Radovanovic, Pavle - University of Waterloo

个人简介

Pavle Radovanovic carries out research in nanotechnology. His research is focused on the concept of multifunctionality in reduced dimensions, and the application of multifunctional nanosystems for addressing important chemical, physical, and technological problems. He holds the Canada Research Chair in Spectroscopy of Nanoscale Materials. Inorganic and hybrid nanostructures Optical and magneto-optical spectroscopies Lighting and LEDs Magnetism and spintronics Photonics and photocatalysis Collaborative Nano Graduate Steering Committee, Interdisciplinary Nano Engineering Program, 2014-present International Organizing Committee for the Energy, Materials & Nanotechnology Meeting (EMN 2015), Bangkok, Thailand, 2015 Department of Chemistry Executive Committee, 2011-2013 Mentor for the Engineering Science Quest (ESQ) camp; ESQ is a not-for-profit engineering and science education program with a mission to increase the interest in science, engineering and technology amongst Canadian youth, 2011 2004 Ph.D. Chemistry and Nanotechnology, University of Washington, Seattle, WA 2003 Technology Entrepreneurship Certificate, University of Washington, Seattle, WA 1999 M.S. Chemistry, Georgetown University, Washington, D.C. 1996 Dipl. Chem., University of Novi Sad, Serbia

研究领域

Pavle Radovanovic's research investigates the synthesis, fundamental physical and chemical properties, and applications of rationally designed nanostructured materials that combine tunable optical, electrical and magnetic properties. His group applies a variety of synthetic, crystallographic, microscopic, spectroscopic, magnetic and transport techniques, and perform the measurements of novel nanomaterials at both ensemble and single nanostructure level. His approach is to achieve multifunctionality by using complex nanocrystalline alloys and compounds that contain multiple selected transition-metal or rare-earth-metal sites. The rational design and study of complex nanocrystalline alloys and compounds can provide important understanding of the relationship between the crystal and electronic structures of low-dimensional multifunctional systems and their optical, electrical magnetic properties. He devotes particular attention to the mutual interactions between light, electrical conductivity and magnetization at the nanoscale in the context of novel technological applications. The long-term goal is to understand these materials at the molecular level and to design improved multifunctional nanostructures based on knowledge of the structure-function relationship.

近期论文

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Layek, A.; Yildirim, B.; Ghodsi, V.; Hutfluss, L. N.; Hegde, M.; Wang, T.; Radovanovic, P. V. “Dual Europium Luminescence Centers in Colloidal Ga2O3 Nanocrystals: Controlled in Situ Reduction of Eu(III) and Stabilization of Eu(II)” Chem. Mater., 2015, 27, 6030-6037. Hegde, M.; Hosein, I. D.; Radovanovic, P. V. “Molecular Origin of Valence Band Anisotropy in Single β-Ga2O3 Nanowires Investigated by Polarized X-ray Absorption Imaging” J. Phys. Chem. C, 2015, 119, 17450-17457. Layek, A.; Stanish, P. C.; Chirmanov, V.; Radovanovic, P. V. “Hybrid ZnO-Based Nanoconjugate for Efficient and Sustainable White Light Generation” Chem. Mater., 2015, 27, 1021-1030. Chirmanov, V.; Stanish, P. C.; Layek, A.; Radovanovic, P. V. “Distance-Dependent Energy Transfer between Ga2O3 Nanocrystal Defect States and Conjugated Organic Fluorophores in Hybrid White Light-Emitting Nanophosphors” J. Phys. Chem. C, 2015, 119, 5687-5696. Hutfluss, L. N.; Radovanovic, P. V. “Controlling the Mechanism of Phase Transformation of Colloidal In2O3 Nanocrystals” J. Am. Chem. Soc., 2015, 137, 1101-1108.