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Solar technology is moving forward apace but the overriding challenges remain ones of efficiency, economy and storage.
New Solar Technology Harvests Indoor Energy
Qiang Xu received his PhD degree in Physical Chemistry in 1994 at Osaka University, Japan. After one year working as a postdoctoral fellow at Osaka University, he started his career as a Research Scientist in Osaka National Research Institute in 1995. Currently, he is a Chief Senior Researcher at National Institute of Advanced Industrial Science and Technology (AIST) and adjunct professor at Kobe University, Japan. He received the Thomson Reuters Research Front Award in 2012 and was recognized as among the highly cited researchers (2014 & 2015 & 2016) in both fields of Chemistry and Engineering by Thomson Reuters. His research interests include chemistry of nanostructured materials, in particular porous materials, and related functional applications, especially for clean energy. He has published more than 300 papers in refereed journals with citation > 16000 and h-index > 65 (Web of Science). He is involved in a number of editorial/advisory boards of journals, including as an associate editor of Coordination Chemistry Reviews (Elsevier) and an advisory board member of Chem (Cell Press).
Professor Prakash’s research work is well funded and has been exceptionally productive, groundbreaking and successful with more than 660 peer-reviewed scientific publications, 11 books and over 40 patents and patent applications. According to the Science Citation Index published by the Institute for Scientific Information (ISI) in Philadelphia, his scientific papers have accumulated more than 13,000 citations. He has received a number of prestigious awards and accolades, the most recent being the 2004 American Chemical Society National Award for Creative Work in Fluorine Chemistry, 2006 American Chemical Society National Award in Hydrocarbon or Petroleum Chemistry and the 2006 Richard C. Tolman Award from the Southern California section of the American Chemical Society. He has also received the Distinguished Alumni Award from his alma mater, Indian Institute of Technology, Madras, India. In 2010, he received the Chemical Research Society of India Medal (CRSI Medal) for his extraordinary scientific contributions in promoting chemical research. He is also an elected Fellow of the American Association of Advancement of Science (AAAS), elected Fellow of the European Academy of Sciences and a Member of the European Academy of Arts, Sciences and Humanities. He also sits on the Editorial Boards of several international Chemical Journals.
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Janusz Lewiński was born in 1956 in Poland. He did his undergraduate and doctoral studies at Warsaw University of Technology, and received Ph.D. degree in 1989 under the supervision of Professor S. Pasynkiewicz. Then he joined the Department of Homogeneous Catalysis and Organometallics at the same University, where he first developed his interest in organometallic chemistry, in particular the chemistry of the group 13 elements, and helped to pioneer the 27Al NMR spectroscopy in the identification of aluminium complexes. In 2001 he completed habilitation, and in 2007 he was appointed full professor at Warsaw University of Technology, where he is now Head of Organometallic and Functional Materials Laboratory. In 2007 accepted a similar position at the Institute of Physical Chemistry of Polish Academy of Science.
He spent periods as a visiting scientist and lecturer at the University van Amsterdam (Host: Prof. G. van Koten and Prof D. J. Stufkens), the Rice University, Houston (Host: Prof. A. R. Barron), and the Cambridge University (Host: Prof. A. E. H. Wheathley). His awards include, amongst others, the 2000 Polish Chemical Society′s Kemula Prize and the 2008 Sklodowska-Curie Award of Polish Academy of Science for his scientific activity in the field of organometallic chemistry.
His research addresses fundamental and applied aspects of the main group metals chemistry and is aimed at understanding the relationships between the structure, reactivity and desired functionality of various entities. He made seminal advances in the understanding of the reactivity of metal-carbon bonds in the group 12 and 13 organometallics, probing their activation of dioxygen. Aside from any fundamental curiosity concerning the structure characterization of the first aluminium and zinc alkylperoxides, a hypothesis concerning the reaction mechanism of metal alkyls with O2 was significantly advanced. His group revealed also a long overlooked decomposition pathway of zinc alkylperoxides via homolysis of the O-O bond which is responsible for the formation of oxo complexes. In this connection, he has also invented novel and efficient routes to polymer-coated zinc oxide nanoparticles for biomedical applications.
His other topics of research concern the field of supramolecular chemistry, crystal engineering and fabrication of hybrid organic–inorganic functional materials like coordination polymers based on organometallic nodes or open metal–organic frameworks with controllable size and morphology with potential applications in storage and separation of gases and small organic molecules.
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Kerim Allahverdiev, Azerbaijanian by birth, was born in 1944 and educated at the Moscow Power Engineering Institute (MEI), where he received degree in Electrical Engineering in 1967. His Institute diploma thesis was performed at the Lebedev Institute of Physics, Moscow and was devoted to the superconducting properties of layered Niobium Selenide crystals. In 1967 he finished 2 years English school in Moscow. In 1972 he received the degree of the Candidate of Physical Mathematical Sciences working at the Institute of Physics Azerbaijan National Academy of Sciences in close collaboration with the Lebedev Institute of Physics. In 1974-1975 he had Postdoctoral at the Clarendon Laboratory of Oxford University, UK. In 1982 he received a degree of Doctor of the Physical Mathematical Sciences submitting the thesis to the Institute of General Physics also, Moscow, working in close collaboration with the Institute of Spectroscopy and Institute of High Pressure Physics, Troitsk, Moscow Region. Since 1985 he is Professor in Physics. In 1992-1995 he is Professor in Physics at the Middle East Technical University, Ankara, Turkey. Since 1995 he is Senior Scientific Researcher at the Marmara Research Centre (MRC) of the Turkish Scientific and Technological Council (TUBITAK), Gebze, Turkey and Senior Research Scientist at the Institute of Physics Azerabaijan National Academy of Sciences.
As a visiting professor, researcher and invited lecturer, Prof. K. Allahverdiev has presented, taught seminars and engaged in scientific collaboration at more than 40 Universities and Research Centers around the world, including Moscow State University; Oxford University, Cambridge University; Sheffield University, UK; London University; Imperial College, UK; MPI FKF, Stuttgart, Germany; RWTH Aachen, Germany; Bochum University, Germany; Bayreuth University, Germany; Hamburg University, Germany; US Air Force Wright Patterson Lab., Dayton; Colorado State University, USA; University of Cincinatti, USA; Tsukuba University, Japan and Madrid University, Spain.
He has been directing academic research in the field of physics and practical applications of layered semiconductors for over 30 years. Research Achievements include: new effective nonlinear materials in the system of layered gallium selenide- type semiconductors; first observation and explanation the nature of the low-temperature ferroelectric and high-pressure phase transitions in ternary layered chalcogenides. New class of the ferroelectric-semiconductors was discovered in a frame of joint research with the Institute of Spectroscopy (Prof. E. Vinogradov et al.), Troitsk, Moscow Region; first experimental investigation of the influence of ultra-short laser pulses on the transient-transmission change of layered A3B6 crystals and observation of quantum beats as due to the coherently excited fully symmetric phonons. As a result, new type of ultra-fast light modulator was suggested; first observation of the second harmonic generation in gallium selenide at 10.6 µm an 1579 nm and resonant excitonic second-harmonic generation; influence of intercalation on the electronic and vibration properties of gallium selenide-type crystals.
K. Allahverdiev hands-on experience in: modern spectroscopy techniques-also under pressure (pump-probe experiments, Raman scattering, nonlinear harmonic generation and wave mixing, photo- and electro- luminescence, exciton spectroscopy and others; growth and characterization of single crystals, nanocrystals and polycrystalline materials; carrier transport and galvanomagnetic measurements, dielectric spectroscopy; supervising the students at graduate and undergraduate levels, advising Ph.D Theses; demonstrated ability in project management, communication and organization skill, energetic.
Professor Allahverdiev has received several awards, honors, membership and fellowships including Azerbaijan State Prize in Science (1988); Krupp's stipendium, Technical University Aachen (1989); Window-on- Science Award, US Air Force European Office of Aerospace R&D, USA (1996, 2001); Royal Society Award as visiting Professor (1987, 1989); Citation in the USSR Academy of Sciences List of Best Achievements of the Year for the determination of the interlayer parameters and the peculiarities of the phonon spectra of A3B6 semiconductors (1978). Same Citation for different achievements in 1983, 1989 and 1991. He is a member: of New York Academy of Sciences (1998); Azerbaijan National Academy of Creation (1988); Russian Engineering Academy of Sciences, named by A. M. Prokhorov (2008); Member of the Organizing Committee of the European High Pressure Research Group (EHPRG) (1987-1990, 1991-1994, 1996-1999); Member of the Editorial Board, Turkish Journal of Physics; Reviewer of the JOSA, JAP, Materials Research Bulletin and others.
Professor Allahverdiev has published more than 275 articles on the linear and nonlinear optical properties of layered semiconductors, 1 book and 7 review articles. He has 5 patents.
Although a very busy personality Professor Allahverdiev finds time for sport (football, swimming). Among his other hobbies are gardening, walking, music (classic and modern).
Born in 1949 in Russia, Ruslan Valiev finished his studies on Physical Metallurgy at the Ural State Technical University (Russia), and received his Ph.D. with the State University of Kharkov (Ukraine) in 1977. Since 1995, he is Professor and Director of the Institute of Physics of Advanced Materials and since 2003 Head of Chair of Plastic Deformation and Nanotechnology, Ufa State Aviation Technical University in Ufa, Russia. In the early 1990's Prof. Valiev and his co-workers have pioneered the production of ultrafine-grained and nanostructured metals and alloys by the techniques of severe plastic deformation (SPD). These works have attracted high interest and intensive developing in many countries. His main present research interests comprise studies of unique mechanical and functional properties of SPD produced nanomaterials.
Since 1992, Ruslan Valiev has been Guest Professor at well-recognized research departments in USA, Japan and Europe, and in 2001 was granted a Research Award of the Humboldt Foundation (Germany) as well as AvH Re-invitation Award in 2007. He has acted as co-organizer of several international SPD meetings, among these the NATO Advanced Research Workshop on Investigations and Applications of SPD which was held 1999 in Moscow and initiated the NanoSPD conference series. Ruslan Valiev is a member of several international professional committees, among these are the International Committee on Superplasticity, Orlando, USA, and the International Committee for Nanostructured Materials, Sendai, Japan and chairman of the International NanoSPD Steering Committee (). He has published a large number of publications and books, and gave numerous keynote lectures and invited talks at international conferences. Prof. Valiev enters the editorial board of a number of scientific journals (The Physics of Metals and Metallography, the Physics and Engineering of High Pressures, and others). Besides, he is holder of more than 20 patents related to SPD. Currently holds position #8 in the ranking of most cited authors publishing in materials science compiled by the Institute for Scientific Information (ISI) (PHILADELPHIA, USA). His value of h-index is 53 (signifying 53 publications each have at least 53 citations).
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