Dr. Wei Qiang – Advanced Materials Engineering – Best Researcher Award

Dr. Wei Qiang - Advanced Materials Engineering - Best Researcher Award

Xi'an Shiyou University - China 

Author Profile

SCOPUS

Early academic pursuits 🎓

Wei Qiang embarked on his academic journey with a bachelor’s degree in material forming and control engineering at nanjing university of science and technology under the guidance of professor kehong wang. his dedication to the field of materials science deepened as he pursued a ph.d. in materials science and engineering from the same institution, also supervised by professor wang. during this period, wei honed his expertise in advanced welding technologies, laying the foundation for his future contributions to the discipline.

Professional endeavors 🏫

since april 2018, wei qiang has served as a lecturer at the college of materials science and engineering, xi’an shiyou university. in this role, he combines teaching with cutting-edge research, mentoring the next generation of materials scientists while contributing to advancements in welding and additive manufacturing. his academic career reflects a seamless integration of education and innovation, fostering a collaborative environment for scientific growth.

Contributions and research focus 🔬

Wei qiang’s research focuses on advanced welding processes, particularly in dual heat source and v-shaped coupling welding technologies. his work explores the formation mechanisms, thermal-stress distribution, and process optimization of welding in materials like aluminum alloys. his studies also extend to additive Advanced Materials Engineering manufacturing using gas tungsten arc welding (gta), demonstrating innovative approaches to improve material properties and manufacturing efficiency. through experimental and simulation-based methodologies, his research addresses critical challenges in materials processing.

Accolades and recognition 🏅

Wei’s scholarly contributions are reflected in his publications in renowned journals such as the journal of materials research and technology and journal of Advanced Materials Engineering manufacturing processes. his studies on v-shaped coupling welding and double-sided heat source processes have garnered attention for their innovative approaches and practical implications. his recognition in the field highlights his role as a key contributor to advancements in materials science.

Impact and influence 🌍

through his pioneering research, wei qiang has significantly influenced the field of welding and materials processing. his work on numerical simulations and innovative welding techniques provides valuable insights for industrial applications, particularly in aerospace and automotive sectors. by advancing the Advanced Materials Engineering understanding of welding dynamics, he contributes to the development of sustainable and efficient manufacturing practices.

Legacy and future contributions 🔮

As a researcher and educator, wei qiang is committed to driving innovation in materials science. his ongoing work promises further breakthroughs in welding and additive manufacturing technologies. by mentoring young scientists and expanding the scope of his research, he ensures a lasting impact on the academic and industrial communities. his legacy is rooted in his dedication to solving complex challenges and fostering progress in the field.

Notable Publications

  1. Title: Process characteristics of V-shaped coupling dual GTA-based additive manufacturing
    Authors: Qiang, W., Wang, K., Gao, C., Lu, Y., Wen, G.
    Journal: Journal of Materials Research and Technology, 2023, 23, pp. 1968–1979
  2. Title: Numerical simulation of T-joint welding with cold wire filling and double heat sources
    Authors: Qiang, W., Lu, Y., Yuan, Y., Sun, C.
    Journal: Cailiao Kexue yu Gongyi/Material Science and Technology, 2021, 29(5), pp. 57–62
  3. Title: Microstructural analysis and mechanical behavior of TC4 titanium alloy and 304 stainless steel by friction stir lap welding
    Authors: Lu, Y., Xu, X., Zhang, B., Cao, J., Li, W.
    Journal: Welding in the World, 2021, 65(10), pp. 1915–1930
  4. Title: Forming characteristics and mechanism of double-sided heat source synergic vertical welding on an aluminum alloy
    Authors: Qiang, W., Wang, K., Wang, S., Lu, Y., Gao, Q.
    Journal: Journal of Manufacturing Processes, 2021, 64, pp. 356–368
  5. Title: Microstructure and wear resistance of TiB2/7075 composites produced via rheocasting
    Authors: Gao, Q., Yang, B., Gan, G., Wang, S., Lu, Y.
    Journal: Metals, 2020, 10(8), pp. 1–14, 1068

Prof Dr. satoshi inagaki – liquid organic hydrogen carrier system – Best Researcher Award

Prof Dr. satoshi inagaki - liquid organic hydrogen carrier system - Best Researcher Award

YOKOHAMA National University - Japan

Author Profile

SCOPUS

ORCID

📚 Early Academic Pursuits

satoshi inagaki began his academic journey at waseda university, where he earned his b.s. in 1999, m.s. in 2001, and ph.d. in 2004. his research was guided by prof. eiichi kikuchi and prof. masahiko matsukata, laying a strong foundation in materials science and chemical engineering. this period was marked by his deep interest in catalysis, which would become a cornerstone of his career.

🧪 Professional Endeavors

inagaki's professional journey started at waseda university as a research associate in 2003. his passion for research led him to the tokyo institute of technology, where he served as a postdoctoral fellow and research associate from 2005 to 2007. in 2008, he joined yokohama national university (ynu) as an assistant professor, quickly advancing to associate professor in 2012. his commitment to education and research culminated in his promotion to full professor at ynu in 2024.

🔬 Contributions and research focus

inagaki's research is at the forefront of materials science, particularly in catalysis and adsorption technologies. his work has significantly advanced the understanding and application of catalytic processes, contributing to more efficient energy production and environmental liquid organic hydrogen carrier system sustainability. his studies have bridged the gap between theoretical research and practical applications, making his contributions invaluable to both academia and industry.

🏆 Accolades and recognition

inagaki's groundbreaking research has earned him several prestigious awards. in 2011, he received the japan petroleum institute award for liquid organic hydrogen carrier system encouragement of research and development. his continued excellence in catalysis was recognized with the catalysis society of japan award for young researchers in 2016, followed by the japan society on adsorption award for young researchers in 2020. these accolades highlight his influence and dedication to advancing scientific knowledge.

🌍 Impact and influence

inagaki's work has had a profound impact on the field of chemical engineering, particularly in catalysis. his research not only advances scientific understanding but also contributes to the development of sustainable industrial processes. his influence extends beyond japan, inspiring liquid organic hydrogen carrier system researchers and engineers worldwide to explore innovative solutions to global challenges.

🧭 Legacy and future contributions

as a professor at yokohama national university, inagaki continues to shape the future of materials science. his legacy is marked by a dedication to mentoring the next generation of scientists and a relentless pursuit of knowledge. looking ahead, inagaki's future contributions are expected to drive further advancements in catalysis and sustainable energy solutions, leaving an indelible mark on the scientific community.

Notable publications

Dr. Melek Koç Keşir – Photocatalysis – Best Researcher Award

Dr. Melek Koç Keşir - Photocatalysis - Best Researcher Award

Karadeniz Technical University - Turkey

Professional Profile

SCOPUS

EARLY ACADEMIC PURSUITS 🎓

Dr. Melek Koç Keşir’s academic journey began at Karadeniz Technical University (KTU) in Trabzon, Turkey, where she earned her undergraduate degree in Chemistry in 2011. Her dedication to the field led her to continue at KTU, obtaining her postgraduate degree in 2014 with a thesis on the production of new photocatalysts by immobilizing phthalocyanine derivatives on titanium dioxide (TiO2). Her passion for research and innovation further culminated in a doctorate from the same institution in 2019, where she focused on the use of phthalocyanine sensitized TiO2 photocatalysts for the removal of amoxicillin and Cr (VI) residue from water.

PROFESSIONAL ENDEAVORS 🏢

Dr. Koç Keşir has established herself as a prominent researcher in environmental chemistry and nanomaterials. After completing her doctorate, she embarked on a postdoctoral fellowship at Konya Food and Agriculture University, where she has been contributing to the field of bioengineering since 2022. Her professional journey is marked by a strong commitment to environmental sustainability, focusing on innovative solutions for pollution and waste management.

CONTRIBUTIONS AND RESEARCH FOCUS 🔬

Dr. Koç Keşir’s research spans a wide range of interdisciplinary areas including environmental engineering, materials science, and analytical chemistry. Her work is particularly noted for its emphasis on photocatalysis and wastewater treatment. She has pioneered the development of novel photocatalysts and the application of spectroscopic and chromatographic methods for environmental analysis. Her ongoing research on Photocatalysis the use of various carbon nano dots in fingerprint detection further exemplifies her diverse scientific interests and expertise.

ACCREDITATIONS AND RECOGNITION 🏅

Throughout her career, Dr. Koç Keşir has received numerous accolades for her contributions to environmental science and nanotechnology. Her innovative research has been recognized by academic institutions and professional organizations alike, highlighting her role as a leader in her field. Her doctoral and postdoctoral work, in particular, have been lauded for their impact on improving environmental monitoring and Photocatalysis remediation techniques.

IMPACT AND INFLUENCE 🌍

Dr. Koç Keşir’s work has had a significant impact on the field of environmental chemistry. Her research on photocatalysis and wastewater treatment has provided new insights and methods for addressing environmental pollutants. By developing advanced materials and analytical techniques, she has contributed to the global effort to create cleaner and safer water resources. Her influence extends to mentoring the next Photocatalysis generation of scientists, fostering a culture of innovation and sustainability.

LEGACY AND FUTURE CONTRIBUTIONS 🔮

Dr. Koç Keşir’s legacy is one of scientific innovation and environmental stewardship. Her groundbreaking research continues to inspire advancements in nanotechnology and environmental engineering. Looking to the future, she aims to expand her work on sustainable materials and advanced analytical methods, driving forward the frontiers of environmental science. Her commitment to education and research ensures that her contributions will resonate for years to come, paving the way for a healthier and more sustainable world.

NOTABLE PUBLICATIONS