Dr Adiguzel graduated from Department of Physics, Ankara University, Turkey in 1974 and received PhD- degree from Dicle University, Diyarbakir-Turkey in Solid State Physics with experimental studies on diffusionless phase transformations in Ti-Ta alloys in 1980. He has studied at Surrey University, Guildford, UK, as a post doctoral research scientist in 1986-1987, and He studied on shape memory alloys. He worked as research assistant, 1975-80, at Dicle University, Diyarbakir, Turkey. He moved to Firat University in 1980, and became professor in 1996, and He has already been working as professor. He published over 50 papers in international and national journals; He joined over 80 conferences and symposia in international and national level as participant, invited speaker or keynote speaker with contributions of oral or poster. He served the program chair or conference chair/co-chair in some of these activities. In particular, he joined in last three years (2014 - 2016) over 20 conferences as Keynote Speaker and Conference Co-Chair organized by different companies. He supervised 5 PhD- theses and 3 M.Sc- theses He supervised 5 PhD- theses and 3 M.Sc- theses. Dr. Adiguzel served his directorate of Graduate School of Natural and Applied Sciences, Firat University, in 1999-2004. He received a certificate which is being awarded to him and his experimental group in recognition of significant contribution of 2 patterns to the Powder Diffraction File – Release 2000. The ICDD (International Centre for Diffraction Data) also appreciates cooperation of his group and interest in Powder Diffraction File.
Intrinsic self-healing polymers, Processable thermosets (e.g. dual networks), Smart release (e.g. active corrosion protection), Responsive composites, Functional fibers, Corrosion protection, Unveiling underlying mechanisms of self-healing polymers, coatings and composites.
Sybrand van der Zwaag studied Metallurgy at the Technical University Delft and obtained his MSc in 1978 after completing his graduation project at the Dutch Nuclear Research Centre. He then joined the Cavendish Laboratory at Cambridge University (UK) and studied the impact damage in glass and infrared transparent ceramics due to supersonic impact with raindrops. He obtained his PhD in 1981. As a post-doc he studied the relaxation kinetics in amorphous metals (metallic glasses). In 1983 he joined Akzo Corporate Research laboratories and worked extensively on the structure-property relations in aramid and other high performance fibres as well as new fibre spinning technologies. In 1992 he was appointed full professor in the field of Microstructural Control in Metals. His research focussed on the austenite-ferrite phase transformation in steels as well as the microstructural changes in aluminium alloys. In this capacity he was one of the founding fathers of the Netherlands Institute for Metals Research NIMR (now M2i). In 2003 he was appointed full professor in the field of Novel Aerospace Materials, which concentrates its research on the design of novel high performance metals, polymers and polymer fibres, self healing materials and functional composites. Professor Van der Zwaag is also director of the Delft Centre for Materials and chairman of the national IOP program on Self Healing Materials. He has published over 500 ISI publications and successfully supervised 50 PhD students. He is member of the Royal Dutch Society for Sciences and fellow of the (British) Institute of Materials, Minerals and Mining. In 2012 he was granted the honorary title ‘distinguished professor’ by the Board of the Delft University of Technology for his efforts to strengthen the collaboration between the university and industry in the field of materials science. Until July 2016 he was the scientific director of the Dutch Polymer Institute (DPI). In January 2017 he was awarded an honorary PhD degree by the University of Mons (Belgium). In the same year he was awarded a prestigious Chinese research grant and a part-time professorship at Tsinghua University (China). In 2017 he and some members of his team received the Henri Marion Howe Medal from the American Society for Metals (USA) for his publications on self-healing of creep damage in steels.