Prof. Ma Guangyi – mechanical engineering – Best Researcher Award

Prof. Ma Guangyi - mechanical engineering - Best Researcher Award

dalian university of technology - China 

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 🎓

Ma Guangyi embarked on his academic journey with a strong passion for mechanical engineering and advanced manufacturing technologies. his early education laid a solid foundation in engineering principles, leading him to pursue higher studies in the field. with an exceptional academic record, he advanced his expertise through rigorous research and innovation, eventually earning a doctoral degree. his dedication to academic excellence and scientific inquiry set the stage for his future contributions to additive manufacturing and nanomanufacturing.

Professional endeavors 🏛️

Throughout his career, ma guangyi has held esteemed positions in academia and industry, shaping the future of mechanical engineering and advanced manufacturing. as a professor and doctoral supervisor, he has mentored numerous researchers, fostering the next generation of scientists and engineers. his role as vice chairman of the additive manufacturing branch of the liaoning mechanical engineering society reflects his leadership in the field. additionally, his membership in national and international technical committees highlights his influence in standardizing and advancing additive and remanufacturing engineering practices.

Contributions and research focus 🔍

Ma Guangyi’s research is centered on additive manufacturing, remanufacturing engineering, and laser processing technologies. his work integrates cutting-edge nanomanufacturing mechanical engineering techniques to enhance material performance and production efficiency. as a key contributor to the development of advanced coatings and rare metal materials, his research bridges the gap between theoretical advancements and practical applications. by pushing the boundaries of laser processing and manufacturing innovations, he has significantly impacted industrial and scientific communities.

Accolades and recognition 🏆

Ma Guangyi’s contributions have earned him widespread recognition and prestigious accolades. he has been selected into the world’s top 2% scientists list for both 2023 and 2024, an mechanical engineering acknowledgment of his outstanding impact on global research. he has received numerous awards, including one gold medal at an invention exhibition, multiple first and second prizes in provincial and ministerial science and technology awards, and significant honors in natural science paper competitions. his editorial roles in leading journals such as "coatings" and "nanomanufacturing and metrology" further underscore his expertise and influence in the field.

Impact and influence 🌍

Ma Guangyi’s research has had a profound impact on the advancement of additive manufacturing and laser processing technologies. his work has contributed to the development of high- performance materials, efficient manufacturing processes, and sustainable engineering solutions. as a member of key scientific committees, he plays a vital role in shaping industry standards mechanical engineering and promoting technological innovations. his efforts in mentoring young researchers and collaborating with global experts have amplified his influence, fostering a new wave of scientific breakthroughs.

Legacy and future contributions 🚀

Ma Guangyi’s legacy is built on his unwavering commitment to scientific excellence and technological innovation. his pioneering work in additive manufacturing and remanufacturing engineering continues to inspire researchers worldwide. as he advances his research, his focus remains on bridging theoretical knowledge with practical applications, ensuring sustainable and efficient manufacturing solutions for future generations. his leadership in academia and industry solidifies his role as a key figure in the evolution of mechanical engineering and nanomanufacturing.

Notable Publications 

  1. Title: Direct additive manufacturing of melt growth Al₂O₃-ZrO₂ functionally graded ceramics by laser directed energy deposition
    Authors: Wu, D.; Shi, J.; Niu, F.; Ma, G.; Zhou, C.; Zhang, B.
    Journal: Journal of the European Ceramic Society
  2. Title: Effect of low-temperature cooling on corrosion properties of laser welding Hastelloy C-276/304 stainless steel with filler wire
    Authors: Cheng, B.; Wu, D.; Yue, K.; Ma, G.; Niu, F.
    Journal: Optics and Laser Technology
  3. Title: Effect of weaving frequency on pulsed laser weaving welding of thin 5052 aluminum alloy sheet
    Authors: Niu, F.; Tang, B.; Yue, K.; Liu, D.; Ma, G.; Wu, D.
    Journal: International Journal of Advanced Manufacturing Technology
  4. Title: Formation mechanism of Al-Zn-Mg-Cu alloy fabricated by laser-arc hybrid additive manufacturing: Microstructure evaluation and mechanical properties
    Authors: Liu, D.; Wu, D.; Wang, R.; Shi, J.; Niu, F.; Ma, G.
    Journal: Additive Manufacturing
  5. Title: Intermetallic regulation mechanism of inconel 718/Ti6Al4V composite by novel follow-up ultrasonic assisted laser additive manufacturing
    Authors: Wu, D.; Song, C.; Di, T.; Niu, F.; Ma, G.
    Journal: Composites Part B: Engineering

Prof. Ji Chen – Structural engineering – Outstanding Contributions in Academia Award

Prof. Ji Chen - Structural engineering - Outstanding Contributions in Academia Award

Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences - China 

Author Profile

SCOPUS 

Early academic pursuits 🎓

Ji Chen's academic journey began with a Bachelor’s degree in Mining Engineering from the Hebei Institute of Building Science and Technology, China (1995–1999). He further pursued his passion for geological and physical sciences, earning a Master’s in Geological Engineering from Jilin University (1999–2002). His academic foundation was solidified with a Doctorate in Physical Geography from the Graduate School of the Chinese Academy of Sciences (2002–2007), which laid the groundwork for his future research in frozen soils and environmental engineering.

Professional endeavors 🏢

Dr. Chen is currently the Director of the Beiluhe National Observation and Research Station on Frozen Soil at the Northwest Institute of Eco-Environment and Resources, part of the Chinese Academy of Sciences. His role involves overseeing cutting-edge research on the environmental challenges posed by permafrost and frozen soil, particularly in relation to infrastructure projects in cold regions. He has also led various industry consultancy projects, such as studying the impact of glacier-frozen soil and snow cover on the Tibet Railway.

Contributions and research focus 🌍

Dr. Chen has made significant strides in studying the effects of frozen soils in alpine and plateau regions. His research on the long-term load test pile group in permafrost areas and the influence of glacier-frozen soil on major infrastructure projects demonstrates his commitment to bridging environmental science with Structural engineering practical applications. His projects focus on improving construction and environmental sustainability in freezing regions, with emphasis on railway infrastructure and mining areas.

Publications and scholarly impact 📚

Dr. Chen has published over 40 papers in prominent SCI journals, making substantial contributions to the understanding of permafrost and its interaction with engineering projects. His research has been featured in journals such as Cold Regions Science and Technology, Computers, Environment and Urban Systems, and The Structural engineering Journal of Geophysical Research. His scholarly work has shaped ongoing global discussions on the challenges of frozen soils in construction and ecological management.

Accolades and recognition 🏅

Dr. Chen’s expertise has been widely recognized within the scientific community. He has received several prestigious awards and has been appointed to editorial boards of leading journals in his field. His contributions have been pivotal in advancing the research on frozen soils, particularly in relation to environmental Structural engineering challenges and engineering solutions in high-altitude and cold regions. Additionally, his involvement in national key research and development projects underscores his stature as a leading innovator.

Legacy and future contributions 🌱

Looking forward, Dr. Chen’s work promises to leave a lasting impact on both environmental science and engineering. His involvement in major national projects, such as the Integration of Monitoring and Data Fusion Technology for Hydroecological Temporal and Spatial Changes of Frozen Soils in Alpine Mining Areas, positions him at the forefront of developing sustainable solutions for cold-region construction. His future contributions are poised to shape infrastructure projects in some of the most challenging environments on Earth, ensuring that development in these regions is both sustainable and safe.

Notable Publications 

  • Title: Degradation of warm permafrost and talik formation on the Qinghai‒Tibet Plateau in 2006–2021
    Authors: Mei, Q.-H., Chen, J., Liu, Y.-Q., Wang, J.-C., Zhao, Y.-J.
    Journal: Advances in Climate Change Research, 2024, 15(2), pp. 275–284
  • Title: Advances in retrogressive thaw slump research in permafrost regions
    Authors: Li, Y., Liu, Y., Chen, J., Dong, T., Zhao, Y.
    Journal: Permafrost and Periglacial Processes, 2024, 35(2), pp. 125–142
  • Title: Long-term responses of permafrost to the dual impacts of climate warming and engineering disturbance along the Qinghai-Tibet Highway
    Authors: Jiang, G., Fu, Z., Gao, S., Liu, Y., Wu, Q.
    Journal: Cold Regions Science and Technology, 2024, 220, 104135
  • Title: Effect of Orientation and Skylight Area Ratio on Building Energy Efficiency in the Qinghai–Tibet Plateau
    Authors: Wang, Y., Qin, H., Wang, Y., Zhang, S., Song, H.
    Journal: Buildings, 2024, 14(3), 755
  • Title: Aboveground Biomass Mapping and Analysis of Spatial Drivers in the Qinghai–Xizang Plateau Permafrost Zone: A Case Study of the Beilu River Basin
    Authors: Wu, Y., Zhao, J., Chen, J., Zhao, Y., Miao, Z.
    Journal: Plants, 2024, 13(5), 686

Prof. Sungju Im  – Environmental engineering – Best Researcher Award

Prof. Sungju Im  - Environmental engineering - Best Researcher Award

Gyengsang national university - South Korea

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 🎓

Sungju Im's academic journey in environmental engineering began with a master’s degree at sungkyunkwan university, korea, where he specialized in water resources and environmental engineering. his thesis focused on the performance evaluation of two-stage spiral wound forward osmosis (fo) elements under various operating conditions. his deep interest in water treatment technologies during his graduate studies laid the foundation for his future research in sustainable desalination processes.

Professional endeavors 🏢

After completing his m.s., sungju continued his academic and professional journey at gyeongsang national university, where he earned his ph.d. in environmental engineering. as part of the department of environmental engineering, his work has been closely linked to developing and improving water purification technologies, particularly forward osmosis (fo). this research focus has positioned him as a key contributor to innovations in water and desalination processes.

Contributions and research focus 🔬

Sungju im's research is centered on the techno-economic evaluation of forward osmosis as an alternative water treatment and desalination process. his work aims to Environmental engineering optimize fo systems to improve efficiency and make them more viable for large-scale applications. by addressing challenges like energy consumption and operational conditions, sungju contributes to making desalination more sustainable and accessible. his studies on spiral wound fo elements are particularly noted for their potential in enhancing industrial water recovery methods.

Accolades and recognition 🏅

Sungju has received recognition for his contributions to the field of environmental engineering. his research has been published in prominent journals, where his Environmental engineering work on fo systems is praised for its innovation and practical application. his expertise in this niche has garnered respect both within academic circles and the water treatment industry. his achievements reflect his commitment to advancing water purification technologies.

Impact and influence 🌍

Through his work, sungju im has had a significant impact on the global water industry. his research into forward osmosis presents a promising solution for water-scarce regions, offering a sustainable and cost-effective alternative to traditional desalination methods. his contributions are instrumental in driving forward the Environmental engineering adoption of fo technologies, providing innovative methods to address the global water crisis.

Legacy and future contributions 🔮

Sungju im's legacy lies in his pioneering work on forward osmosis and its potential to revolutionize water treatment. his dedication to improving the efficiency and economic viability of desalination technologies ensures that his research will have lasting effects on both the environment and the future of water engineering. his future contributions are likely to further enhance the practicality of fo in large-scale applications, making a tangible difference in global water management.

Notable Publications

  1. Title: "An efficient data-driven desalination approach for the element-scale forward osmosis (FO)-reverse osmosis (RO) hybrid systems"
    Authors: Im, S.-J., Viet, N.D., Lee, B.-T., Jang, A.
    Journal: Environmental Research, 2023, 237, 116786
  2. Title: "Supercritical carbon dioxide fluid cleaning of extracellular polymeric substance surrogates on seawater reverse osmosis membranes"
    Authors: Jung, B., Im, S., Westerhoff, P., Park, K.
    Journal: Desalination, 2023, 559, 116637
  3. Title: "High-Efficiency Recovery of Acetic Acid from Water Using Electroactive Gas-Stripping Membranes"
    Authors: Im, S., Jung, B., Wang, X., Hoek, E.M.V., Jassby, D.
    Journal: Environmental Science and Technology, 2023, 57(27), pp. 10096–10106
  4. Title: "Simple and Low-Cost Electroactive Membranes for Ammonia Recovery"
    Authors: Wang, X., Im, S., Jung, B., Hoek, E.M., Jassby, D.
    Journal: Environmental Science and Technology, 2023, 57(25), pp. 9405–9415
  5. Title: "Feasibility assessment of alternative environmentally friendly disinfection technique for reverse osmosis-based desalination process"
    Authors: Im, S., Jang, A.
    Journal: Desalination, 2023, 553, 116458