Plenary Speakers
Prof. Thomas Anthopoulos, Physical Science and Engineering Division, KAUST, Saudi Arabia |
|
Prof. Molly Stevens, Imperial College London, UK Bio-responsive Hybrid Materials for Regenerative Medicine and Biosensing |
|
Dr. Ashutosh Tomar, Jaguar Land Rover, UK Applications of Printable and organic electronics in Automotive |
Keynote Speakers
Prof. Thomas Anthopoulos, Physical Science and Engineering Division, KAUST, Saudi Arabia Solution-processed superlattice-like metal oxide transistors |
|
Prof. Emmanuel Giannelis, Cornell University, USA 3D Printing of responsive hydrogels and ionogels for biomedical applications |
|
Prof. Joannis Kallitsis, University of Patras, Greece Semiconducting polymers and hybrids for OPVs |
|
Dr. Argiris Laskarakis, Nanotechnology Lab LTFN, AUTh, Greece Intelligent Nanomanufacturing of Flexible Organic Electronic Devices |
|
Prof. David Lidzey, Dept. of Physics and Astronomy, The University of Sheffield, UK Spray-processing and stability of perovskite PV devices |
|
Dr. Nello Li Pira, C.R.F. S.C.p.A, Italy Customization and integration of materials into novel components for the car of the future |
|
Prof. Emil J.W. List-Kratochvil, Humboldt-Universität zu Berlin (HU Berlin), Germany Printed Hybrid Electronic, Optoelectronic and Photovoltaic Devices |
|
Prof. George Malliaras, University of Cambridge, UK Implantable devices for drug delivery in the brain |
|
Prof. Thomas Mueller, Vienna University of Technology, Austria 2D semiconductor optics and (opto-)electronics |
|
Prof. Vitaly Podzorov, Rutgers University, USA Highly crystalline organic semiconductors for flexible organic electronics |
|
Prof. Jurgen Rabe, Humboldt-Universitat zu Berlin, Germany Water and organic molecules controlling opto-electronic properties of 2D materials |
|
Prof. Ravi Silva, University of Surrey, UK Energy: Can the Human Race Transit to a “free” energy model? |
ISFOE18 Invited Speakers
Dr. Raul Arenal, University of Zaragoza, Spain Carbon and Related Nanomaterials: Atomic Structural and Configuration Studies |
|
Dr. Cedric Ayela, CNRS, IMS Laboratory, France Organic MEMS designed by and for organic electronics |
|
Dr. Diego Bagnis, CSEM Brasil, Brazil Scale-up challenges of R&D OPVs - From-Lab-to-Fab - |
|
Ms. Hanna Berthag, Cellink, Sweden 3D bioprinting of human soft tissues |
|
Prof. Fabio Biscarini, University of Modena and Reggio Emilia, Italy Ultrasensitive detection of neurotransmitters with organic electronics biosensors |
|
Dr. Christine Boeffel, Fraunhofer Institute for Applied Polymer Research IAP, Germany Inkjet printing of OLEDs – from large area to high resolution |
|
Dr. Francesco Bonaccorso, Istituto Italiano di Tecnologia, Graphene Labs, Italy 2D-materials-based composites for energy applications |
|
Prof. Yvan Bonnassieux, LPCIM, Ecole Polytechnique CNRS, Paris, France Ionic Migration in Hybrid Perovskites Solar cells |
|
Prof. Dermot Brabazon, Dublin City University, Ireland Laser direct writing and colloidal ink jetting for conductive track fabrication on organic substrates |
|
Dr. Fernando Castro, National Physical Laboratory, UK Multi-scale high-resolution mapping of printed photovoltaics: the impact on performance from nanoscale properties to manufacturing induced defects |
|
Prof. Tim Claypole, Welsh Centre for Printing and Coating, Swansea University, UK Volume Plasma functionalisation of GNP and its applications in printed electronics |
|
Prof. Zheng Cui, Printable Electronics Research Center, Suzhou Institute of Nanotech, Chinese Academy of Sciences, China Printing approach to making flexible wearable stretchable electronics |
|
Dr. George Deligeorgis, FORTH IESL, Greece A 2D material based platform for wireless electronics and sensing |
|
Dr. John Fahlteich, Fraunhofer FEP, Germany Quality Factors in Permeation Barrier Coatings on Flexible Polymer Webs |
|
Dr. Paolo Gaucci, Eurecat, Spain Strategies for Conformable Printed Devices: stretchable, thermoforming and in mold electronics |
|
Dr. Paschalis Gkoupidenis, Max Planck Institute for Polymer Research, Germany Organic Neuromorphic Devices |
|
Dr. João Gomes, CENTI, Portugal Development of interactive automotive interiors based on integrated printed and smart electronics |
|
Prof. Ilya Goykhman, Technion - Israel Institute of Technology, Israel Hybrid Graphene-Silicon Optoelectronics for Telecom Applications |
|
Mr. Marcel Grooten, DoMicro BV, The Netherlands Hybrid electronics integration by inkjet technology |
|
Mr. Edgar Hepp, Cytosurge AG, Switzerland Additive manufacturing of micrometer-sized 3D metal objects by FluidFM® femtoliter liquid dispensing |
|
Dr. Jan Hesse, Joanneum Research - Materials Inst., Austria Roll-to-Roll pilot line for large-scale manufacturing of microfluidic devices |
|
Prof. Oana D. Jurchescu, Dept. of Physics, Wake Forest University, USA Defect control in laser printed and solution processed organic field effect transistors |
|
Dr. Mikaël Kepenekian, CNRS - Université de Rennes 1, France Making and breaking the exciton in layered halide hybrid perovskites |
|
Prof. Vasileios Koutsos, The University of Edinburgh, UK 2D WSe2: Mechanical Properties and Processing with Vapour XeF2 |
|
Dr. Martin Krebs, Varta Microbattery GmbH, Germany Printed Batteries – State-of-the-Art for applications |
|
Dr. Carlos Kuhlmann, Saxion, The Netherlands Applied Research Towards the Integration of Flexible (Organic) Electronics into Textiles |
|
Prof. Panagiotis Lianos, Dept. of Chemical Engineering, University of Patras, Greece Innovative approaches for the construction of perovskite solar cells |
|
Prof. Eleftherios Lidorikis, Dept. of Materials Science & Eng., University of Ioannina, Greece Modeling and design of graphene-based photodetectors and modulators |
|
Dr. Martyn McLachlan, Dept. of Materials, Imperial College London, UK Processing, Crystallinity and Stability in Perovskite Solar Cells |
|
Dr. Sergey Mikhailov, University of Augsburg, Germany Nonlinear Electrodynamics of Graphene |
|
Prof. Ivanka Milosevic, University of Belgrade, Serbia Raman and infrared active rigid-layer modes and topological boundary phonons in multi-layered materials |
|
Dr. Graham Morse, Merck Chemical Ltd, UK Non-fullerene Acceptors for Organic Photovoltaics |
|
Prof. Christian Müller, Chemistry and Chemical Engineering, Chalmers University, Sweden Energy Harvesting with Thermoelectric and Piezoelectric Textiles |
|
Mr. Martin Neukom,Fluxim, Switzerland Opto-electronic characterization of third-generation solar cells |
|
Dr. Alexandra Palla Papavlu, National Institute for Laser, Plasma & Radiation Physics (INFLPR), Romania Laser writing of nanomaterials for wearable sensors |
|
Dr. David Payne, Dept. of Materials, Imperial College London, UK Using X-ray Photoelectron Spectroscopy to understand PV, TFT and LED Materials |
|
Dr. Pietro Perlo, Interactive Fully Electrical Vehicles, I-FEVS, Italy | |
Dr. Simon Perraud, CEA, France Introduction to NAMEC |
|
Prof. Kyriakos Porfyrakis, University of Oxford, UK Isolation of IC70BA isomers for organic photovoltaics |
|
Dr. Michel Prassas, Corning European Technology Center, France Flexible Glass Applications & Process Scaling |
|
Dr. Alexandra Rutz, University of Cambridge, UK Engineering customizable hydrogel inks for 3D tissue and organ printing |
|
Prof. Markus Scharber, Johannes Kepler University Linz, Austria Non-fullerene acceptor – a new material class for highly efficient organic solar cells? |
|
Prof. Aylin Sendemir-Urkmez, Ege University, Turkey Challenges for Bioprinting and Bioink Design |
|
Ms. Sofia Tsimikli, OE-Technologies, Greece OET hits 7.4% New World Record Efficiency for Single Structure Fully Printed Organic Photovoltaic by Roll to Roll Processes |
|
Dr. Yoeri van de Burgt, Technische Universiteit Eindhoven, The Netherlands Organic Electronic for Neuromorphic Computing |
|
Dr. George Volonakis, University of Oxford, UK Energy level alignment and surface properties of Pb-free halide double perovskites |
|
Dr. Nihal Engin Vrana, Protip Medical, France 3D Printed Personalized Otorhinolaryngology Implants and Bioprinting for Immunomodulation |
|
Prof. Yue Wang, University of California, Merced, USA 3D Printing of Biomimetic Conjugated Polymers for Wearable Electronics |
|
Prof. Roger Woerdenweber, Forschungszentrum Jülich, Germany Controlled Engineering of Bioelectronics Interfaces Using Mixed Organic Monolayers |