Julian Plewa | Material Sciences | Excellence in Innovation Recognition 

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Prof. Julian Plewa | Material Sciences | Excellence in Innovation Recognition 

University of Silesia | Poland 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Prof. Julian Plewa's academic journey began with a Master of Science in Metallurgy from the AGH University of Sciences and Technology, Cracow, Poland, in 1973. He furthered his education by earning a Doctor of Philosophy in Technical Sciences in 1979 from the same institution. His passion for Materials Sciences led him to achieve a habilitated doctor degree in Materials Sciences in 2005 from Silesia University of Technology, Gliwice, Poland, and eventually a full professorship in Materials Sciences in 2019 from the University of Silesia, Katowice, Poland. These early academic accomplishments set the stage for his extensive career in both teaching and research.

PROFESSIONAL ENDEAVORS

Prof. Plewa's teaching career spans several prestigious institutions. He began as a Lecturer at Silesia University of Technology, Gliwice, from March 1981 to March 1988, where he taught courses in Chemical Thermodynamics and Metallurgy of Non-Ferrous Metals. He later served as a Teaching Assistant at the University of Applied Sciences Muenster from January 2010 to October 2017, covering Nanoceramics and Technical Thermodynamics. As a Visiting Professor at Cracow University of Technology from October 1995 to March 2017, he lectured on Functionally Materials and Nanotechnology. Since October 2019, he has been a Professor at the University of Silesia, Katowice, where he teaches Functionally Materials and Materials of Science. His extensive teaching experience reflects his deep knowledge and commitment to Materials Sciences.

CONTRIBUTIONS AND RESEARCH FOCUS

Prof. Plewa's research experience is as impressive as his teaching career. He began as a Graduate Research Assistant at the Institute of Non-Ferrous Metals, Gliwice, focusing on Lead Refining, Chemical Thermodynamics of Metallurgical Processes, Spraying of Liquid Zinc, and Fire Enrichment of Zinc-Lead Ores from September 1973 to March 1981. He continued his research at Silesia University of Technology, Gliwice, from March 1981 to March 1988, working on Processing of Battery Scrap and Utility of Waste Aluminum Foil. As a Researcher and Senior Professor at the University of Applied Sciences Muenster from September 1999 to October 2017, his focus included High Temperature Superconductors, Thermoelectrics, and Optical Materials such as Phosphors and Glass. Since October 2019, he has been a Researcher and Professor at the University of Silesia, Katowice, concentrating on Optical Materials, Phosphors, Glass, and Mechanical Metamaterials. His research contributions have significantly advanced the field of Materials Sciences.

IMPACT AND INFLUENCE

Prof. Plewa's impact on the field of Materials Sciences is profound. His research on High Temperature Superconductors and Thermoelectrics has paved the way for advancements in energy materials, while his work on Optical Materials has led to significant developments in phosphors and glass technology. His contributions to the processing and recycling of materials have also had a substantial impact on environmental sustainability. Through his teaching and mentorship, he has influenced countless students and professionals in the field, fostering a new generation of materials scientists.

ACADEMIC CITATIONS

Prof. Plewa's work has been widely recognized and cited in numerous academic publications. His research on Materials Sciences has contributed to a deeper understanding of metallurgical processes, high-temperature superconductors, and optical materials. His extensive publication record reflects his ongoing commitment to advancing the field and sharing his knowledge with the broader scientific community.

LEGACY AND FUTURE CONTRIBUTIONS

Prof. Julian Plewa aims to leave a lasting legacy in the field of Materials Sciences through his continued research and teaching. His future contributions are expected to drive further advancements in mechanical metamaterials and optical materials, enhancing their applications in various industries. As he continues to mentor and guide young researchers, his influence will undoubtedly shape the future of Materials Sciences.

MATERIAL SCIENCES 

Prof. Plewa's work in Materials Sciences encompasses key areas such as chemical thermodynamics, high-temperature superconductors, and optical materials. His innovative research in Materials Sciences has led to significant advancements in both academic and industrial applications. The future of Materials Sciences is promising with his continued contributions and leadership.

NOTABLE PUBLICATION

Peeyush Phogat | Material Science | Best Researcher Award

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Mr. Peeyush Phogat | Material Science | Best Researcher Award

Netaji Subhas University of Technology | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Peeyush Phogat's academic journey commenced with his Bachelor of Science in Physics, Chemistry, and Math from Maharshi Dayanand University, Rohtak, Haryana, where he achieved an impressive 74.8%. He secured 2nd and 3rd positions in the 2nd and 4th semesters respectively, demonstrating his strong academic foundation. He continued to excel in his Master of Science in Physics at Deenbandhu Chhotu Ram University of Science and Technology, Murthal, Sonepat, Haryana, with a CGPA of 7.98/75.81%. His master’s dissertation, titled "Dysprosium Doped Glasses for WLED Applications: A Review," highlighted his early focus on material science and its applications.

PROFESSIONAL ENDEAVORS

Peeyush Phogat is currently pursuing his Doctorate at Netaji Subhas University of Technology, New Delhi, focusing on the synthesis and characterization of chalcogenide nanocomposites for energy materials. His doctoral research has led to the publication of 10 SCI/SCIE indexed research papers, one book chapter, and seven conference research papers. He has also supervised 14 M.Sc. (Physics) dissertation projects, showcasing his leadership in academic mentorship.

CONTRIBUTIONS AND RESEARCH FOCUS

Peeyush's research primarily revolves around Material Science, with an emphasis on the synthesis, characterization, and electrochemical analysis of nanomaterials and thin films for solar cells, supercapacitors, and batteries. His work includes the development of electrochemical applications such as photodetectors, solar cells, hydrogen evolution reaction (HER), oxygen evolution reaction (OER), and electrochemical sensing. His master's thesis and ongoing doctoral research are pivotal in advancing Material Science by exploring the properties and applications of novel materials.

IMPACT AND INFLUENCE

Peeyush has made significant contributions to Material Science, evidenced by his publications in reputed journals and presentations at international conferences. His research has garnered 96 citations, with an h-index of 7 and an i10 index of 4, reflecting the impact and relevance of his work. He has received numerous awards, including Best Paper Awards at various international conferences, highlighting the quality and innovation of his research.

Citation

  • Citations  123
  • h-index     8
  • i10-index  6

ACADEMIC CITES AND LEGACY

Peeyush is actively engaged with the academic community as a member of the Raman Physical Society, the Electron Microscopy Society of India, and the Metallurgical Society of India. His contributions to Material Science are well-documented in his Google Scholar, ResearchGate, and Orcid profiles, which track his extensive publication record and citations. His legacy is built on his commitment to advancing knowledge and mentoring the next generation of scientists.

FUTURE CONTRIBUTIONS

Looking forward, Peeyush aims to continue his groundbreaking research in Material Science, focusing on the synthesis and application of nanomaterials for energy solutions. His future work is poised to make significant strides in improving the efficiency and functionality of solar cells, supercapacitors, and other energy-related devices.

MATERIAL SCIENCE RESEARCH

Peeyush’s research in Material Science is distinguished by his expertise in the synthesis and characterization of nanomaterials using advanced techniques such as XRD, UV-Vis Spectroscopy, FTIR, SEM, TEM, and more. His work on the electrochemical applications of these materials, including their use in solar cells and photodetectors, is particularly noteworthy. He has developed innovative methods for pollutant degradation using nanomaterials and has hands-on experience with a variety of synthesis techniques, including green synthesis and hydrothermal routes.

In summary, Peeyush Phogat's career is marked by his dedication to excellence in Material Science. His academic achievements, extensive research, and numerous accolades underscore his influence and potential to make significant contributions to the field. His ongoing work continues to push the boundaries of knowledge, promising a future rich with scientific advancements.

NOTABLE PUBLICATION

 

Nguyen Thi Quynh Hoa | Metamaterials | Excellence in Atomic, Molecular, and Optical Physics Award

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Assoc Prof  Dr. Nguyen Thi Quynh Hoa | Metamaterials | Excellence in Atomic, Molecular, and Optical Physics Award

Vinh University | Vietnam

Author Profile:

Scopus

Early Academic Pursuits:

Dr. Thi Quynh Hoa Nguyen's academic journey is marked by a passion for Materials Science and Engineering. She earned her Bachelor's degree in Electronics Engineering from Hanoi University of Science and Technology in 2002. Building on this foundation, she pursued a Master's degree in Material Science at the International Training Institute for Materials Science (ITIMS) from 2003 to 2005, where her research focused on fabricating Quartz microbalance sensors based on MEMS technology for gas sensors and HIV detection. This early academic phase laid the groundwork for her future contributions in the field.

Professional Endeavors:

Dr. Nguyen's professional journey has been characterized by a commitment to research, teaching, and academic leadership. Her career started as a Lecturer in the Department of Electronics and Telecommunications at Vinh University, Vietnam, from 2003 to 2015. During this time, she significantly contributed to the academic and research landscape.

Research Focus Metamaterials and Projects:

Dr. Nguyen's expertise lies in materials science, with a focus on nanomaterials and nanoelectronics. Her research projects have covered a wide spectrum, from the synthesis of TiO2 nanostructures for solar cells to multifunctional metamaterial absorbers and polarization converters. Her proficiency in simulation software such as HFSS, CST, and COMSOL multiphysics, along with fabrication and characterization techniques, underscores her versatile skill set.

Teaching Experience:

Dr. Nguyen's commitment to education is evident through her extensive teaching experience. She has taught a diverse range of courses, including Signals and Systems, Semiconductor Devices, Optical Communications, and Micro- and Nano-electronics. Her supervision of Ph.D., Master, and undergraduate students reflects her dedication to nurturing the next generation of scientists and engineers.

Editorial and Reviewer Roles:

Dr. Nguyen actively contributes to the academic community as an Editor on the Senior Editorial Board of Scientific Reports (Nature Publishing Group) and Vinh University Journal of Nature Science. Her role as a reviewer for esteemed journals further attests to her standing in the scientific community.

Fund History:

The funding secured by Dr. Nguyen for various projects demonstrates her ability to garner support for innovative research. Projects like the study on metamaterials, TiO2 nanostructures, and multifunctional absorbers underscore her commitment to advancing scientific knowledge.

Conclusion:

Dr. Thi Quynh Hoa Nguyen's academic and professional journey is a testament to her passion for materials science and engineering. From her early academic pursuits in Vietnam to her international research endeavors, she has consistently contributed to research, teaching, and academic leadership. Dr. Nguyen's multidimensional contributions position her as a key figure in advancing materials science, nanotechnology, and electronic engineering.

Notable Publication:

Mehdi Akermi | Material Sciences | Excellence in Research

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Mr. Mehdi Akermi | Material Sciences | Excellence in Research

Departement Physics Sciences | Saudi Arabia

Author Profile:

Google Scholar

Early Academic Pursuits:

Dr. Mehdi Makremi, currently an Assistant Professor in Materials Science at Jazan University, Kingdom of Saudi Arabia, embarked on his academic journey with a passion for delving into the world of nano-technology. He obtained his Doctorate degree in nano-technology from the University of Monastir, a testament to his early commitment to pushing the boundaries of scientific exploration.

Professional Endeavors:

Dr. Makremi's professional journey reflects a dynamic blend of academic roles and research pursuits. His initial foray into academia dates back to 2011 when he assumed the position of an Assistant in the Physics Department at the Preparatory Institute for Engineering Studies in Kairouan. Simultaneously, he engaged in research activities in the Communication and Advanced Materials Laboratory at the Faculty of Science in Monastir. This period marked the beginning of his dual roles in academia and research, setting the stage for a multifaceted career.

Scientific Skills:

Dr. Mehdi Makremi possesses a diverse skill set that underscores his proficiency in both theoretical and practical aspects of materials science. His programming expertise includes proficiency in C, along with mastery of Ms-office tools such as Word, Excel, and PowerPoint. Additionally, he demonstrates proficiency in scientific software, including OriginalOrigin7 and Origin 8, further enhancing his capacity for data analysis and interpretation.

Research Interests:

Dr. Makremi's research interests epitomize the intersection of innovation and practical application. His focus on the development of new organic materials for use as active layers in gas sensors speaks to the contemporary relevance of his work, especially in the context of environmental monitoring and sustainability.

Accolades and Recognition:

While specific accolades and recognition details are not provided, it is plausible that Dr. Makremi's contributions have been acknowledged within academic and research circles. The nature of his work and its alignment with contemporary scientific challenges suggest that he may have garnered recognition for his innovative contributions to the field.

Impact and Influence:

Dr. Mehdi Makremi's impact is evident not only in the roles he has assumed but also in the nature of his research interests. The development of materials for gas sensors and the exploration of nanomaterial properties have far-reaching implications for industries and technologies. His influence extends to the students he teaches, the colleagues he collaborates with, and the broader scientific community engaged in materials science.

Legacy and Future Contributions:

As an academic and researcher, Dr. Makremi is in the process of building a legacy marked by advancements in materials science. His early academic pursuits, diverse professional endeavors, and impactful research contributions collectively lay the foundation for a future where he continues to push the boundaries of scientific understanding. The legacy he leaves will likely be one of innovation, collaboration, and a commitment to addressing global challenges through materials science.

Conclusion:

In the intricate world of materials science, Dr. Mehdi Makremi stands out as a dedicated academician and researcher. His journey, characterized by a seamless integration of academic roles and research pursuits, paints a picture of a scientist committed to unraveling the mysteries of nanomaterials. As he continues to shape the minds of future scientists and contribute to the scientific discourse, Dr. Makremi's impact is poised to resonate within and beyond the realm of materials science.

Notable  Publication:

Structural investigation of amorphous Na2O–P2O5–B2O3 correlated with its ionic conductivity  2015 (43)

Synthesis and characterization of a novel hydride polymer P-DSBT/ZnO nano-composite for optoelectronic applications  2019 (44)

Effect of PEG-400 on the morphology and electrical properties of ZnO nanoparticles application for gas sensor  2013 (26)

New features of non-linear time-dependent two-level atoms  2019 (5)