Department of Mechanical Engineering and Materials Science and Engineering
ME-MSE 112 Introduction to Materials Science and Engineering ME-MSE 335 Materials Laboratory MEΜ 425 Diploma Thesis Projects MSc Course Organic Photovoltaics |
1. The effect of hole transporting layer in charge accumulation properties of pin perovskite solar cells, F Galatopoulos, A Savva, IT Papadas, SA Choulis, APL Materials 5 (7), 076102, 2017 2. High performance indium tin oxide-free solution-processed organic light emitting diodes based on inkjet-printed fine silver grid lines, F Hermerschmidt, I Burgués-Ceballos, A Savva, ED Sepos, A Lange, ..., Flexible and Printed Electronics 1 (3), 035004 3 2016 3. High‐Performing Polycarbazole Derivatives for Efficient Solution‐Processing of Organic Solar Cells in Air, I Burgués‐Ceballos, F Hermerschmidt, AV Akkuratov, DK Susarova, ... ChemSusChem 8 (24), 4209-4215 7 2015 4. Evaporation-free inverted organic photovoltaics using a mixture of silver nanoparticle ink formulations for solution-processed top electrodes, E Georgiou, A Savva, M Neophytou, F Hermerschmidt, T Demosthenous, ..., Applied Physics Letters 105 (23), 233901 4 2014. 5. Size‐Dependent Charge Transfer in Blends of PbS Quantum Dots with a Low‐Gap Silicon‐Bridged Copolymer, G Itskos, P Papagiorgis, D Tsokkou, A Othonos, F Hermerschmidt, ...Advanced Energy Materials 3 (11), 1490-1499 21 2013 |
Professor Stelios A. Choulis was the photovoltaic device research and development (R&D) group leader of Konarka Technologies (Germany, 2006-2008) and R&D Device Engineer of the Osram Opto-Semiconductors Inc, Organic Light Emitting Diode team at Silicon Valley (USA, 2004-2006). During his first PhD and first Postdoctoral Research Associate position at Advanced Technology Institute (1999-2002, University of Surrey, UK) funded both by the British Engineering and Physical Science Research Council (EPSRC) he investigated the optical properties of quantum electronic materials and optoelectronic devices. In 2002 he joined the center of electronic materials and devices (Imperial College London, UK) as Postdoctoral Research Associate funded by British Petrol (BP), and work on the opto-electronic properties of molecular semiconductor materials and devices (2002-2004). He has broad experience and expertise in academic and industrial research of electronic materials and devices, including: material design, characterization, device physics/processing and demonstrated working knowledge from investigating fundamental scientific problems to the development of prototypes (OPVs) and qualified products (OLEDs). He has lead and participate in several funded (EU, National and USA) researhc programs, At his current job at Cyprus University of Technology (CUT-2008-Present, Professor), he lead a successful 2 M Euros 4-years bid for the creation of the Molecular Electronics and Photonics Research Group at CUT (2010-2015) and ensure his group sustainability through his team participation in a large FP7-NMP-2013-SME based project on OLED displays (2013-2017). He further received a prestigious 2014-ERC consolidator grant (1.85M Euros) from the European Research Council (ERC) under the EU Horizon 2020 research and innovation programme for developing together with his team the next generation of advanced opto-electronic devices. |
• PI (2015 - 2020): ERC Consolidator Grant (Total project budget: €1,850,000). • Academic Partner (2013 - 2017): PLASMAS, European Union FP7 Project No. 604568 (Total project budget: €4,800,000). • Academic Partner (2013 - 2015): Erasmus LLP OREA, European Union Project No. 539876-LLP-1-2013-1-GR (Total project budget: €562,000). • Principal Investigator (PI) (2010 - 2015): Molecular Electronics and Photonics, Cyprus Research Promotion Foundation Funding (Total project budget: €2,000,000) |