Julian Plewa | Material Sciences | Excellence in Research

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Prof. Dr. Julian Plewa | Material Sciences | Excellence in Research

Prof., University of Silesia, Poland

Prof. Dr. Julian Plewa is a distinguished materials scientist, currently serving as a full professor at the University of Silesia in Katowice, Poland. With over four decades of experience in academia and research, he has made pioneering contributions to various fields within materials science, including optical materials, superconductors, and mechanical metamaterials. His work in phosphors for energy-efficient lighting has earned him recognition worldwide. Prof. Plewa’s extensive research on materials for advanced technological applications is complemented by his robust teaching career. He has lectured and conducted research at multiple renowned universities and has mentored numerous students and professionals in the field. His research has been widely published in leading journals, and his work is frequently cited by peers in academia and industry. Prof. Plewa’s ongoing contributions continue to influence the development of functional materials and their applications in cutting-edge technologies.

Profile

Education

Prof. Dr. Julian Plewa earned his Master of Science degree in Metallurgy from AGH University of Science and Technology in Cracow, Poland, in 1973, followed by a Doctor of Philosophy in Technical Sciences in 1979. He later advanced his academic career by obtaining his habilitation in Materials Science from the Silesian University of Technology, Gliwice, in 2005. This achievement was a key milestone that propelled him to the rank of full professor in Materials Science at the University of Silesia, Katowice, in 2019. His education spans multiple prestigious institutions, providing him with a strong foundation in metallurgical and materials sciences. Prof. Plewa’s academic journey reflects his dedication to advancing knowledge in materials science, enabling him to contribute significantly to the field and mentor future generations of researchers.

Experience

Prof. Dr. Julian Plewa has an extensive academic career, having taught and conducted research at leading institutions in Poland and Germany. From March 1981 to March 1988, he served as a lecturer at the Silesian University of Technology, Gliwice, teaching Chemical Thermodynamics and Metallurgy of Non-Ferrous Metals. He then worked as a teaching assistant at the University of Applied Sciences Muenster from 2010 to 2017, specializing in Nanoceramics and Technical Thermodynamics. Prof. Plewa’s experience as a visiting professor at Cracow University of Technology from 1995 to 2017 further demonstrates his international expertise. Since 2019, he has been a professor at the University of Silesia, Katowice, where he teaches Functional Materials and Materials Science. Throughout his career, he has influenced numerous students and professionals, shaping the future of materials science research and education. Prof. Plewa’s teaching and research experience have solidified his reputation in the scientific community.

Research Focus

Prof. Dr. Julian Plewa’s research focuses on advanced materials with applications in energy, optics, and emerging technologies. His work on optical materials, particularly phosphors for phosphor-converted light-emitting diodes (pcLEDs), has had a lasting impact on energy-efficient lighting. He also investigates high-temperature superconductors, thermoelectrics, and mechanical metamaterials, which play a crucial role in the development of next-generation materials for various applications, including electronics, sensors, and energy harvesting. Additionally, Prof. Plewa explores the synthesis and characterization of advanced ceramic materials for thermoelectrics and superconducting applications. His research is characterized by interdisciplinary collaboration, incorporating both theoretical studies and experimental techniques. Prof. Plewa’s contributions to the understanding of material properties have been widely cited, influencing research across academia and industry. His ongoing work continues to address global challenges related to sustainability, energy efficiency, and the development of novel functional materials.

Publication Top Notes

  1. Synthesis and optical properties of Li₃Ba₂La₃(MoO₄)₈: Eu³⁺ powders and ceramics for pcLEDs 📚✨
  2. Synthesis and optical properties of yellow emitting garnet phosphors for pcLEDs 💡🟡
  3. The influence of Ag on univariant reactions and the oxygen content of the eutectic melt in the Y–Ba–Cu–(Ag)–O system 🔬⚡
  4. Synthesis and optical properties of green emitting garnet phosphors for phosphor-converted light emitting diodes 💚💡
  5. The effect of Al–O substitution for Si–N on the luminescence properties of YAG: Ce phosphor 🌟🔧
  6. Thick films of ceramic superconducting, electro-ceramic materials 🧲📏
  7. Semiconductor ceramics for NTC thermistors: the reliability aspects 🔋🛠
  8. Preparation and characterization of calcium cobaltite for thermoelectric application 🌡️⚙️
  9. Application of mechanochemical processing to synthesis of YAG: Ce garnet powder 🔬🟠
  10. Investigation of modified auxetic structures from rigid rotating squares 📐🔄

 

 

 

Christos Mytafides | Materials Engineering Award | Excellence in Innovation

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Dr Christos Mytafides | Materials Engineering Award | Excellence in Innovation

Dr Christos Mytafides , University of Ioannina, Greece

Christos Mytafides is a distinguished researcher in advanced multifunctional materials and energy-harvesting technologies. Born on July 14, 1985, in Xanthi, Greece, he currently resides in Chania, Crete. Christos earned his Ph.D. from the University of Ioannina, focusing on printed electronics and energy-harvesting composites. His work is well-regarded for its innovation in integrating advanced materials into structural composites. He has held various roles, including Postdoctoral Research Scientist at Technical University of Crete and R&D Engineer at ARCO/Murray. Christos has been a Fulbright Scholar at the University of Miami and has collaborated with leading institutions like Eindhoven University of Technology. His research has led to multiple publications and patents, and he continues to push the boundaries of material science and sustainability.

Publication Profile

Google Scholar

Education

Christos Mytafides holds a Ph.D. in Materials Science & Engineering from the University of Ioannina, where he specialized in advanced multifunctional energy-harvesting materials (2018-2023). His Master’s Degrees include one in Advanced Materials from the University of Ioannina (2016-2018), focusing on optoelectronic and magnetic materials, and another in Environmental Engineering & Science from Democritus University of Thrace (2013-2015), emphasizing energy-efficient designs. He also has a Bachelor’s Degree in Structural Engineering from the International Hellenic University (2003-2009), where he studied structural analysis and restoration. Additionally, Christos completed online courses in Quantum Physics, Sustainable Energy, and other relevant fields from prestigious institutions like Stanford and MIT. His comprehensive education reflects a strong foundation in both theoretical and applied aspects of materials science and engineering.

Experience 

Christos Mytafides has a diverse professional background in materials science and engineering. Currently a Postdoctoral Research Scientist at Technical University of Crete, he works on advanced composite materials. Previously, he served as a Research & Development Engineer at ARCO/Murray, focusing on structural and sustainability engineering. He was involved in several projects at the University of Ioannina, including Horizon 2020 and NSRF projects related to energy harvesting and smart materials. Christos also gained valuable experience during his Fulbright Scholarship at the University of Miami, researching multifunctional composites. His work as a Lab Assistant and Teaching Assistant at various universities, including Eindhoven University of Technology and Democritus University of Thrace, further underscores his expertise in both research and education. His experience spans across different research laboratories and practical engineering roles, reflecting a robust career in material science.

Awards and Honors

Christos Mytafides has received significant recognition for his contributions to materials science and energy-harvesting technologies. He was awarded the Fulbright Scholarship for his research at the University of Miami, which highlights his innovative work in multifunctional composites. His research has been recognized in various prestigious journals, underscoring the impact of his contributions to advanced materials and energy-harvesting technologies. Christos has also been involved in notable projects such as Horizon 2020 and NSRF, further cementing his reputation in the field. His work on advanced composites and energy-harvesting materials has earned him several accolades, including publication in high-impact journals like Materials Advances and Journal of Power Sources. His commitment to advancing the field of materials science is reflected in the numerous awards and honors he has received throughout his career.

Research Focus 

Christos Mytafides’s research focuses on advanced multifunctional materials and energy-harvesting technologies. His work primarily explores the integration of printed electronics with structural composites to develop innovative energy-harvesting solutions. He is particularly interested in developing and characterizing materials that can efficiently convert and store energy. His research includes the design and fabrication of high-performance solar cells, thermoelectric generators, and other energy-harvesting devices. Christos’s work also encompasses optoelectronic and magnetic materials, with applications in sustainable energy systems and smart textiles. His contributions to the field have led to significant advancements in the efficiency and functionality of composite materials. By combining theoretical knowledge with practical applications, Christos aims to push the boundaries of materials science and engineering, addressing contemporary challenges in energy sustainability and advanced material development.

Publication Top Notes

“A hierarchically modified fibre-reinforced polymer composite laminate with graphene nanotube coatings operating as an efficient thermoelectric generator” 🌐 Energy Advances, 2024

“Integrated architectures of printed electronics with energy-harvesting capabilities in advanced structural composites” 📚 University of Ioannina, 2023

“Carbon fiber/epoxy composite laminates as through-thickness thermoelectric generators” 🛠️ Composites Science and Technology, 2023

“Fully printed and flexible carbon nanotube-based thermoelectric generator capable for high-temperature applications” ⚡ Journal of Power Sources, 2022

“Printed single-wall carbon nanotube-based Joule heating devices integrated as functional laminae in advanced composites” 🔬 ACS Applied Materials & Interfaces, 2021

“A high performance flexible and robust printed thermoelectric generator based on hybridized Te nanowires with PEDOT: PSS” 🔋 Applied Energy, 2021