De-Wei Gao | Chemistry | Best Researcher Award

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Dr. De-Wei Gao | Chemistry | Best Researcher Award

ShanghaiTech University | China

De-Wei Gao is an accomplished chemist serving as an assistant professor and principal investigator at ShanghaiTech University, where he leads research programs in synthetic organic chemistry, asymmetric catalysis, and organoboron chemistry. He built his academic foundation through studies in chemistry and advanced training in organic synthesis at leading Chinese institutions before expanding his expertise through postdoctoral appointments in biochemistry and organic chemistry at internationally recognized research centers. His work focuses on catalytic asymmetric transformations, boron-based reagent design, stereoselective bond construction, organometallic reactivity, and mechanistic exploration of complex synthetic pathways. Gao is skilled in asymmetric synthesis, catalytic methodology development, organometallic catalysis, multistep organic synthesis, reaction mechanism analysis, and the design of stereochemically rich molecular architectures. His professional contributions extend to editorial and advisory roles that support the advancement of early-career chemists. He has received multiple distinguished honors from national chemical societies, academic institutions, and international publishers in recognition of his contributions to chiral synthesis and innovative organoboron chemistry. Gao’s growing body of research, publications, and patents highlights his influence in modern synthetic methodology, and his ongoing work continues to advance precision chemical synthesis with broad implications for pharmaceutical, materials, and catalytic science.

Profile: ORCID

Featured Publications

Artur Dzeranov | Chemistry and Materials Science | Best Researcher Award

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Mr. Artur Dzeranov | Chemistry and Materials Science | Best Researcher Award

Federal Research Center for Problems of Chemical Physics and Medicinal Chemistry of the Russian Academy of Sciences | Russia

Mr. Artur Dzeranov is a dedicated researcher and engineer affiliated with the Moscow Aviation Institute and several leading Russian scientific institutions, including the Sklifosovsky Research Institute for Emergency Medicine and the Federal Research Centre for Problems of Chemical Physics and Medicinal Chemistry of the Russian Academy of Sciences. He holds bachelor’s, master’s, and postgraduate degrees from the Moscow Aviation Institute, specialising in biotechnical systems, aircraft engineering, and materials science. His professional work spans research, teaching, and laboratory practice, where he lectures on biomaterials, biotechnical systems, and data analysis in biology and medicine. His research focuses on iron nanoparticles, their oxides, and hybrid metal-polymer nanocomposites, exploring their synthesis, structural and physicochemical characterisation, and biological and environmental interactions. Skilled in advanced analytical methods such as X-ray diffraction, Mössbauer spectroscopy, and electron microscopy, he investigates nanocomposites’ sorption, detoxification, and catalytic properties. Mr Dzeranov has published extensively in international journals and presented his findings at numerous scientific conferences. His achievements have earned him recognition as a promising young scientist contributing to materials chemistry, nanotechnology, and environmental safety. Through his interdisciplinary expertise and commitment to innovation, he continues to advance the understanding and application of functional nanomaterials for biomedical and ecological purposes.

Profile: ORCID

Featured Publications

Kalaivizhi Rajappan | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Kalaivizhi Rajappan | Chemistry | Best Researcher Award

SRM Institute of Science and Technology | India

Dr. R. Kalaivizhi is an accomplished academic and researcher with over two decades of teaching and research experience in engineering institutions affiliated with Anna University and SRM Institute of Science and Technology (SRM IST), where she currently serves as an Associate Professor. She earned her Ph.D. in Polymer Membranes from Anna University, Chennai, in 2012, building upon her extensive expertise in polymer science and nanotechnology. Her professional career includes roles as Lecturer at SKR Engineering College, Associate Professor at PERI Institute of Technology, and later Associate and Assistant Professor at SRM IST. She has also contributed administratively as Department In-charge, Student Counsellor, Exam Cell Coordinator, and Anna University Representative for examinations. Her research interests focus on the design and fabrication of polymer nanocomposite membranes and nanofibers using methods such as electrospinning, phase inversion, and solvent casting, with applications in wastewater treatment, drug delivery, anti-cancer therapy, wound healing, and bone tissue regeneration. Dr. Kalaivizhi is skilled in synthesizing nanomaterials, polymer composites, and membrane technology, and has guided three Ph.D. scholars to completion while mentoring several others. Her contributions have been recognized with memberships in ISTE, ISCA, IMS, and ECSI, along with active service as a reviewer for leading international journals. With three patents and numerous high-impact publications, she continues to advance polymer science and biomedical applications. In conclusion, Dr. Kalaivizhi’s career reflects academic excellence, impactful research, and a strong commitment to mentoring future scientists.

Profile: Scopus

Featured Publications

Makwena Justice Moloto | Chemistry | Best Researcher Award

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Prof. Makwena Justice Moloto | Chemistry | Best Researcher Award

Durban University of Technology | South Africa

Prof. Makwena Justice Moloto is a distinguished South African academic and researcher specializing in nanotechnology, inorganic chemistry, and sustainable water solutions. With a career spanning teaching, research, and leadership roles, he has contributed significantly to advancing scientific knowledge and training future generations of chemists. His professional journey has taken him across leading institutions, where he has held positions from lecturer to full professor, engaging in curriculum development, departmental leadership, and international collaborations. Prof. Moloto has led and participated in various research groups focusing on nanotechnology, catalysis, adsorption, and phytochemistry, producing impactful research outcomes. His work extends beyond national borders through collaborations with universities in Kenya, the United Kingdom, and the United States. He has also served on multiple institutional and national committees, shaping research directions and policies. A prolific researcher and mentor, he continues to drive innovations in nanostructured materials and their applications in health, environment, and sustainability.

Profile

ORCID

Education

Prof. Moloto began his academic journey at the University of Limpopo, where he obtained a Bachelor of Science in Chemistry and Zoology, followed by a Bachelor of Science (Honours) in Chemistry. His passion for research led him to the University of the Western Cape, where he pursued a Master of Science in Chemistry, focusing on organometallic chemistry. He then advanced his studies at the University of Zululand, where he earned his PhD in Inorganic and Nanomaterials Chemistry, a milestone that laid the foundation for his expertise in nanotechnology. His doctoral research was enriched by international research visits to the University of Manchester, where he collaborated under the Royal Society and NRF program, and Jackson State University, where he trained in molecular modelling. Additionally, he complemented his academic achievements with a certificate in Leading and Managing People from Wits Business School, equipping him with leadership skills vital for academic and research management.

Experience

Prof. Moloto’s academic career reflects progressive growth in teaching, research, and leadership across renowned South African universities. He began as a lecturer at the University of Zululand, later serving as Senior Lecturer at institutions such as the University of Witwatersrand and University of Johannesburg, where he taught inorganic, physical, and materials chemistry. His career advanced at the Vaal University of Technology, where he rose to Associate Professor, led departmental research activities, and twice acted as Head of the Chemistry Department. He later served as a Full Professor at the University of South Africa and University of Limpopo, contributing to curriculum development and postgraduate mentorship. Currently, he is a Full Professor at Durban University of Technology, Department of Chemistry, where he supervises postgraduate students, coordinates research, and teaches various chemistry modules. His experience also includes organizing international conferences, serving on research committees, and acting as a reviewer and moderator for multiple institutions.

Awards and Honors

Prof. Moloto’s career is distinguished by numerous awards, honors, and recognitions that highlight his impact on science and education. He has been a recipient of multiple research grants from the National Research Foundation, including Thuthuka and CSUR grants, which supported his pioneering work in nanotechnology and postgraduate supervision. His international collaborations have been facilitated through prestigious programs such as the Royal Society and NRF fellowship, enabling research at the University of Manchester and Jackson State University. He has hosted and mentored several postdoctoral fellows, supported through national and international funding. His leadership in organizing conferences such as NanoAfrica and SACI reflects his role in advancing the global scientific community. Additionally, he has been appointed Chairperson of NRF panels, shaping research funding directions in natural sciences. His contributions to committees, innovation platforms, and academic leadership showcase his commitment to fostering scientific advancement, mentorship, and sustainable innovation in nanotechnology.

Research Focus

Prof. Moloto’s research centers on nanotechnology, inorganic chemistry, and sustainable applications of nanostructured materials. His work involves the synthesis and characterization of semiconductor nanoparticles and their incorporation into polymer fibers and composite materials. These innovations are applied in diverse areas, including antimicrobial activity against bacteria and fungi, photocatalysis, water treatment, and the development of advanced wound dressings. His research also explores polymer fiber composites for wastewater treatment and pest repellency, highlighting the societal relevance of his work. Under his leadership, multidisciplinary research groups have investigated catalysis, adsorption, and phytochemistry, fostering innovation through collaborative projects across Africa and beyond. He has established research partnerships with universities in Kenya, contributing to knowledge exchange, student mobility, and postdoctoral mentorship. By bridging fundamental chemistry with applied science, Prof. Moloto’s research advances both theoretical understanding and real-world solutions, contributing to health, environmental sustainability, and industrial innovation in nanotechnology and materials science.

 

Publications

 

Title: Visible Light Enhanced Degradation of Sulfamethoxazole by Beta Zeolite/TiO2 Photocatalyst
Year: 2025

Title: Effect of Cellulose Acetate on the Physicochemical Properties of PVP Blended Nanofibers
Year: 2025

Title: Pelargonium alchemilloides (L). L’herit Extract–loaded Electrospun Polyvinylpyrrolidone/Cellulose Acetate Blended Nanofibers and their Antimicrobial Activity
Year: 2025

Title: Enhancing the Photocatalytic Activity of Co-precipitation Synthesized Fe3O4/ZnO Nanocomposites for Rhodamine B Degradation
Year: 2025

Title: Optimizing influential phase separation parameters on polyethersulfone/Fe3O4/ZnO membranes for environmental wastewater
Year: 202

Conclusion

Prof. Makwena Justice Moloto is a visionary scholar whose dedication to nanotechnology, chemistry, and sustainable innovation has made him a leader in scientific research, academic leadership, and international collaboration, leaving a lasting impact on education, industry, and society.

Yonghua Bi | Interventional Radiology | Best Researcher Award

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Prof. Yonghua Bi | Interventional Radiology | Best Researcher Award

The First Affiliated Hospital of Zhengzhou University | china

Dr. Yonghua Bi is an accomplished Associate Chief Physician at the First Affiliated Hospital of Zhengzhou University, specializing in interventional treatment of tumors and vascular diseases. With a doctoral degree from China Medical University, Dr. Bi has dedicated his career to advancing minimally invasive procedures, pioneering research, and clinical innovation in interventional medicine. His work has contributed significantly to the understanding and management of vascular disorders, particularly arterial diseases. Author of over one hundred research articles, including more than eighty SCI-indexed papers, he has also published the book Stories of Interventional Radiology. Dr. Bi holds multiple patents, reflecting his commitment to translating research into practical solutions. As an active member and leader in professional societies, he plays an influential role in advancing interventional medicine in China. Recognized for his expertise, Dr. Bi also serves as a reviewer for esteemed journals, ensuring scientific rigor and promoting research excellence in his field.

Profile

ORCID

Education

Dr. Yonghua Bi earned his doctoral degree in medicine from China Medical University, where he developed a strong academic foundation in interventional medicine and vascular disease research. His education combined rigorous clinical training with in-depth research, enabling him to bridge theory and practice effectively. During his doctoral studies, he honed specialized skills in animal modeling, imaging techniques, and minimally invasive interventions, particularly focusing on vascular pathophysiology and therapeutic approaches. This academic background equipped him with a comprehensive understanding of both fundamental mechanisms and advanced clinical applications. His education emphasized interdisciplinary collaboration, integrating radiology, surgery, and pathology to optimize patient care. Exposure to both laboratory-based investigations and real-world clinical challenges shaped his ability to design research with practical implications. This robust educational journey laid the groundwork for his future contributions to innovation in interventional radiology and propelled him into leadership roles in academic medicine, research, and professional medical organizations.

Experience

Since joining the Department of Interventional Medicine at the First Affiliated Hospital of Zhengzhou University, Dr. Yonghua Bi has built a distinguished career combining patient care, research, and academic leadership. His clinical expertise spans interventional treatment for tumors and vascular diseases, with notable achievements in managing pulmonary embolism, deep vein thrombosis, and Budd-Chiari syndrome. He has pioneered work in abdominal aortic aneurysm modeling and regression studies, influencing both research and clinical protocols. As a prolific author, Dr. Bi has published extensively, contributing evidence-based advancements to interventional medicine. His role extends to mentorship, guiding young clinicians and researchers in advanced techniques and study design. He actively participates in academic societies, serving as standing director and youth committee leader in national medical associations. In addition, his editorial responsibilities include reviewing for reputable medical journals, ensuring scientific standards. His experience reflects a commitment to improving patient outcomes while advancing the frontiers of interventional radiology.

Awards and Honors

Dr. Yonghua Bi has earned recognition for his significant contributions to interventional medicine through awards, patents, and scholarly achievements. His approval of two invention patents and three utility model patents underscores his role as an innovator translating research into clinical solutions. His extensive publication record, with over eighty SCI-indexed articles as first or corresponding author, has positioned him as a leading voice in vascular disease research. The trust placed in him as a reviewer for the Clinical Journal of Medical Officers reflects his standing in the academic community. His leadership roles as standing director of the Interventional Medicine Branch of the Bethune Medical Research Society of China and deputy director of the Youth Committee of the Henan Medical Science Popularization Society demonstrate recognition by peers for his expertise and service. These honors collectively illustrate his influence in shaping the development, dissemination, and application of interventional medical knowledge in China and beyond.

Research Focus

Dr. Yonghua Bi’s research centers on interventional treatments for tumors and vascular diseases, with a particular emphasis on arterial and venous system disorders. His work in modeling abdominal aortic aneurysms in animals has provided valuable insights into disease mechanisms and potential regression pathways. This foundational research bridges basic science with clinical applications, informing innovative treatment strategies. Clinically, he focuses on complex vascular conditions such as pulmonary embolism, deep vein thrombosis, and Budd-Chiari syndrome, developing minimally invasive interventions that improve patient outcomes. His studies often integrate imaging advancements with procedural innovation, aiming for greater precision and reduced patient risk. Dr. Bi’s dual expertise in laboratory investigation and patient-centered care enables him to design interventions grounded in scientific evidence. Beyond direct treatment, his work seeks to expand the scope of interventional radiology, fostering multidisciplinary collaboration and training future specialists to advance the field through research-driven, patient-focused medical practice.

Publications

Title: Comparison between bougie and balloon dilation of benign esophageal strictures in infants and children.
Year: 2025

Title:Small Balloon Dilation Versus Bougie Dilation Versus Large Balloon Dilation for the Treatment of Benign Esophageal Strictures in Adult Patients.
Year:2025

Title: A comparison of three kinds of balloon dilatations for patients with benign esophageal strictures.
Year:2025

Title: Clinical evaluation of oxaliplatin-loaded drug-eluting callispheres beads transarterial chemoembolization for unresectable or recurrent esophageal carcinoma.
Year:2024

Conclusion

Dr. Yonghua Bi exemplifies the integration of clinical excellence, research innovation, and academic leadership in interventional medicine. His contributions to vascular disease modeling, minimally invasive treatment strategies, and high-impact publications have advanced both scientific understanding and patient care. Through patents, professional society leadership, and active editorial work, he has influenced medical practice and fostered the next generation of specialists. His career reflects a commitment to translating rigorous research into real-world applications, improving outcomes for complex vascular and oncological conditions. With a clear vision for advancing interventional radiology, he continues to drive progress in this rapidly evolving medical specialty.

Sergey Koroidov | Physical Chemistry and Material science | Best Researcher Award

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Dr. Sergey Koroidov | Physical Chemistry and Material science | Best Researcher Award

Dr. Sergey Koroidov is an accomplished physical chemist and researcher at the Department of Physics, Stockholm University. With a Ph.D. in Chemistry from Umeå University, Sweden, his academic and professional journey spans globally recognized institutions, including Stanford University and Lawrence Berkeley National Laboratory. His expertise lies in ultrafast spectroscopy, electrochemistry, and catalysis, focusing on time-resolved studies of transition metal catalysts to understand and improve energy conversion processes. Dr. Koroidov has published over 50 peer-reviewed papers in leading scientific journals such as Nature, Science, and JACS. He is an active mentor, supervising postdocs and students, and serves as a reviewer for top-tier journals and international funding agencies. With several prestigious fellowships and research grants under his belt, including from the Swedish Research Council and the Wallenberg Foundation, Dr. Koroidov plays a key role in academic development, institutional strategy, and collaborative scientific initiatives in materials science and sustainability.

Profile

🎓 Education

Dr. Sergey Koroidov obtained his Ph.D. in Chemistry in 2014 from Umeå University, Sweden, under the mentorship of Prof. Dr. Johannes Messinger. His doctoral research included collaborative work as a visiting scholar at the Lawrence Berkeley National Laboratory, USA, where he investigated the mechanisms of metalloenzymes using advanced spectroscopy under the guidance of Drs. Vittal Yachandra and Junko Yano. Before that, he earned a combined B.Sc./M.Sc. in Environmental Chemistry from Moscow State Technical University, Russia, in 2005, where he worked under Prof. Dr. Aleksey P. Korzhavii. His academic formation has been shaped by interdisciplinary training in physical chemistry, materials science, and environmental technologies, blending theoretical knowledge with experimental applications. Dr. Koroidov’s academic journey reflects a strong foundation in molecular-level processes and a commitment to cross-institutional collaboration and international research engagement, which later shaped his contributions to energy science and sustainable chemistry.

🧪 Experience

Dr. Sergey Koroidov is currently a researcher at Stockholm University’s Department of Physics, a role he has held since 2017. Previously, he was a postdoctoral fellow at Stanford University’s PULSE Institute (2015–2017), where he worked with Prof. Dr. Kelly Gaffney on ultrafast x-ray spectroscopy. From 2014–2015, he served as a researcher at Umeå University, and during his Ph.D. years (2009–2014), he participated in collaborative projects at Berkeley Lab. Before academia, he worked as an engineer at the Projecting Research Centre of Water Cleaning in Kaluga, Russia (2005–2009). Dr. Koroidov also contributes extensively to teaching and academic service—designing and leading master’s and Ph.D. level courses in physics and molecular chemistry. He is active in student supervision, curriculum development, strategic planning, and scientific outreach. His hands-on experience with spectroscopy and catalysis research places him at the forefront of sustainable materials and energy sciences.

🏅 Awards and Honors

Dr. Sergey Koroidov has received numerous prestigious awards and research fellowships. He was awarded the Swedish Research Council Starting Grant (2019–2023) and an international postdoctoral fellowship to work at Stanford University (2015). He received the Wallenberg Foundation Postdoctoral Scholarship in 2015 and earlier travel research grants for visits to Berkeley Lab. In 2023, he secured funding from the Wallenberg Initiative Materials Science for Sustainability (WISE) to support postdoctoral hiring. He also received a PRISMAS Horizon-MSCA COFUND grant for Ph.D. recruitment. During his doctoral studies, he was awarded a scholarship by Umeå University’s Faculty of Science and Technology for research in the United States. Dr. Koroidov’s recognitions underscore his contributions to cutting-edge research in catalysis and spectroscopy, as well as his ability to secure competitive national and international funding. He is also active in peer review and research supervision, making him a valued contributor to both the academic and funding communities.

🔬 Research Focus

Dr. Sergey Koroidov’s research centers on electrochemical and photochemical dynamics in transition metal-based catalytic systems. His work seeks to uncover mechanisms behind energy conversion and commodity chemical synthesis through state-of-the-art spectroscopy. He utilizes time-resolved optical and x-ray techniques to study molecular processes in solution and gas phases, contributing to the rational design of energy-efficient catalysts. His studies often involve collaborative efforts in theoretical simulations, electrocatalysis, and materials characterization. He is particularly involved in sustainability-driven projects supported by initiatives like WISE and MAX IV, where he contributes to energy-focused strategy planning. Dr. Koroidov also explores photo-induced charge transfer, redox mechanisms, and catalyst structure–function relationships. His interdisciplinary approach spans physics, chemistry, and environmental sciences, aiming to bridge fundamental molecular science with real-world applications in energy sustainability. His collaborations span institutions in Sweden and internationally, including Stanford, Umeå University, and national laboratories in the U.S., enriching the global impact of his research.

Conclusion

Dr. Sergey Koroidov is an internationally recognized researcher in physical chemistry whose work on catalytic energy processes using ultrafast spectroscopy contributes significantly to sustainable science, supported by top-tier grants, extensive collaborations, and impactful publications.

 

Publications

Milos Vasic | Material science | Best Researcher Award

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Dr. Milos Vasic | Material science | Best Researcher Award

Dr. Miloš Vasić is a seasoned expert in the field of chemical technology and inorganic chemical engineering, with nearly 20 years of research and professional experience. A Ph.D. graduate from the University of Belgrade, he specializes in recycling processes, mechanical activation of raw materials, and optimization of material properties—particularly in the context of porous and ceramic materials. In recent years, he has expanded his focus to include polymer investigations and the development of innovative construction products. Dr. Vasić has contributed to over 117 scientific papers, including 23 indexed in the Web of Science. He is actively involved in high-impact national and international projects and plays a leading role in the standardization and certification of building materials in Serbia. His work extends to quality assurance, technical consulting, and scientific cooperation, and he currently chairs the Serbian Standards Institute’s Committee for Masonry Structures.

Profile

🎓 Education

Dr. Miloš Vasić obtained his Ph.D. in Technical Sciences in the field of Chemistry and Chemical Technology from the Faculty of Technology and Metallurgy, University of Belgrade, in 2014. His doctoral studies focused on the physical and chemical processes involved in optimizing raw materials and ceramic properties. He completed his B.Sc. in Inorganic Chemical Engineering from the same institution in 2005, building a strong foundation in inorganic material processing, reaction kinetics, and industrial-scale applications. Throughout his academic training, Dr. Vasić emphasized interdisciplinary approaches, merging principles of chemistry, process engineering, and materials science. His education has equipped him to engage in both theoretical modeling and practical implementation of new materials, especially in the field of construction ceramics and industrial recycling, laying the groundwork for his substantial research and development contributions in academia and industry alike.

🧪 Experience

Dr. Miloš Vasić currently serves as a researcher at the Laboratory for Building Ceramics, where he specializes in the testing and development of clay-based and ceramic construction products. He has led numerous national and bilateral projects on material recycling, energy efficiency in ceramic production, and the design of self-compacting concretes using waste. Since 2019, he has chaired the Serbian Standards Institute’s Committee for Masonry Structures, overseeing regulatory and technical guidelines. He has been instrumental in maintaining laboratory quality systems aligned with SRPS EN ISO/IEC 17025 standards. In 2020, he became a technical expert for Proficiency Testing (PT) at the IMS Institute, contributing to Serbia’s designation of AVCP bodies for construction products. His practical and regulatory contributions have influenced policy-making, quality standards, and innovation within the materials testing and certification sector.

🏅 Awards and Honors

While specific named awards are not explicitly listed, Dr. Miloš Vasić’s professional recognitions are evident through his appointments and leadership roles. He was named as the responsible person in the Serbian government’s designation decision for construction product performance verification (Decision No. 35-00-0108/2020-08), reflecting national-level trust in his technical expertise. His appointment as Chair of the Serbian Standards Institute’s Committee for Masonry Structures since 2019 underscores his influence and authority in standardization. He has also been selected as a technical expert for IMS Institute’s Proficiency Testing, indicating peer recognition in the domain of ceramic and masonry product quality assurance. His invitation to lead or participate in multiple nationally and internationally funded scientific projects demonstrates his high standing in Serbia’s R&D community. These roles and responsibilities serve as testament to his reputation, leadership, and contributions to material sciences and standardization efforts.

🔬 Research Focus

Dr. Miloš Vasić’s research spans multiple interdisciplinary domains within chemical technology, with an emphasis on recycling of inorganic raw materials, mechanical activation, and optimization of porous construction materials. His early research centered on ceramic building materials, including clay masonry units and roof tiles, analyzing their physical and chemical properties under various industrial processes. He has developed and modeled drying parameters for energy efficiency and sustainable material production. Over the last seven years, his research scope has expanded to include polymer materials and the design of novel construction products. Through involvement in major projects, including collaborations with Turkey and the EU’s COST actions, he has advanced knowledge in nanopowder-based ceramics, self-compacting concrete, and multifunctional composite materials. Dr. Vasić’s applied research has significantly influenced industrial practices, national standards, and sustainable construction technologies.

Conclusion

Dr. Miloš Vasić is a dedicated researcher and technical leader whose interdisciplinary expertise in chemical engineering and construction materials has driven advancements in sustainable technologies, standardization, and industrial process optimization.

Publications

  • Assessment of the Drone Arm’s Plastic–Metal Joint Mechanical Resistance Following Natural and Artificial Aging of the 3D-Printed Plastic Component

    Materials
    2025-06-01 | Journal article
    DOI: 10.3390/ma18112591
    CONTRIBUTORS: Miloš R. Vasić; Snežana Vučetić; Vesna Miljić; Miloš Vorkapić; Anja Terzić; Mladen Ćosić; Danica M. Bajić

  • Additive technology and 7R methodology in circular economy for wearable sensors production

    Journal of Engineering Management and Competitiveness
    2024 | Journal article
    DOI: 10.5937/JEMC2401071V
    CONTRIBUTORS: Miloš Vorkapić; Stefan Ilić; Marko Spasenović; Miloš Vasić; Dragan Ćoćkalo

  • Assessment of construction and demolition waste application for improving frost resistance in masonry clay units

    Science of Sintering
    2024 | Journal article
    DOI: 10.2298/SOS240711031V
    CONTRIBUTORS: Milos Vasic, R.; Anja Terzic; Marko Stojanovic; Milos Vorkapic; Dragan Bojovi

  • INCREASE OF FROST RESISTANCE OF CLAY MASONRY UNITS WITH CONSTRUCTION DEMOLITION WASTE ADDITION: A CASE STUDY

    International Journal of Modern Manufacturing Technologies
    2024 | Journal article
    DOI: 10.54684/ijmmt.2024.16.3.109

    EID:

    2-s2.0-85216944877

    Part ofISSN: 20673604
    CONTRIBUTORS: Vasić, M.; Vorkapić, M.; Bojović, D

  • PETG as an Alternative Material for the Production of Drone Spare Parts

    Polymers
    2024-10-24 | Journal article
    DOI: 10.3390/polym16212976
    CONTRIBUTORS: Marija Z. Baltić; Miloš R. Vasić; Miloš D. Vorkapić; Danica M. Bajić; Ján Piteľ; Petr Svoboda; Aleksandar Vencl

Jingjun Lin | Laser-Induced Breakdown Spectroscopy (LIBS) | Best Researcher Award

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Dr. Jingjun Lin | Laser-Induced Breakdown Spectroscopy (LIBS) | Best Researcher Award

Dr. Jingjun Lin is a Lecturer at Changchun University of Technology, specializing in laser-induced breakdown spectroscopy (LIBS) and advanced spectral analysis. He has made significant contributions to the field of spectroscopy, materials science, and machine learning-based classification techniques. As an active researcher, he has published extensively in high-impact journals, advancing applications in metal analysis, additive manufacturing, and biomedical diagnostics. With experience as a visiting scholar at Tokushima University, Japan, Dr. Lin continuously explores innovative methodologies to improve spectral detection accuracy. His interdisciplinary expertise bridges spectroscopy, physics, and artificial intelligence. ✨🔬📊

Profile

Education 🎓

  • 🏛 Ph.D. Changchun University of Technology (2015-2018), with research at Huazhong University of Science and Technology (2018)
  • 🎓 Master’s Degree Changchun University of Technology (2012-2015)
  • 🎓 Bachelor’s Degree Changchun University of Technology (2008-2012)
    Dr. Lin’s academic journey reflects a deep commitment to the study of spectroscopy, laser-induced breakdown analysis, and materials science. His research focuses on enhancing spectral analysis techniques and applying machine learning models to spectroscopy data. His Ph.D. research involved novel LIBS applications for material classification and defect detection, further refined during his studies at Huazhong University of Science and Technology. 📚🔍🎯

Experience 👨‍🏫

  • Visiting Scholar Tokushima University, Japan (2023-2024) 🌍
  • Lecturer Changchun University of Technology (2019-Present) 🏛
    Dr. Lin has been an academic professional dedicated to teaching and research in laser-induced breakdown spectroscopy (LIBS), spectroscopic data fusion, and materials analysis. His tenure as a lecturer at Changchun University of Technology involves mentoring students and leading research projects. As a visiting scholar at Tokushima University, he gained international exposure, refining his expertise in advanced laser spectroscopy and its industrial applications. 🧑‍🔬📖✨

Awards & Recognitions 🏅

Dr. Lin has received multiple research grants and recognition for his contributions to spectroscopy and analytical chemistry. His papers have been published in high-impact journals such as Analytical Methods, Journal of Analytical Atomic Spectrometry, and Talanta. His innovative work on LIBS and Raman spectroscopy fusion for lung cancer diagnosis has been acknowledged for its potential clinical applications. 🏅📜🔬

Research Interests 🔬

Dr. Lin specializes in laser-induced breakdown spectroscopy (LIBS), machine learning-enhanced spectral analysis, and multi-modal spectroscopy fusion. His work includes:

  • Metal additive manufacturing defect detection using LIBS 🏭
  • Biomedical applications, including lung cancer classification with spectroscopy 🏥
  • Data fusion of LIBS and Raman spectroscopy for improved accuracy 🤖📊
  • Spectral enhancement techniques for more precise material identification 💡
    His interdisciplinary research aims to push the boundaries of LIBS applications in industry, healthcare, and environmental monitoring. 🚀🔍

Publications