
People (21)
Yueh-Lin Lee
Xiao Wang
Norah AlHaqbani
Di Chen
Kunal Mukerjee
Zheng Li
Michael McDonald
Miguel Mendez Polanco
Md Nasim Hyder
Sean Bishop
Nicola Perry
Arup Muhkerjee
Wen Zheng
Duanhui Li
(Alan) Gye Hyun Kim
Ahmed Al-Obeidi
Yoon Ah Shin
Wesley Hong
Kelsey Stoerzinger
David Kwabi
Thomas Batcho
Matthew Nava
Chang Sub Kim
Jae Jin Kim
Michael Campion
Lutao Xie
Wenting Xing
Chibueze Amanchukwu
Ketian Zhang
Xi Rong
Kevin May
Keith J. Stevenson
Professor
Department of Chemistry
University of Texas at Austin
Education & Training:PhD, University of Utah, 1997
BA, University of Puget Sound, 1989
Postdoctoral Fellow, Northwestern University 1997-2000
Analytical Chemistry, Electrochemistry and Surface Chemistry
Our research is aimed at understanding and controlling the kinetics and energetics of reactions occurring at scientifically interesting, technologically relevant solid/liquid interfaces. Driving our fundamental interest is the need to comprehend the intricate relationships between mass transport, surface reactivity, and interfacial structure. This information is useful for the design and optimization of superior chemical process technologies associated with the areas of chemical sensing, energy storage/conversion, photonics, microelectronics, and device miniaturization.
Nanostructured Materials for Energy Conversion and Storage
Thrusts in this area focus on the creation and study of new materials with improved chemical, electronic and structural properties for potential applications in catalysis and power source technologies (e.g., fuel cells and batteries). One goal is to prepare high surface area (>100 m2/g) and high porosity (>70 to 99%) materials with tailored composition and nanostructure (e.g., size, shape and orientation). For instance, we have prepared nanocarbons via chemical vapor deposition that are inherently catalytic for oxygen reduction and hydrogen peroxide decomposition. Current studies involve the synergistic tuning of these nanocarbon supports with more active metal catalysts to enhance catalytic performance.
Chemically-Responsive Composites for Analysis and Sensing
Projects in this area are directed toward the assembly of nanostructured materials (mesoporous, colloidal, sorptive or framework solids) and chemical composites (substrate-specific, activator/reporter molecule systems) for use in developing selective chemical sensing methodologies. By employing both conventional and non-conventional nano- and micro-patterning techniques in conjunction with chemical and electrochemical deposition methods, we have been able to fabricate composite assemblies that are useful as 1D and 2D optical transmission gratings in chemical sensing applications. In a separate project, we have utilized the redox activity of small molecules in a mediated, enzymatic electrochemical sensing scheme. This system enables ultra-low (<1 nM); quantitative detection of biogenic analytes (cholesterol, hydrogen peroxide).
Development of High Resolution Analytical Tools/Methods
Projects in this area focus on the development of improved analytical methods and tools for the spatial, temporal, and spectral investigation of materials and interfaces. Better comprehension of mechanistic factors obtained by these measurements allows for direct establishment of structure/composition/performance relationships. For instance, we have recently used spectroelectrochemical imaging schemes to study proton and lithium insertion at inhomogeneous metal oxides (e. g. MoO3, MoxW1-xO3, MnO2,). Information of this kind is useful for developing superior materials for batteries, flexible electronics, electrochromics, and solar cells. We also developed ultra-sharp, nanosized probe tips with controlled geometry and orientation. These probe provide enhanced spatial resolution for characterization of nanoscale, high-aspect ratio features commonly associated with microelectronic devices.
Affiliations:
Center for Nano- and Molecular Science and Technology; IGERT: Atomic and Molecular Imaging; Texas Materials Institute; Welch Summer Scholar Program; Center for Electrochemistry; The Freshman Research Initiative
Honors and Awards:
Kavli Fellow, 2012
SEAC Young Investigator, 2006
CSGS New Scholar Award, 2004
NSF CAREER Award, 2002
Selected Peer-reviewed Publications:
1.Mefford, J. T.; Hardin, W. G.; Dai, S.; Johnston, K. P.; Stevenson, K. J. “Anion Charge Storage Through Oxygen Intercalation in LaMnO3 Perovskite Pseudocapacitor Electrodes,” Nat. Mater. 2014, 13(7), 726-732.
2. Hardin, W. G.; Mefford, J. T.; Wang, X.; Dai, S.; Ruoff, R. S.; Johnston, K. P.; Stevenson, K. J. “Tuning the Electrocatalytic Activity of Perovskites Through Active Site Variation and Support Interactions,” Chem. Mater. 2014 26, 3368−3376.
3. Goran, J.; Favela, C.; Stevenson, K. J. “Investigating the Electrocatalytic Oxidation of Dihydronicotinamide Adenine Dinucleotide at Nitrogen-Doped Carbon Nanotube Electrodes: Implications to Electrochemically Measuring Dehydrogenase Enzyme Kinetics,” ACS Catal. 2014 4, 2969-2976.
4. Redman, D. W.; Murugesan, S.; Stevenson, K. J. “Cathodic Electrodeposition of Amorphous Elemental Selenium From an Air- and Water-stable Room Temperature Ionic Liquid,” Langmuir 2014 30(1), 418-425.
5. Dasari, R.; Tai, K.; Robinson, D. A.; Stevenson, K. J. “Electrochemical Monitoring of Single Nanoparticle Collisions at Mercury Modified Platinum Ultramicroelectrodes,”ACS Nano 2014 8(5), 4539-4546.
6. Murugesan, S.; Quintero, O. A.; Chou, B. P.; Xiao, P.; Park, K.-Y.; Hall, J. A.; Jones, R. A.; Henkelman, G.; Goodenough, J. B.; Stevenson, K. J. “Wide Electrochemical Window Ionic Salt for use in Electropositive Metal Electrodeposition and Lithium Ion Batteries,” J. Mater. Chem. A 2014, 2, 2194–2201.
7. Dylla, A.; Henkelman, G.; Stevenson, K. J. “Lithium Insertion in Nanostructured TiO2 Architectures,” Acc. Chem. Res. 2013, 46(5) 1104-1112.
8. Membreno, N.; Xiao, P.; Park, K.-Y.; Goodenough, J. B.; Henkelman, G.; Stevenson, K. J. “In Situ Raman Study of Phase Stability of Li3V2(PO4)3 upon Thermal and Laser Heating,” J. Phys. Chem. C 2013, 117(23), 11994-12002.
9. Johnson, J. A.; Makis, J.; Marvin, K. A.; Rodenbusch, S. E.; Stevenson, K. J. “Size-dependent Hydrogenation of p-Nitrophenol with Pd Nanoparticles Synthesized by Polyamido(amine) Dendrimer Templates,” J. Phys. Chem. C 2013 117(44), 22644-22651.
10. Dasari, R.; Robinson, D.; Stevenson, K. J. “Ultrasensitive Electroanalytical Tool for Detecting, Sizing and Evaluating the Catalytic Activity of Platinum Nanoparticles,” J. Amer. Chem. Soc. 2013, 135(2), 570-573.
11. Goran, J. M.; Mantilla, S. M.; Stevenson, K. J. “Influence of Surface Adsorption on Interfacial Electron Transfer of Flavin Adenine Dinucleotide and Glucose Oxidase at Carbon Nanotube and Nitrogen-doped Carbon Nanotube Electrodes,” Anal. Chem. 2013, 85(3), 1571-1581.
12. Hardin, W. G.; Slanac, D. A.; Wang, X.; Dai, S.; Johnston, K. P.; Stevenson, K. J. “Highly Active, Non-precious Metal Perovskite Electrocatalysts for Bifunctional Metal Air Battery Electrodes,” J. Phys. Chem. Lett. 2013, 4, 1254-1259.
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Atomic and molecular structure; interactions of atoms and molecules at surfaces; interfacial electrochemistry and development of electrochemical theory and methods; molecular transport phenomena; scanning probe microscopies (STM, AFM, and SECM); optical microscopy; development of optical imaging methodologies and surface-sensitive analytical techniques; materials chemistry; development of electrochemical synthetic techniques; chemical sensors; analytical device miniaturization; energy storage and conversion. |
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Templated self-assembly of arrays of nanomaterials and synthesis of nanomaterials and nanostructured materials, with a focus on applications in energy devices, including Li-ion and Li-air batteries |
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Polymer physics, physical chemistry of polyelectrolytes and ionomers, computer simulations of polymer systems, fuel cells with proton-conducting polymer membrane |
W. Craig Carter
Professor of Materials Science & Engineering
MacVicar Faculty Fellow
Department of Materials Science & Engineering, MIT
Personal Statement:
My research centers on theory and meso-scale modeling of materials properties and processing. In particular,
I have focused on thermodynamics and kinetics of interfaces, simulations of microstructural evolution, and
predictions of fracture and reliability in materials. Recently, my work has turned towards the science of battery
materials and I have recently co-founded a company, 24M, with Prof. Yet-Ming Chiang which will produce grid
scale energy storage solutions. I have just started a new research program on economic models of battery
usage on the electric grid. I am also very interested in pedagogy----especially on how to combine research and
new knowledge with foundational learning.. I have received NSF funding to develop new teaching methods for
science and engineering. I have received MIT’s highest honors for teaching: The MacVicar fellowship which
recognizes excellence in teaching for the institute and the Bose award or teaching excellence in the School of
Engineering.
Positions:
National Research Council Post-doc, NIST (1989-1991), Staff Scientist, Rockwell International Science Center
(1991-92), Research Scientist, NIST (1992-98), Assoc. Prof. MIT (1998-2003), Cofounder, 24M technologies
(2010-), Full Professor MIT (2003-)
Honors and Awards:
MacVicar Distinguished Teaching Fellow (2008), Bose Award for excellence in engineering education (2008),
R.M. Fulrath award, Am. Ceram. Soc. (2006), Fellow, Am. Ceram. Soc. (1999), Technology of the Year (1999),
Civil Service Bronze medal (1997), Robert L. Coble award for young scientists (1996), Ross Coffin Purdy
award for best paper (1990)
Education & Training:
University of California, Berkeley, B.S., 1983, Materials Science & Engineering
University of California, Berkeley, M.S., 1987, Materials Science & Engineering
University of California, Berkeley, Ph.D., 1989, Materials Science & Engineering
Selected Peer-reviewed Publications:
1. (textbook) R.W. Balluffi, S.M. Allen, W. C. Carter, “Kinetics of Materials” Published by J. Wiley, ISBN 13
978-0-471-24689-3, TA404.8.B35, 2005.
2. M. Duduta, B.Y. Ho, V.C. Wood, P. Limthongkul, V.E. Brunini, W.C. Carter, Y.-M. Chiang, “Semi-Solid
Lithium Rechargeable Flow Battery,” Adv. Energy Mater., 1[4] 511-516 (2011)
(DOI: 10.1002/aenm.201100152).
3. D Cogswell, W.C. Carter, “Thermodynamic phase-field model for microstructure with multiple
components and phases: The possibility of metastable phases,” Physical Review, 83[6] (2011).
4. W. H. Woodford, Y. M. Chiang, W. C. Carter, "Electrochemical Shock" of Intercalation Electrodes: A
Fracture Mechanics Analysis. Journal of the Electrochemical Society 157, A1052 (2010).
5. M. Tang, W. C. Carter, R. M. Cannon, Grain boundary order-disorder transitions. Journal of Materials
Science 41, 7691 (Dec, 2006).
6. R. E. Garcia, W. C. Carter, S. A. Langer, The effect of texture and microstructure on the macroscopic
properties of polycrystalline piezoelectrics: Application to barium titanate and PZN-PT. Journal of the
American Ceramic Society 88, 750 (Mar, 2005).
7. M. Maldovan, C. K. Ullal, W. C. Carter, E. L. Thomas, Exploring for 3D photonic bandgap structures in
the 11 f.c.c. space groups. Nature Materials 2, 664 (Oct, 2003).
8. J. A. Warren, W. C. Carter, R. Kobayashi, A phase field model of the impingement of solidifying
particles. Physica A 261, 159 (Dec, 1998).
Evgeny Antipov
Professor, Head of Electrochemistry Chair
Lomonsov Moscow State Univerisity
Department of Chemistry
Education and Training:
Lomonosov Moscow State University, Moscow M.S. 09/1981 Chemistry
Lomonosov Moscow State University, Moscow Ph.D. 05/1986 Inorganic Chemistry
Lomonosov Moscow State University, Moscow Doctor of Sciences 05/1997 Inorganic Chemistry
Personal Statement:
My main field of research activity is synthesis of new inorganic materials with important physical properties. In the 1990th years we discovered different new superconducting materials, and among them the Hg-based superconducting mixed cuprates family, which still holds the record for the superconducting transition temperature. The insights on inorganic materials design developed by us and strengthened by modern synthetic approaches are now intensively used to streamline the research in the following fields today: a) new electrode materials for electrochemical production of aluminum which is supported by the Joint Company RUSAL; b) new electrode materials for Li-ion batteries with enhanced energy and power densities; c) new cathode materials for solid oxide fuel cell (SOFC) based on transition metal anion-deficient perovskites.
Positions:
1995 – present - Head of the Inorganic Crystallochemistry Laboratory at Moscow State University
1998 - present - Professor of the Department of Chemistry of Moscow State University
2005 - present - Head of the joint RUSAL-MSU Laboratory for Basic Research in Aluminum Production
2008 – present - Head of Electrochemistry Chair at Moscow State University
Honors:
1993 - Lomonosov Award of the Moscow State University
1994 - The Award of the World Congress on Superconductivity (Orlando, USA)
2003 - Russian State Award for Scientific Achievements
2006 - A.P. Karpinskij Award of the Alfred Toepfer Foundation for Scientific Achievements
2011 - Corresponding member of Russian Academy of Sciences
2011 - Member of Academia Europaea
Selected Peer-reviewed Publications:
1. Relevant publications: 1. S.N. Putilin, E.V. Antipov, O. Chmaissem, M. Marezio - Superconductivity at 94 K in HgBa2CuO4+ - Nature (London) 362 (1993) 226-228.
2. E.V. Antipov, S.M. Loureiro, C. Chaillout, J.J. Capponi, P. Bordet, J.L. Tholence, S.N. Putilin, M. Marezio - The Synthesis and Characterization of the HgBa2Ca2Cu3O8+ and HgBa2Ca3Cu4O10+ Phases - Physica C 215 (1993) 1-10.
3. S. Ya. Istomin, J. Grins, G. Svensson, O. A. Drozhzhin, V. L. Kozhevnikov, E. V. Antipov, and J. P. Attfield - Crystal Structure of the Novel Complex Cobalt Oxide Sr0.7Y0.3CoO2.62 - Chemistry of Materials 15 (2003) 4012-4020.
4. E.V. Antipov, A.M. Abakumov, S.Ya. Istomin - Target-aimed synthesis of anion-deficient perovskites - Inorganic Chemistry 47 (2008) 8543-8552.
5. I. Burmistrov, O. A. Drozhzhin, S. Ya. Istomin, V. V. Sinitsyn, E. V. Antipov and S. I. Bredikhin - Sr0.75Y0.25Co0.5Mn0.5O3-y perovskite cathode for Solid Oxide Fuel Cells - Journal of the Electrochemical Society 156 (2009) B1212-B1217.
6. A.V. Churikov, A.V. Ivanishchev, I.A. Ivanishcheva, V.O. Sycheva, N.R. Khasanova and E.V. Antipov - Determination of lithium diffusion coefficient in LiFePO4 electrode by galvanostatic and potentiostatic intermittent titration techniques – Electrochimica Acta 55 (2010) 2939-2950.
7. J. Hadermann, A.M. Abakumov, S. Turner, Z. Hafideddine, N.R. Khasanova, E.V. Antipov, G. Van Tendeloo - Solving the structure of Li ion battery materials with precession electron diffraction: Application to Li2CoPO4F - Chemistry of Materials 23 (2011) 3540-3545.
8. N.R. Khasanova, A.N. Gavrilov, E.V. Antipov, K.G. Bramnik, H. Hibst - Structural transformation of Li2CoPO4F upon Li-deintercalation - Journal of Power Sources 196 (2011) 355-360.
9. D.P. Rupasov, A.V. Berenov, J.A. Kilner, S.Ya. Istomin, E.V. Antipov - Oxygen diffusion in Sr0.75Y0.25CoO2.62 - Solid State Ionics 197 (2011) 18–24.
10. S.V. Chernov, Yu.A. Dobrovolsky, S.Ya. Istomin, E.V. Antipov, J. Grins, Svensson, N.V. Tarakina, A.M. Abakumov, G. Van Tendeloo, S.G. Eriksson, S.M.H. Rahman - Sr2GaScO5, Sr10Ga6Sc4O25, and SrGa0.75Sc0.25O2.5: a Play in the Octahedra to Tetrahedra Ratio in Oxygen-Deficient Perovskites - Inorganic Chemistry 51 (2012), 1094−1103.
Albert N. Shiryaev
Professor, Head Theory of Probability
Chair, Department of Mechanics and Mathematics
M.V. Lomonosov Moscow State University
Education & Training:
M.V.Lomonosov State Univ,student Specialist June 1957 Mathematics
Steklov Mathematical Institute PhD 1961 Theory of Probability
Steklov Mathematical Institute Doctor of Sci. 1967 Theory of Probability
M.V.Lomonosov State Univ
M.V.Lomonosov State Univ Full Professor Head of the Department of Probability 1970-1996 Theory of Probability and Mathematical Statistics
Correspondent member and Full member(academic) of the Russian Acad.of Sci 1997 and 2011 Department of Mathematics
Personal Statement:
The scientific activity of Shiryaev Albert covers many areas inProbability,Mathematical Statistics,Stochastic calculus,Financial mathematics ,Stochastic optimal control;he wrote many books and textbooks.Shiryaev was a plenary speaker in the Probability on Mathematical Congress in Helsinki,he was President of the Bernoully Soc.in the Probability and Mathematical Statistics(1989-1991),President of the Bashelier Soc.on financial mathematics(1998-1999).He is very activ in the work with students:he was adviser of the 59 PhD dissertation of his students. More than 250 main scientific papers (on probability theory, mathematical and applied statistics, optimal stochastic control, financial mathematics, history of mathematics).
Positions and Honors:
Since 1957 Member of the Steklov Mathematical Institute of the Russian Academy of Sciences.
Since 1970 Professor of the Moscow State University.
1986–2002 Head of the Laboratory “Statistics of Stochastic Processes” of the Steklov Mathematical Institute.
Since 1996 Head of the Probability Theory Department of the Faculty of Mechanics and Mathematics of the Moscow State University.
– Deputy Head of the journal “Theory of Probability and its Applications”.
– Co-editor of the journal “Finance and Stochastics”.
– Member of the editorial boards of the journals: “Analysis Mathematica” (Russian-Hungarian journal), “International Journal of Imaging Systems and Technology”, “Markov Processes and Related Fields”, “Probability and Mathematical Statistics”, “Quantitative Finance”, “Stochastics”, “Vestnik MGU. Ser Mat. Mekh.” – Member of the Advisory board of the journal “Statistics and Decisions”.
– Vice-President of the Bernoulli Society (1987–1989) – President of the Bernoulli Society (1989–1991)
– President of the Actuarial Society of Russia (1994–1998) – President of the Bachelier Finance Society (1998–1999)
– Member of the Scientific Council of the Steklov Mathematical Institute
– Member of the Scientific Board of the Thiele Centre for Applied Mathematics in Natural Sciences (Aarhus University, Denmark)
– Markov Prize of Academy of Sciences of the USSR (1974).
– Honorary Fellow of the Royal Statistical Society (1985).
– Member of the International Statistical Institute (ISI), Institute of Mathematical Statistics (IMS), Bernoulli Society (BS), Moscow Mathematical Society (MMS).
– Member of the Academia Europea (1990).
– Kolmogorov Prize of the Russian Academy of Sciences (1994).
– Man of the Year 1994 (by the American Biographical Institute).
– Humboldt Research Award (1996).
– Doctor Rerum Naturalium Honoris Causa of Albert Ludwigs University of Freiburg im Breisgau, Germany (2000).
– Professor Honoris Causa of Amsterdam University (2002).
– Distinguished Professor of M. V. Lomonosov Moscow State University (2003).
Selected Peer-reviewed Publications:
1. On a method of calculation of semi-invariants. (Russian) Teor. Veroyatnost. i Primenen. 4 (1959), no. 3, 341–355; Engl. transl. in Theory Probab. Appl. 4 (1960), no. 3, 319–329 (with V. P. Leonov).
2. On optimal methods in quickest detection problems. (Russian) Teor. Veroyatnost. i Primenen. 8 (1963), no. 1, 26–51; Engl. transl. in Theory Probab. Appl. 8 (1963), no. 1, 22–46.
3. Some new results in the theory of controlled random processes. (Russian) Transactions of the Fourth Prague Conference on Information Theory, Statistical Decision Functions, Random Processes (Prague, 1965). Prague: Czechoslovak Acad. Sci., 1967, pp. 131–201; Engl. transl. in Select. Transl. Math. Statist. Probab. 8 (1969), 49–130.
4. Sur les ´equations stochastiques aux d´eriv´ees partielles. Actes du Congr`es International des Math´ematiciens (Nice, 1970), t. 2. Paris: GauthierVillars, 1971, pp. 537–544
5. Absolute continuity and singularity of probability measures in functional spaces. Proceedings of the International Congress of Mathematicians (Helsinki, 1978). Helsinki: Acad. Sci. Fennica, 1980, pp. 209–225.
6. Martingales: Recent developments, results and applications. Internat. Statist. Rev. 49 (1981), no. 3, 199-233.
7. On some concepts and stochastic models in financial mathematics. (Russian) Teor. Veroyatnost. i Primenen. 39 (1994), no. 1, 5–22; Engl. transl. in Theory Probab. Appl. 39 (1994), no. 1, 1–13.
8. Statistical Sequential Analysis: Optimal Stopping Rules. (Russian) Moscow: “Nauka”, 1969. 231 pp.
9. Statistics of Random Processes. Nonlinear Filtering and Related Problems. (Russian) Probab. Theory Math. Statist., 15. Moscow: “Nauka”, 1974. 696 pp.
10. Probability. (Russian) Moscow: “Nauka”, 1980. 576 pp., 2nd ed. Moscow: “Nauka”, 1989. 640 pp.
11. T. Bharucha-Reid. Elements of the Theory of Markov Processes and their Applications. Russian transl. under the title Elementy teorii markovskikh protsessov i ikh prilozhenia edited by A. N. Shiryaev. Moscow: “Nauka”, 1969. 512 pp.
Vladimir Sergeyev
Professor, Vice Head of Polymer Division
Department of Chemistry
Lomonosov Moscow State University
Education & Training:
Lomonosov Moscow State University, Moscow M.S. 1981 Chemistry
Lomonosov Moscow State University, Moscow Ph.D. 1988 Polymer Chemistry
Lomonosov Moscow State University, Moscow Doctor of Sciences 2004 Polymer Chemistry
Personal Statement:
The main field of research activity of Professor Sergeyev is the synthesis of proton/ion/electron conducting polymer composites by oxidative template polymerization in the solution, in the presence of soft-template (surfactants, polyanions) or hard template (MWCNT, polymer films). Using these approach different kinds of energy related composite materials were developed at Polymer Division of Moscow State University.
Positions:
1981 – 1988 Junior Research Scientist, Department of Chemistry, Moscow State University
1989 – 1993 Research Scientist Department of Chemistry, Moscow State University
1993- 2000 Senior Research Scientist, Department of Chemistry, Moscow State University
2000 – 2006 Leading research Scientist, Department of Chemistry, Moscow State University
2006 – present Head of Polyelectrolytes and Biopolymers Laboratory
2008 – present Vice Head of Polymer division
Other appointments:
Member of the Board of Vysokomolekularnie Soedinenia (Russia), since 2008
Foreign Special Visiting Professor, Nagoya University (Japan) (2012)
Honor:
1996 - Fellowship from Japan Society for Promotion of Science
1996 - A main Award for best publications from publilishers "Maik Nayka" (Russia)
2000 - Lomonosov Award for scientific work from Moscow State University.
Selected Peer-reviewed Publications:
1. Lokshin N.A., Pyshkina O.A., Sergeyev V.G, Golubev V.B., Zezin A.B., Kabanov V.A., Levon K., Piankijsakul S. “Intermolecular Electron Transfer in Low-Molecular-Weight Polyaniline Models Associating on Protonation by Amphiphilic Acid in Organic Solvent”, Macromolecules, 34, 2001, p.5480-5487.
2. N.A. Lokshin, V.G. Sergeyev, A.B. Zezin, V.B. Golubev, K. Levon, V.A. Kabanov “Polyaniline-containing interpolymer complexes synthesized in low-polar organic media”, Langmuir, 2003, 19, 7564-7568.
3. O. A. Pyshkina, B. Kim, A. N. Korovin, A.B. Zezin, V. G. Sergeyev, K. Levon, “Interpolymer complexation of water-soluble self-doped polyaniline”, Synthetic Metals, 2008, 158, 999-1003.
4. A. Zinchenko, D. Baigl, N. Chen, O. Pyshkina, K. Endo, V. Sergeyev, K. Yoshikawa, “Conformational Behavior of Giant DNA through Binding with Ag+ and Metallization, Biomacromolecules”, 2008, 9, 1981–1987
5. Levon K., Nasybulin E., Menshikova I.P., Sergeyev V., Zezin A. Potentiometric monitoring DNA hybridization with polyaniline/nylon-6 working electrode // Polymer Science. Ser. A. 2009. V.51. №6. P. 1026-1033.
6. Nasybulin E., Menshikova I., Sergeyev V., Levon K. Preparation of Conductive Polyaniline/Nylon-6 composite films by polymerization of aniline in nylon-6 matrix // J. Appl. Polym. Sci. 2009. V. 114. P. 1643-1647.
7. Zhou J.Yu., Sergeyev V.G., Giuseppi-Elie A., Levon K. Potentiometric Detection of DNA Hybridization. Biosens.Bioelectron. 2009, 24, 3275-3280.
8. Shumakovich, G. P.; Vasil’eva, I. S.; Morozova, O. V.; Khomenkov, V. G. ; Staroverova, I. N.; Budashov, I. A.; Kurochkin, I. N.; Boyeva, J. A.; Sergeyev, V. G.; Yaropolov A. I. A Comparative Study of Water Dispersible Polyaniline Nanocomposites Prepared by Laccase-Catalyzed and Chemical Methods. - J. Appl. Polym. Sci. - 2010. - V. 117. - №3. – P. 1544–1550.
Alexander N. Obraztsov
Full Professor, Head of Laboratory
M.V. Lomonosov Moscow State University
Education & Training:
M.V. Lomonosov Moscow State University Diploma Specialist (MSc) 1981 Physics
M.V. Lomonosov Moscow State University Candidate of Science (PhD) 1986 Physics & Mathematics
M.V. Lomonosov Moscow State University Doctor of Science 2001 Physics & Mathematics
Personal Statement:
Professor Alexander N. Obraztsov is working at present time in the fields related to production, characterization and application of carbon materials. In 1995-1996 he established a new Laboratory of Carbon Materials at Chair of Polymer and Crystal Physics of Physics Department of MV Lomonosov Moscow State University. An original method of a chemical vapour deposition (CVD) of carbon films in plasma of a direct current gas discharge was proposed and developed by Prof. Obraztsov and his co-workers during 1996-1999. New nanostructured carbon materials (nanographite, nanoscrools of polygonal cross section etc.) were obtained and investigated as a result of this efforts. At present time the research team headed by Prof. Obraztsov is working on development and study of CVD methods for carbon films production, on characterization of structural and physical properties of carbons and elaboration of scientific approaches for application of the carbon materials mainly in electronics and optoelectronic, as well as in electrochemistry, biotechnology and other fields.
Prof. A.N. Obraztsov is participating in organization of education of students of MV Lomonosov Moscow State University in the fields of nanomaterials, nanotechnologies and nanodevices as a Vice-Director of Research and Educational Centre of Moscow State University in Nanotechnology. He personally has lectured at the Physics Department of Moscow State Universityon “Physical Principles of Nanotechnology”, “Physics of Crystal Surface”, and “Physics of Carbon Films”. During the period 1999-2001, he was a Full Professor at Kochi University of Technology (Kochi, Japan) where he organize CVD Carbon Laboratory. Since 2006 he is working as Part-time Professor and Director of Research at Department of Physics and Mathematics of the University of Eastern Finland where he establish new laboratory unit working in field of nanocarbon materials for photonics, optoelectronics and nano-electromechanics. Prof. A.N. Obraztsov is the member of editorial boards of international scientific journals Review of Scientific Instruments (since 2012) and ISRN Nanotechnology (since 2011). He is the member of Russian Expert Corpus, since 2009, the member Expert Councils of Onexim and Technoexim Corp. (2006-2009). He was the member of Organizing and Program Committees of a few international scientific conferences. Prof. Obraztsov is PI of 4 research projects funded by Russian organizations, 2 projects funded by the funding agencies in Finland and 1 project funded by the European FP7 program. Alexander Obraztsov manages research groups including 2 Ph.D, 4 PhD students, and 6 graduate students at Moscow State University. He has about 120 scientific papers, 8 patents and patent applications, more than 1000 citations, H-index 18.
Positions and Honors:
Laboratory Assistant, Department of Physics of Moscow State University, 1979-1981
Researcher, Department of Physics of Moscow State University, 1981-1986
Assistant Professor, Department of Physics of Moscow State University, 1986-1990
Scientists, Nuclear Physics Institute of Moscow State University, 1990-1992
Senior Scientists, Nuclear Physics Institute of Moscow State University,
1992-1995 Senior Scientists, Department of Physics of Moscow State University,
1995-2000 Senior Scientists, Department of Physics of Moscow State University,
1995-2002 Leading Scientists, Department of Physics of Moscow State University,
2002-2005 Professor, Department of Physics of Moscow State University,
2005-now
Other appointments:
Visiting Researcher, Electrotechnical Laboratory, Tsukuba, Japan, 1995
Docent, Technical University of Building Engineering, Moscow, Russia,1986-1989
R&D Project Director, TETRA Co., Ltd., Moscow, Russia, 1993-1998
Professor, Kochi University of Technology, Kochi, Japan, 1999-2002
Senior Scientist, Technological Institute of Superhard and Novel Carbon Materials, Troitsk, Russia, 2002-2004
Professor and Director of Research (part time), University of Eastern Finland, Joensuu, Finland, 2006-now
Technical Director of Gramond Oy, Joensuu, Finland – 2009-2010
Vice-Director of Educational and Research Center on Nanotechnology at Moscow State University, 2009-now
Honors & Awards:
Matsumae International Foundation Research Award (Japan), 1995
Selected Peer-reviewed Publications:
1. P.A. Obraztsov, M.G. Rybin, A.V. Tyurnina, S.V. Garnov, E.D. Obraztsova, A.N. Obraztsov, Y.P. Svirko, Broadband Light-induced Absorbance Change in Multilayer Graphene, NanoLetters, 11(2011)1540
2. A.N. Obraztsov Chemical vapour deposition. Making graphene on a large scale. Nature Nanotechnology 4(2009)212.
3. A.N. Obraztsov, D.A. Lyashenko, S. Fang, R.H. Baughman, P.A. Obraztsov, S.V. Garnov, Y.P. Svirko, Photon drag effect in carbon nanotube yearns, Appl. Phys. Lett. 94(2008)231112.
4. A.N. Obraztsov, E.A. Obraztsova, A.V. Tyurnina, A.A. Zolotukhin, Chemical vapor deposition of thin graphite films of nanometer thickness, Carbon 45(2007)2017.
5. Obraztsov A.N., Pavlovsky I., Volkov A.P., Obraztsova E.D., Chuvilin A.L., Kuznetsov V.L., Aligned carbon nanotube films for cold cathode applications, , J. ACUUM SCIENCE & TECHNOLOGY B 18(2000)1059-1063
6. Pavlovsky I.Y., Volkov, A.P., Petrov A.S., Petrov V.I., Rakova E.V., Roddatis V.V.,Electron field emission and structural properties of carbon chemically vapor-deposited films, Obraztsov A.N., DIAMOND AND RELATED MATERIALS 8(1999)814-819
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Alexei R. Khokhlov
Full Professor, Head Chair of Polymer Physics
MSU Vice-Rector
M.V. Lomonosov Moscow State University
Education & Training:
M.V. Lomonosov Moscow State University Specialist 1977 Physics
M.V. Lomonosov Moscow State University PhD 1979 Physics & Mathematics
M.V. Lomonosov Moscow State University Doctor of Science 1983 Physics & Mathematics
Personal Statement:
Professor Alexei R. Khokhlov is an internationally recognized scientist known for his outstanding contributions to various branches of polymer science. In 1976, while he still was an undergraduate student, he proposed, together with I.M.Lifshitz and A.Yu.Grosberg, the theory of coil-globule transitions in linear macromolecules. Later, A.R.Khokhlov developed this theory for the analysis of a wide variety of phenomena in polymer science: collapse of gels, of polyelectrolyte macromolecules, compactization of DNA molecules etc. In 1979-1988, together with A.N.Semenov, Professor Khokhlov performed pioneering studies in the field of liquid-crystalline polymers. As a result, the theory of liquid-crystalline ordering in the solutions of stiff-chain macromolecules with partial flexibility was first developed. In 1998 Professor Khokhlov proposed an original biomimetic approach aimed to the synthesis of macromolecules with required functional properties. Nowadays the research team in computer simulation of various polymer systems which is headed by A.R.Khokhlov is one of the most active in the world. Experimental research in his group is connected with modification of polymer surfaces after their treatment in supercritical fluids, use of associating polymers in oil industry, synthesis of catalytic nanoparticles of controlled size immobilized in polymer matrices, developments of new materials for polymer membranes for fuel cells.
Prof. A.R. Khokhlov made an outstanding contribution to education in polymer science. He organized education of students in polymer physics at the Physics Department of Moscow State University, developed several lecture courses in this field, wrote several highly popular books and textbooks for students dedicated to polymers. Prof. A.R. Khokhlov was a scientific advisor in more than 50 PhD dissertations. During the period 1997-2002, he organized educational programs in polymer science at the University of Copenhagen and at the University of Ulm. Nowadays he is the Head of the MSU Nanotechnology Research and Education Centre where he developed new fully interdisciplinary education program at the crossroad of physics, chemistry and biology.
Prof. A.Khokhlov is also known for his intensive international activities. In 2004-2005 he was the President of European Polymer Federation, works as the member of editorial boards of several international scientific journals (Langmuir, Journal of Physics: Condensed Matter, Biomacromolecules, Molecular Physics, Progress in Polymer Science, etc..), organized many international scientific conferences. He holds the positions of Adjunct Professor of State University of New York in Stony Brook and Honorary Professor of the University of Ulm. In addition to Vice-Rector Position currently Prof. Khokhlov supervises 6 diverse research projects with total annual budget larger than 2 mln. USD per year. As a head of the Chair of Polymer and Crystal Physics, MSU Physics Department, Alexei Khokhlov manages research group of 60 people including Ph.D. and graduate students. He has more than 600 scientific papers, 7 books and 25 article reviews, more than 11000 citations, H-index 52.
Positions:
Assistant Professor, Moscow State University, 1979-1984
Associate Professor, Moscow State University, 1984-1988
Full Professor, Moscow State University, 1988-now
Head of the Chair of Polymer Physics and Crystal Physics, Moscow State University, 1993-now
Vice-Rector of Moscow State University, 2008-now
President of European Polymer Federation, 2004-2005
Member of Presidium of Russian Academy of Sciences, 2008-now
Member of the Advisory Council on Science, Education and High Technologies for the President of Russian Federation, 2008-2011
Chairman of the Polymer Council of Russian Academy of Sciences, from 2002,
Vice-Chairman 1992-2002
Institute of Organo-Element Compounds, Head of Laboratory of Physical Chemistry of Polymers, 1991-now
Foreign Special Visiting Professor, Nagoya University (Japan), 1992
Adjunct Professor, State University of New York at Stony Brook (USA), 1993-now
External Professor, University of Copenhagen (Denmark), 1997-2002
Honorary Professor, Head of the Institute for Polymer Science, University of Ulm (Germany), 2002-now
Associate Member of IUPAC Macromolecular Division Committee, 1995-2003,
Titular Member, 1997-2001
Member of the Board of Macromolecular Physics Section of European Physical Society, 1999-now
Honors:
USSR Prize in Physics for Young Scientists (1982),
Humboldt Research Award (Germany,1992),
Wolfgang Paul Research Award (Germany, 2002),
Lomonosov Prize for Pedagogical Achievements (2005),
Polymer Technology Netherlands Award (2005),
Russian Federation National Award for Science and Technology (2008)
Selected Peer-reviewed Publications:
1. Self-Assembling Nanofibers from Thiophene - Peptide Diblock Oligomers: A Combined Experimental and Computer Simulations Study Shaytan Alexey K.; Schillinger Eva-Kathrin; Khalatur Pavel G.; et al. ACS NANO Volume: 5 Issue: 9 Pages: 6894-6909 (2011.
2. Structural and electrocatalytic features of Pt/C catalysts fabricated in supercritical carbon dioxide Said-Galiyev Ernest E.; Nikolaev Alexander Yu.; Levin Eduard E.; et al. JOURNAL OF SOLID STATE ELECTROCHEMISTRY Volume: 15 Issue:3 Pages: 623-633 (2011).
3. Atomistic and mesoscale simulation of polymer electrolyte membranes based on sulfonated poly(ether ether ketone) Komarov P. V.; Veselov I. N.; Chu P. P.; et al. CHEMICAL PHYSICS LETTERS Volume: 487 Issue: 4-6 Pages: 291-296 (2010).
4. A simple model of a high temperature PEM fuel cell Shamardina O.; Chertovich A.; Kulikovsky A. A.; et al. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY Volume: 35 Issue: 18 Special Issue: SI Pages: 9954-9962 (2010.
5. Morphology of Nafion Membranes: Microscopic and Mesoscopic Modeling Galperin Dmitry; Khalatur Pavel G.; Khokhlov Alexei R. DEVICE AND MATERIALS MODELING IN PEM FUEL CELLS Book Series: TOPICS IN APPLIED PHYSICS Volume: 113 Pages: 453-482 (2009.
6. Formation of superhydrophobic surfaces by the deposition of coatings from supercritical carbon dioxide Gallyamov M. O.; Nikitin L. N.; Nikolaev A. Yu.; et al. COLLOID JOURNAL Volume: 69 Issue: 4 Pages: 411-424 (2007.
7. Palladium nanoparticles by electrospinning from poly(acrylonitrile-co-acrylic acid)-PdCl2 solutions. Relations between preparation conditions, particle size, and catalytic activity Demir MM; Gulgun MA; Menceloglu YZ; et al. MACROMOLECULES Volume: 37 Issue: 5 Pages: 1787-1792 (2004.
8. Structural organization of water-containing Nafion: The integral equation theory Khalatur PG; Talitskikh SK; Khokhlov AR MACROMOLECULAR THEORY AND SIMULATIONS Volume: 11 Issue: 5 Pages: 566-586 (2002).
Danil M. Itkis
Assistant Professor
M.V. Lomonosov Moscow State University
Education & Training:
M.V. Lomonosov Moscow State University B.S. 06/05 Materials science
M.V. Lomonosov Moscow State University M.S. 01/07 Materials science
M.V. Lomonosov Moscow State University PhD 04/10 Materials science and electrochemistry
Personal Statement:
For the last 5 years I’ve been working on high-energy lithium batteries. My research involves utilization of soft chemistry approaches for synthesis of nanostructured cathode and anode materials, investigation of its structure and micromorphology, and development of spectroscopic in situ techniques for analysis of electrode process pathways and degradation mechanisms in lithium-metal-polymer and lithium-air batteries. Most recent work was focused on operando ambient pressure XPS studies that could be applied for investigation of metal-air battery and fuel cell electrodes.
Positions:
Engineer, Dept. of Materials Science, Moscow State University, 2006-2010
Assistant Professor, Dept. of Materials Science, Moscow State University, 2010-now
Junior research fellow, Dept. of Chemistry, Moscow State University, 2010-2011
Research fellow, Dept. of Chemistry, Moscow State University, 2011-now
Board member, FM Lab company, 2011-now
Honors:
Leonard Euler scholarship (Germany, 2007),
MSU prize for young scientists (2010)
Selected Peer-reviewed Publications:
1. V.A. Krivchenko, D.M. Itkis, S.A. Evlashin, D.A. Semenenko, E.A. Goodilin, A.T. Rakhimov, A.S. Stepanov, N.V. Suetin, A.A. Pilevsky, P.A. Voronin, Carbon nanowalls decorated with silicon for lithium – ion batteries, Carbon, 50, 1438-1442 (2012.
2. D.A. Semenenko, D.M. Itkis, T.L. Kulova, T.S. Yashuk, A.M. Skundin, E.A. Goodilin, Yu.D. Tretyakov, Fabrication of microporous cathode materials containing polyaniline–vanadia self-scrolled nanoribbons, Electrochimica Acta, 63, 329-334 (2012.
3. D.A. Semenenko, A.Ya. Kozmenkova, D.M. Itkis, E.A. Goodilin, T.L. Kulova, A.M. Skundin, Yu.D. Tretyakov, Growth of thin vanadia nanobelts with improved lithium storage capacity in hydrothermally aged vanadia gels, Cryst Eng Comm, 14, 1561-1567 (2012).
4. G. Aleshin, D. Semenenko, A. Belova, T. Zaharchenko, D. Itkis, E. Goodilin, Yu. Tretyakov, Protected anodes for lithium-air batteries, Solid State Ionics, 184, 62-64 (2011.
5. D.A. Semenenko, D.M. Itkis, E.A. Pomerantseva, E.A. Goodilin, T.L. Kulova, A.M. Skundin, Y.D. Tretyakov, LixV2O5 nanobelts for high capacity lithium-ion battery cathodes, Electrochem. Comm., 12, 1154-1157 (2010).
6. E. A. Goodilin, E. A. Pomerantseva, V. V. Krivetsky, D. M. Itkis, J. Hester, Yu. D. Tretyakov, A simple method of growth and lithiation of Ba6Mn24O48 whiskers, J Mater Chem, 15, 1614-1620 (2005).
7. E.A.Pomerantseva, D.M.Itkis, E.A.Goodilin, J.G.Noudem, M.V.Lobanov, M.Greenblatt, Yu.D.Tretyakov, Homogeneity field and magnetoresistance of the Ca(Mn, Cu)7O12 solid solution prepared in oxygen, J Mater Chem, 14, 1150-1156 (2004).
8. D.M. Itkis, E.A. Goodilin, A.M. Balagurov, I.A. Bobrikov, A.S. Sinitskii, Y.D. Tretyakov, Preparation-dependent properties of Ca(Mn,Cu)7O12 CMR materials, Solid State Comm, 139 380-385 (2006).
Evgeny Goodilin
Professor, Deputy Dean of Materials Science Department
Lomonosov Moscow State Univerisity
Department of Materials Science
Education & Training:
Lomonosov Moscow State University, Moscow M.S. 06/1992 Chemistry
Lomonosov Moscow State University, Moscow Ph.D. 09/1995 Inorganic Chemistry
Lomonosov Moscow State University, Moscow Doctor of Sciences 02/2003 Inorganic Chemistry
Personal Statement:
My research is focused today on the new materials, their processing and characterization techniques for lithium-metal-polymer and lithium-air power sources using a wide variety of soft chemistry and solid state preparation methods. Electrode materials under the study are related to vanadia nanobelts, nanotubes and their composites with chemically modified graphene or carbon nanotubes, molecular bronzes and hybrid organic – inorganic derivatives, manganese and tin oxide or titania 1D structures, macrocyclic complexes of transition metals, LiFePO4 system. Additionally, glassy and several kinds of nanostructured composites as advanced ionic conductors are to be developed for membranes and protected lithium anodes.
Positions:
1997 – 1998 – junior research associate at Moscow State University
1998 – 2000 – research associate at Moscow State University
2000 – 2005 – senior research scientist at Moscow State University
2005 – present – deputy dean of Materials Science department
Honors:
2006 - Corresponding member of Russian Academy of Sciences
2004 - First Shuvalov’s Prize of MSU 2003 - Gold Medal of European Academy of Sciences
2001 - Gold Medal and Prize for Young Scientists of Russian Academy of Sciences
2000 - Alexander von Humboldt fellowship (Germany)
1996 - 1998 - NEDO fellowship (Japan)
1997 - Annual Russian Federation Government Award for Young Scientists
1996 - ISTEC research fellowship (Japan);
Selected Peer-reviewed Publications:
1. G. Aleshin, D. Semenenko, A. Belova, T. Zaharchenko, D. Itkis, E. Goodilin, Yu. Tretyakov, Protected anodes for lithium-air batteries, Solid State Ionics, 2011, V. 184, P. 62–64
2. V.A.Krivchenko, D.M.Itkis, S.A.Evlashin, D.A.Semenenko, E.A.Goodilin, A.T.Rakhimov, A.S.Stepanov, N.V.Suetin, A.A.Pilevsky, P.A.Voronin, Carbon nanowalls decorated with silicon for lithium – ion batteries, Carbon, 2012, Vol.50, Iss.3, P. 1438-1442.
3. D.A. Semenenko, A.Ya. Kozmenkova, D.M. Itkis, E.A. Goodilin, T.L. Kulova, A.M. Skundin, Y.D. Tretyakov, Growth of thin vanadia nanobelts with improved lithium storage capacity in hydrothermally aged vanadia gels, CrystEngComm, 2012, Vol.14, P. 1561 – 1567.
4. D.A. Semenenko, D.M. Itkis, T.L. Kulova, T.S. Yashuk, A.M. Skundin, E.A. Goodilin, Y.D. Tretyakov, Fabrication of microporous cathode materials containing polyaniline–vanadia self-scrolled nanoribbons, Electrochimica Acta, 2012, Vol.63, P. 329–334
5. S. V.Demishev, A. L.Chernobrovkin, V. V.Glushkov, A. V.Grigorieva, E.A.Goodilin, H.Ohta, S.Okubo, M.Fujisawa, T.Sakurai, N.E.Sluchanko, N.A.Samarin, A.V.Semeno, Magnetic properties of vanadium oxide nanotubes and nanolayers, Phys. Rev. B, 2011, V.84, iss. 9, DOI: 10.1103/PhysRevB.84.094426
6. D.A.Semenenko, D.M.Itkis, E.A.Pomerantseva, E.A.Goodilin, T.L.Kulova, A.M.Skundin, Yu.D.Tretyakov, LiV2O5 nanobelts for high capacity lithium-ion battery cathodes, Electrochem. Comm., 2010, Vol.12, Issue 9, Pages 1154-1157.
7. Y.D.Tretyakov, E.A.Goodilin, Key trends in basic and application – oriented research on nanomaterials, Russian Chemical Reviews, 2009, Vol. 78, Issue 9, PP.801-820
8. E.A.Goodilin, E.A.Pomerantseva, V.V.Krivetsky, D.M.Itkis, J.Hester, Yu.D.Tretyakov, A simple method of growth and lithiation of Ba6Mn24O48 whiskers; J.Mater. Chem., 2005, 15, 1614 – 1620
9. Yu.D.Tretyakov, E.A.Goodilin, Fundamental chemical features of complex manganites and cuprates for advanced functional materials engineering, Pure Appl. Chem., 2004, vol.76, n.9, pp.1749-1768.
10. E.A.Goodilin, N.N.Oleynikov, G.Yu.Popov, V.A.Shpanchenko, E.V.Antipov, G.V.Balakirev, Yu.D.Tretyakov, On the stability region and structure of the Nd1+xBa2-xCu3Oz solid solution. Physica C., 1996, v.272, n.1&2, pp.65-78.
Marat O. Gallyamov
Associate Professor, Head of Laboratory of Polymers at Surfaces
and New Polymer Materials for Fuel Cells
Education & Training:
M.V. Lomonosov Moscow State University Specialist 01/1996 Physics
M.V. Lomonosov Moscow State University PhD 06/1999 Physics of Condensed Matter
M.V. Lomonosov Moscow State University DSc 12/2009 Polymer Physics
Personal Statement:
Marat O. Gallyamov received his Ph.D. degree in Physics of Condensed Matter in 1999 at the Lomonosov Moscow State University (Russia) in the field of Scanning Probe Microscopy (supervised by Igor V. Yaminsky). In 2002–2004 he stayed as Research Fellow with Prof. Martin Möller at Organische Chemie III—Makromolekulare Chemie (Universität Ulm, Germany), where he performed SFM research on different synthetic macromolecular objects, including study of vapour-induced conformational transitions. Afterwards he headed several research projects on various polymer applications at the Faculty of Physics, Lomonosov Moscow State University, including the project dedicated to the development of new membrane-electrode assemblies for high temperature fuel cells based on polybenzimidazoles doped with phosphoric acid. Since that time he became actively involved in fuel cells research. In 2009 he received D.Sc. degree (Russian degree similar to German habilitation) in Polymer Physics at the Lomonosov Moscow State University in the field of Scanning Force Microscopy of Polymer Structures. Since 2010 he is leading the "Laboratory of Polymers at Surfaces and New Polymer Materials for Fuel Cells" at the Department of Polymer and Crystal Physics (Lomonosov Moscow State University). His current research interest is focused on the research in high temperature polymer-based fuel cells and in the usage of supercritical carbon dioxide for deposition of nanostructures on different substrates and matrices for advanced applications.
Positions and Honors:
09.1999 – 06.2003, Research Associate (Engineer before 05.2000), Lomonosov Moscow State University
07.2003 – 06.2004, Humboldt Research Fellow, Universität Ulm
07.2004 – 09.2005, Research Associate, Lomonosov Moscow State University
09.2005 – 05.2010, Senior Research Associate, Lomonosov Moscow State University
06.2010 – 11.2011, Leading Research Associate, Lomonosov Moscow State University
12.2011 – present, Associate Professor AWARDS and HONORS 1997–1999 ISF (Soros Foundation) Graduate Student Awards
2003–2004 Humboldt Research Fellowship (Alexander von Humboldt Foundation)
2004–2005 M.V. Lomonosov Moscow State University scholarships for young lecturers and scientists
2012 Shuvalov Award (M.V. Lomonosov Moscow State University)
MEMBERSHIPS:
Member of The Royal Society of Chemistry (MRSC), membership number 472798
Selected Peer-reviewed Publications:
1. M. O. Gallyamov, R. A. Vinokur, L. N. Nikitin, E. E. Said-Galiyev, A. R. Khokhlov, I. V. Yaminsky, K. Schaumburg. High-Quality Ultrathin Polymer Films Obtained by Deposition from Supercritical Carbon Dioxide As Imaged by Atomic Force Microscopy // Langmuir (2002), v. 18(18), pp. 6928-6934. http://dx.doi.org/10.1021/la025807e
2. M. O. Gallyamov, L. N. Nikitin, A. Yu. Nikolaev, A. N. Obraztsov, V. M. Bouznik, A. R. Khokhlov, Formation of Superhydrophobic Surfaces by the Deposition of Coatings from Supercritical Carbon Dioxide // Colloid J. (2007), v. 69(4), pp. 411-424. http://dx.doi.org/10.1134/S1061933X07040035
3. L. N. Nikitin, M. O. Gallyamov, E. E. Said-Galiev, A. R. Khokhlov, V. M. Buznik, Supercritical Carbon Dioxide: A Reactive Medium for Chemical Processes Involving Fluoropolymers // Russ. J. Gen. Chem. (2009), v. 79(3), pp. 578-588. http://dx.doi.org/10.1134/S1070363209030396
4. D.O. Kolomytkin, M.O. Gallyamov, A.R. Khokhlov Hydrophobic properties of carbon fabric with Teflon AF 2400 fluoropolymer coating deposited from solutions in supercritical carbon dioxide // Russ. J. Phys. Chem. B (2011), v. 5(7), 1106–1115. http://dx.doi.org/10.1134/S1990793111070049
5. Ernest E. Said-Galiyev, Alexander Yu. Nikolaev, Eduard E. Levin, Ekaterina K. Lavrentyeva, Marat O. Gallyamov, Sergei N. Polyakov, Galina A. Tsirlina, Oleg A. Petrii, Alexey R. Khokhlov, Structural and electrocatalytic features of Pt/C catalysts fabricated in supercritical carbon dioxide // J. Solid State Electrochem. (2011), v. 15(3), pp. 623–633. http://dx.doi.org/10.1007/s10008-010-1169-7
6. T.E. Grigor'ev, E.E. Said-Galiev, A.Yu. Nikolaev, M.S. Kondratenko, I.V. Elmanovich, M.O. Gallyamov, A.R. Khokhlov, Electrocatalysts for Fuel Cells Synthesized in Supercritical Carbon Dioxide // Nanotechnologies in Russia (2011), v. 6(5-6), pp. 311–322. http://dx.doi.org/10.1134/S1995078011030062
7. Mikhail S. Kondratenko, Marat O. Gallyamov, Alexei R. Khokhlov, Performance of high temperature fuel cells with different types of PBI membranes as analysed by impedance spectroscopy // Int. J. Hydrogen Energy (2012), v. 37(3), pp. 2596–2602. http://dx.doi.org/10.1016/j.ijhydene.2011.10.087
8. Igor V. Elmanovich, Alexander V. Naumkin, Marat O. Gallyamov, Alexei R. Khokhlov, Organometallic Pt precursor on graphite substrate: deposition from SC CO2, reduction and morphology transformation as revealed by SFM // J. Nanopart. Res. (2012), v. 14(3), pp. 733. http://dx.doi.org/10.1007/s11051-012-0733-8
RELEVANT PATENTS:
1. Patent, Russian Federation, RU 2355071, Fuel-cell electrode, method of making active layer of electrode and use of electrode / M. O. Galljamov, A. R. Khokhlov, published: 10.05.2009. RU 2355071
2. Patent, Russian Federation, RU 2382444, Method of making membrane-electrode unit for fuel cell / M.O. Galljamov, A.R. Khokhlov, T. Klitspera, N. Risher published: 20.02.2010. RU 2382444