB)
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S. Burikov, T. Dolenko, V. Fadeev, I. Vlasov. Revelation of ions hydration in Raman scattering spectral bands of water. Laser Physics, 2007, v. 17, ? 9, pp. 1~7. PDF (109 kB)
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S. Burikov, T. Dolenko, V. Fadeev. Identification of inorganic salts and determination of their concentrations in water solutions from the Raman valence band using artificial neural networks. Pattern Recognition and Image Analysis, 2007, v. 17, ? 4, pp. 554~559. PDF (294 kB)
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S. Burikov, T. Dolenko, V. Fadeev, A. Sugonyaev. New opportunities in the determination of Inorganic compounds in water by the method of laser raman spectroscopy. Laser Physics, 2005, v.15, ? 8, pp. 1~5. PDF (85 kB)
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S. Burikov, T. Dolenko, P. Velikotnyi, A. Sugonyaev, V. Fadeev. The effect of hydration of ions of inorganic salts on the shape of the Raman stretching band of water. Optics and Spectroscopy, 2005, v. 98, ? 2, pp. 235~239. (С. А. Буриков, Т. А. Доленко, П. А. Великотный, А. В. Сугоняев, В. В. Фадеев. Проявление гидратации ионов неорганических солей в форме валентной полосы комбинационного рассеяния молекул воды. Оптика и спектроскопия, 2005, т. 98, ? 2, с. 275~279.)
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T. Dolenko, I. Churina, V. Fadeev, S. Glushkov. Valence band of liquid water Raman scattering: some peculiarities and applications in the diagnostics of water media. J. of Raman Spectroscopy, 2000, v. 31, ? 8~9, pp. 863~870. PDF (2.5 MB)
Participation in conferences
I
Intern. EARSeL Workshop 'Remote sensing of the coastal zone', 5th~7th of June 2003, Ghent, Belgium
II
XII Intern. Conference on Pattern Recognition and Image Analysis: New Information Technologies, 18th~23th of October 2004, Saint Petersburg, Russia
III
Intern. Conference on Spectroscopy (IRE10), 4th~5th of April 2005, Dublin, Ireland
IV
II Intern. Conference 'Current Problems in Optics of Natural Waters' (ONW), 12th~16th of September 2005, Saint Petersburg, Russia
V
XX Intern. Conference on Raman Spectroscopy, 20th~25th of August 2006, Yokohama, Japan
VI
Intern. Conference on Lasers, Applications and Technologies (2007), 28th of May ~ 1st of June 2007, Minsk, Belarus
VII
XXI Intern. Conference on Raman Spectroscopy (ICORS08), 17th~22th of August 2008, London, United Kingdom
VIII
IV EARSeL Workshop on Remote Sensing of the Coastal Zone: Coasts and Climate Conflicts", 18~20 June 2009, Chania, Crete, Grece
IX
21st Colloquium on High Resolution Molecular Spectroscopy, August 31st - September 4th 2009, Castellammare di Stabia, Italy. Photo report
X
IX International Conference Atomic and Molecular Pulsed Lasers, September 14th~18th, 2009, Tomsk, Russia.
XI
International Conference "Photonics of Molecular Nanostructures", September 16th~19th, 2009, Orenburg, Russia
XII
Horiba-ISSP International Symposium (ISSP-11) 'Hydrogen and water in condensed matter physics', October 12th~16th, 2009, Chiba, Japan. Extended Abstracts, pp.40-41. PDF (4.3 MB)
XIII
Youth Forum "Fundamental and Applied Aspects of Innovation Projects of the Physical Department of MSU", November 18th, 2009, Moscow, Russia. Presentation(in Russian) (555 кБ) 3rd degree award diploma (110 кБ)
XIV
XII All-Russian Scientific and Technical Conference "Neuroinformatics-2010", January 25-29, 2010, Moscow, Russia. Publication in Conference Proceedings (in Russian) (2,6 МБ)
XV
XII International Conference on Laser Applications in Life Sciences, LALS-2010, June 9-11, 2010, Oulu, Finland. Photo report
XVI
X International Conference on Pattern Recognition and Image Analysis: New Information Technologies, PRIA-2010), December 5-12, 2010, Saint Petersburgh, Russia.
XVII
5th EARSeL Workshop on Remote Sensing of the Coastal Zone, June1-3, 2011, Prague, Czech Respublic. Photo materials
XVIII
X international Conference "Atomic and Molecular Pulse Lasers". September 12-16, 2011, Tomsk, Russia.
XIX
X All-Russian Scientific Conference "Neurocomputers and their application". March 20, 2012, Moscow, Russia.
XX
23rd Annual Symposium of the Finnish Society of Physical Pharmacy, March 2012, Helsinki, Finland.
XXI
19th International Symposium on Metastable, Amorphous and Nanostructured Materials, July 18-22, 2012, Moscow, Russia. Photo material
XXII
16th Meeting of the International Humic Substances Society "Functions of Natural Organic Matter in Changing Environment", September 9-14, 2012, Hangzhou, China.
XXIII
International Conference on Diamond and Carbon Materials, September 3-6, 2012, Granada, Spain.
XXIV
22nd International Conference on Artificial Neural Networks, ICANN-2012, September 11-14, 2012, Lausanne, Switzerland.
XXV
The Jubilee Symposium in the honour of the 20th anniversary of the Biotechnology division of Turku University, November 1-2, 2012, Turku, Finland.
XXVI
XV All-Russian Scientific and Technical Conference "Neuroinformatics-2013", January 21-25, 2013, Moscow.
XXVII
XI All-Russian Scientific Conference "Neurocomputers and their applications", March 19, 2013, Moscow.
State certificates
Certificate of State Registration of Database No. 2008620382. PDF (122 kB)
Grants
- Grant of the Russian Foundation for Basic Research (RFBR) No. 13-01-00897-а for 2013-2015 "Self-organizing Kohonen maps as a new method for determination of ion composition of mulit-component solutions" (headed by S.A.Burikov)
- Grant of the Russian Foundation for Basic Research (RFBR) No. 12-01-31523-mol_a for 2012-2013 "Method of application of neural network algorithms for elaboration of fluorescence biosensors on the basis of nanoparticles" (headed by S.A.Burikov)
- Grant of the Russian Foundation for Basic Research (RFBR) No. 12-01-00958-а for 2012-2014 "Development of neural network based data analysis algorithms and methodology of their application for identification and determination of partial concentrations of components in multi-component mixtures" (together with laboratory of Prof. I.G.Persiantsev, SINP MSU)
- Grant of the Russian Foundation for Basic Research (RFBR) No. 11-05-01160-а for 2011-2013 "Elaboration of scientifically grounded express and remote method for determination of salt composition of nature waters by Raman spectroscopy (headed by T.A.Dolenko)
- Support of innovation youth project "Laser analyzer of liquids with complex software" (headed by S.A.Burikov) by Russian Academy of Sciences and by National Association of Innovations and Development of Information Technologies (NAIRIT).
- Scholarship of MSU for talented young researchers and lecturers (awarded to S.A.Burikov)
- Grant of the Russian Foundation for Basic Research (RFBR) No. 10-03-91752-АФ_а RFBR-Finland for 2010-2012 "Fluorescent nano-diamonds and nano-diamond-silicium composites for biology and medicine" (together with laboratory of Senior Researcher, PhD I.I.Vlasov, Gen.Phys.Inst. of RAS)
- Grant of the Human Capital foundation for 2009 "Development and application of adaptive neural network based algorithms to solve the problems of identification and determination of concentrations of salts in multi-component water solution by Raman scattering spectra" (together with laboratory of Prof. I.G.Pesiantsev, SINP MSU)
Events
- On July 24, 2009, a special scientific seminar of the group has been held. An invited talk has been given by Prof. E.Arunan (Bangalore, India). The topic of his talk was "Hydrogen bond and hydrogen bond radii: A microwave spectroscopist's view." Colleagues from MSU Physical Department and from SINP MSU took part In the discussion.
- On January 18, 2010, an international scientific seminar devoted to 145th anniversary of D.I.Mendeleev defending his Doctor thesis "On mixing of alcohol with water", will be held in the Conference Hall of the Building of Non-Linear Optics, MSU. Information about program of the seminar and the plan of MSU territory (in Russian) can be downloaded here (340 kB). Photo report
- On September 1, 2010, our teacher Victor Vladimirovich Fadeev celebrates his anniversary. Our warmest congratulations on his birthday! We wish him good health and further success in his creative activities.
- December 23, 2010. We congratulate Kirill Laptinsky, who has been successfully accepted to our chair of Quantum Electronics after passing a tough competition.
- December 23, 2010. We congratulate Sergey Burikov, who has been awarded the scholarchip of M.V.Lomonosov MSU for talented young researchers and lecturers. HURRAY!
- March 1, 2011. Our project "Laser analyzer of liquids with complex software" headed by S.A.Burikov has won in the All-Russian competition for support of high-technology innovation youth projects, held by Russian Academy of Sciences and by National Association of Innovations and Development of Information Technologies (NAIRIT).Winner diploma (680 kB)
- May 21, 2012. We congratulate Kirill Laptinsky, who has successfully defended his course thesis with an excellent mark.
- May 2012. We congratulate our graduate Dima Karpov, who has received two degrees in America: Master of Science in Physics and Master in Public Management. We wish him further success!
- May 29, 2012. We congratulate Sergey Burikov, who has been promoted to Senior Researcher!
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