This symposium aims to bring together key academic and industrial researchers in the field of to discuss the remaining challenges to advance the status of organic photovoltaics to a mature technology. Rather than focusing on performance materials that demonstrate high efficiency in lab-scale devices only, a high priority will be set to materials and process developments that facilitate the upscaling of lab cells to large-area modules with reduced losses. Key R&D aspects that demand more attention from an industrial and product development perspective may be found along the whole value chain. Relevant topics include, for instance, the scale-up synthesis of photoactive, interlayer and electrode materials, rapid material screening methodologies, interconnect strategies and module layout, roll-to-roll manufacturing and in-line characterisation techniques, module lifetime studies, aesthetical aspects, or new application sectors for OPV.
- Scaling-up of functional materials for OPV
- Synthetic complexity of OPV materials
- Roll-to-roll processable interlayers and electrodes
- Advanced manufacturing processes, high throughput screening and characterisation techniques
- Device engineering, module layout, panel customisation
- Operational stability of OPV, field studies
- Transparency and colour in OPV: materials, management, quality, and assessment
- Niche markets for OPV
Christoph J. Brabec received his PhD (1995) in Physical Chemistry from Linz University, Austria and joined the group of Alan Heeger at UC Santa Barbara (USA) for a sabbatical. He joined the SIEMENS research labs (project leader) in 2001, Konarka in 2004 (CTO), Erlangen University (FAU - Professor for Material Science) in 2009, ZAE Bayern e.V. (scientific director and board member) in 2010, spokesmen of the Interdisciplinary Center for Nanostructured Films (IZNF) in 2013 and became director at FZ Jülich (IEK-11) in 2018. In 2018 he was further appointed as Honorary Professor at the University of Groningen, Netherlands. He is a fellow of the Royal Society of Chemistry and a regular member of the Bavarian Academy of Science.
His research interests include all aspects of solution processing organic, hybrid and inorganics semiconductor devices with a strong focus on photovoltaics and renewable energy systems. A major research interest are scalable processing technologies allowing to control microstructure formation in disordered semiconductors. A very recent activity exploresthe limitation of autonomous operating research line for accelerating innovation and inventions in materials science. His combined scientific and technological interests supported the spin-out of several companies. He published over 1000 articles, thereof over 900 peer reviewed articles, about 100 patents, several books and book chapters and overall received 100.000 citations. His h-index is over 150 and Thompson Reuters HRC lists him for the last years consecutively as a highly cited researcher.
Mariano Campoy Quiles´s research is devoted to the understanding and development of solution processed semiconductors for energy and optoelectronic applications. He and his team have built substantial research efforts in two application areas, solar photovoltaic (light to electric) and thermoelectric (heat to electric) energy conversion based on organic and hybrid materials. He studied physics at the Univesity of Santiago de Compostela, obtained his PhD in experimental physics from Imperial College London, and since 2008 he leads his team at the Institute of Materials Science of Barcelona.
Stelios A. Choulis is Professor of Material Science and Engineering at the Cyprus University of Technology (2008-present). He was the Organic Photovoltaic Device group leader of Konarka Technologies (2006-2008) and research and development (R&D) engineer of the Osram Opto-Semiconductors Inc, Organic Light Emitting Diode R&D team (2004-2006). During his PhD and first post-doc research associate (PDRA) position at Advanced Technology Institute (1999-2002, University of Surrey) he investigated the optical properties of quantum electronic materials and opto-electronic devices. In 2002 he joined the center of electronic materials and devices (Imperial College London, UK) as PDRA and work on the transport and recombination dynamics properties of molecular semiconductors (2002-2004). His current research interest focuses on the development of functional materials and devices for advanced optoelectronic applications.
Morten Madsen, Professor wsr at the University of Southern Denmark, SDU NanoSYD.
My field of expertise is thin-film growth, integration and devices for energy conversion and storage applications. In 2010-2011, I worked with high performance transistors from III-V nanoscale membranes at the Javey research lab, UC Berkeley, California. In 2011, I established the OPV group at SDU NanoSYD, where we work on improving the performance and stability of organic and hybrid solar cells, including thin film synthesis, metal oxide interlayers and interfaces, organic and hybrid active layers as well as film and device degradation. Since 2016, we also have a focus on device up-scaling through Roll-to-Roll (R2R) printing technology at the SDU R2R facility. Vist out site for more details:
https://www.sdu.dk/en/om_sdu/institutter_centre/c_nanosyd/forskningsomrader/organic+solar+cells
Jie Min obtained his PhD degree from the Friedrich-Alexander University Erlangen-Nurnberg in 2015. After obtaining his PhD degree, he worked as a Postdoctoral Fellow at the Institute of Materials for Electronics and Energy Technology, Erlangen, Germany (2016–2017). In 2017, he joined Wuhan University as a full professor. His current research interests relate to the reduction of the efficiency-stability-cost gap of organic photovoltaics. He also aimed to explore the emerging applications of building integrated photovoltaics. For more information, please see the lab website: http://jie min.whu.edu.cn/.
RnD manager at Epishine AB
www.epishine.com