Department of Mechanical Engineering and Materials Science and Engineering
ΜΕΜ 106: General Chemistry ΜΕΜ 202: Organic Chemistry ΜΕΜ 434: Polymeric Materials ΜΕΜ 424: Degree Thesis I / Design Project I ΜΕΜ 425: Degree Thesis II / Design Project II |
Peer-reviewed published research papers - Researcher ID: A-6026-2012 - Scopus Author ID: 6506415047 - Google Scholar Statistics: https://scholar.google.com/citations?user=fp__0YEAAAAJ&hl=en&oi=ao Patents - United States Patent 8242263 A1, ‘Composition for photon-energy up-conversion’, Miteva, T., Nelles, G., Yasuda, A., Balouchev, S., Lupton, J., Keivanidis, P. - United States Patent 7683363 A1, ‘Composition for photon-energy up-conversion’, Miteva, T., Nelles G., Yasuda A., Balouchev S., Lupton, J., Keivanidis, P. - Japanese Patent JP2005049824 A, ‘COMPOSITION FOR PHOTON-ENERGY UP-CONVERSION’, Miteva, T., Nelles, G., Yasuda A., Balouchev, S., Keivanidis, P., Lupton, J. - European Patent EP1484379 A1, ‘A composition for photon-energy up-conversion’, Miteva, T., Nelles, G., Yasuda A., Balouchev, S., Keivanidis, P., Lupton, J. |
Dr. Keivanidis focuses on cutting edge research projects in the field of nano-engineered organic electrophotonic devices by combining a strong expertise in the study of photophysical and physico-chemical properties of organic materials. He combines optical and electro-optical characterization techniques with the processing of nanostructured composites via solution-based techniques for enabling smart engineering protocols to deliver photoactive and electroactive layers to be integarted in high performance device architectures. Attention is given on the establishment of rigorous structure-property-performance relationships for the development of optimized thin film multicomponent systems via solution-deposition techniques such as spin- and dip-coating. Particular emphasis is given on the use of spectroscopic techniques that monitor electronic energy- and charge-transfer processes for contributing in the resolution of current research problems dealing with the protection, the optimization and the sensitization of organic electronic devices. Dr. Keivanidis is the head of the Device Technology and Chemical Physics Lab that is based on the premises of the Department of Mechanical Engineering and Materials Science and Engineering at the Cyprus University of Technology. |
- 2009, The Royal Society, International Travel Grant Award (2009R3), ‘Monitoring the charge carrier recombination events in organic donor - acceptor photovoltaic blends by delayed luminescence spectroscopy’ (reference TG091471) - 2010 Laser Lab Europe Travel Grant Award, ‘Ultrafast transient absorption spectroscopic studies of model organic photovoltaic blends, (Project ID LLC001578) - 2010, Centre for Nanoscience and Technology@PoliMi, Milan, Italy, €500.000 εναρκτήρια χρηματοδότηση - FP7-PEOPLE-2011-IEF (project number 299657), Intra-European Marie Curie Fellowship, €185.800 - 2011, Technology transfer project, SAES Getters s.r.l., €20.000 - 2011, Technology transfer project OMET s.r.l., €503.000 - 2013, The Royal Society, International Exchanges Scheme Award (2013/R3), ‘Understanding how to improve non-fullerene based organic solar cells’ (reference IE131547) - 2013, John S. Latsis Public Benefit Foundation Research Award, 'Development of next generation oxygen-barrier materials for organic electronic and dye-sensitized solar cell applications' - 2014, Τεχνολογικό Πανεπιστήμιο Κύπρου, €40.000 εναρκτήρια χρηματοδότηση - 2015-2016, Τεχνολογικό Πανεπιστήμιο Κύπρου, Τμήμα Μηχανολόγων Μηχανικών και Επιστήμης Μηχανικής Υλικών, €120.000 εσωτερική Τμηματική χρηματοδότηση |