Dear Colleagues,
We are elated to announce the much-anticipated International Meet & Expo on Materials Science & Nano science, a revolutionary event slated to take place in Budapest, Hungary from April 10-12, 2025.
The event's overarching aim, to set the stage for a dynamic and insightful congress. MATERIALSMEET2025 stands out as a premier interdisciplinary platform that brings together a diverse spectrum of professionals, including scientists, researchers, chemists, physicists, healthcare professionals, pharmacists, clinicians, practitioners, industry leaders, and educators. The convergence of these varied perspectives is intended to spark discussions, catalyse collaborations, and push the boundaries of knowledge in Material Science and Nano Science.
Participants can anticipate a deep dive into the latest innovations, robust discussions on emerging trends, problem-solving sessions addressing practical challenges, and exploration of cutting-edge solutions within the expansive field of Material Science and Nano Science.
We are looking forward to welcoming you to Hungary!
University of Wisconsin-Milwaukee
USA
Koszalin University of Technology
Poland
Ioan Cuza University of Iasi
Romania
University of Almeria
Spain
Professor Ghent University
Belgium
California South University
USA
University of Haute Alsace
France
IGDIR University
Turkey
Konya Technical University
Turkiye
University of Batna
Algeria
Ping-Yu Liang is a MS student, Hsiu-Chang Tsai and Chen-Hsuan Lin are BS undergraduate students, and Jacob C. Huang is a chair professor, all in Department of Materials and Optoelectronic Science, National Sun Yat-Sen University, Kaohsiung, Taiwan
Dr. Woo has a BS and MS in Mechanical Engineering, and he has obtained PhD in Mechanical Engineering from Texas A&M. He majors in energy system such as HVAC and its heat transfer, optimal design and control of refrigerator, reliability design of mechanical components, and failure Analysis of thermal components in marketplace using the Non-destructive such as SEM & XRAY. Especially, he developed parametric accelerated life testing (ALT) as new reliability methodology. If there is design fault in the mechanical system that is subjected to repetitive stress, it will fail in its lifetime. Engineer should find the design faults by parametric ALT before product launches. In 1992–1997 he worked in Agency for Defense Development, Chinhae, South Korea, where he has researcher in charge of Development of Naval weapon System. In 2000-2010 he had been working as a Senior Reliability Engineer in Side-by-Side Refrigerator Division, Digital Appliance, SAMSUNG Electronics, where he focused on enhancing the life of refrigerator as using parametric the accelerating life testing. Now he is working as associate professor in mechanical department, Ethiopian Technical University.
Dr Simas Rackauskas a Chief Researcher at the Institute of Materials Science of KTU. He defended his PhD in Physics at Aalto University, Finland in 2011. He was a Marie Curie Fellow in University of Turin (Italy). He had fellowships in Swiss Federal Institute of Technology in Lausanne (EPFL, Switzerland), Technical University of Denmark (DTU) and University of Nagoya (Japan). His research interests are mainly focused on non-catalytic growth mechanisms of metal oxide nanowires and application in sensing and multifunctional coatings. He is involved in commercialization of multifunctional superhydrophobic anti-reflection coatings, founder of spin-off company “Zinotech”, in 2023 was awarded with “Innovation of the Year” at annual startup festival, Kaunas. Recent activities were devoted to developing ZnO nanowire network platform and its application in sensing (UV, bio and gas) and neuromorphic computing. Dr Rackauskas is an co-author of over 30 publications in journals Nano Letters, ACS Nano, Nano Research, etc, presented results in over 30 international conferences (6 as invited or plenary talk), 3 patent applications filed and 1 patent granted, Editor of the books (InTech) “Flexible Electronics” and “Nanowires”.
BIOGRAPHY Assist. Prof. Dr. Ali Jasim Mohammed Medical Physics Department, College of Science Al-Karkh University of Science, Baghdad, Iraq He graduated from the Physics Department in 1986 at Al-Mustansiriyha University, College of Science Baghdad, Iraq. He obtained a Master and a Doctorate degree in Laser and Optoelectronics in the Department of Applied Science at the University of Technology in (1997 - 2007) respectively. He is qualified in the field of nanostructured thin film biomedical sensors. He completed the research stay fellowship at the Institute for Materials Physics at the University of Münster, Germany in 2014. He took over the responsibility of heading the Remote Sensing Department in 2017 and heading the Medical Physics in the College of Science in 2018-2019 at Al-Karkh University of Science. He formed a Research Group on Biomedical Sensors in cooperation with the Institute of Materials Physics of the University of Münster since the end of 2019
Biography: Dr. Bruna de Melo received her PhD from the School of Chemical Engineering of the University of Campinas (Unicamp), Brazil. She worked as a visiting researcher at Harvard Medical School/ Brigham and Women’s Hospital, and finished a postdoctoral at the Federal University of São Paulo (Unifesp), both in the field of bioengineering, using 3D bioprinting to biofabricate mimetic organs and tissues. Currently, Dr. Melo is an Associate Researcher and Principal Investigator at the Center for Biomedical Engineering of Unicamp, and her work is focused on the biofabrication of different types of organs and tissues using biomaterials, 3D bioprinting, and microfluidics to build organ-on-a-chip platforms useful in biomedical applications.
Dr. Ingo Tobehn-Steinhäuser has been working in the design department at the CiS Research Institute for Microsensors since 2008. His research there initially focused on impedance sensors; for some time now, temperature sensors have been the main focus. He wrote his doctoral thesis in the field of nuclear physics at the University of Giessen.
Choose Your Pricing That Fits You Best
Certainly! Budapest, Hungary, is a city known for its rich history, stunning architecture, and vibrant culture. One notable venue in Budapest is the Hungarian State Opera House.
Hungarian State Opera House:
Location: Situated in the heart of Budapest, on Andrássy Avenue, the Hungarian State Opera House is a landmark building with a prestigious location.
Architecture: Designed by renowned Hungarian architect Miklós Ybl, the Opera House is a masterpiece of Neo-Renaissance architecture. It boasts a grand façade adorned with sculptures and intricate details, and its interior is equally impressive, featuring lavish decorations, ornate frescoes, and a magnificent auditorium.
History: The Hungarian State Opera House opened its doors in 1884, and it has since served as a cultural hub for opera and ballet performances. It has hosted world-class productions and has been graced by renowned artists and performers from around the globe.
Performances: The Opera House stages a diverse repertoire of operas, ballets, concerts, and other performances throughout the year. From classical masterpieces to contemporary works, there is something for every taste.
Tours: Visitors can take guided tours of the Hungarian State Opera House to admire its architectural beauty and learn about its rich history. These tours often include access to the main auditorium, backstage areas, and other exclusive spaces.
Cultural significance: Beyond its artistic offerings, the Hungarian State Opera House holds significant cultural importance for Budapest and Hungary as a whole. It is a symbol of the country's passion for the performing arts and its commitment to preserving cultural heritage.
Renovation: Over the years, the Opera House has undergone several renovations and restoration projects to ensure its continued beauty and functionality. These efforts have helped to maintain its status as one of the most prestigious cultural institutions in Hungary.
Overall, the Hungarian State Opera House stands as a testament to Budapest's rich cultural heritage and serves as a beloved venue for locals and visitors alike to experience world-class performances in a breathtaking setting.