Mr. ROSHAN KUMAR | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Mr. ROSHAN KUMAR | Materials Chemistry | Best Researcher Award

Mr. ROSHAN KUMAR , Materials Chemistry , Senior Scientist at CSIR – National Metallurgical Laboratory, India

Dr. Roshan Kumar is a highly accomplished Senior Scientist at CSIR–National Metallurgical Laboratory, Jamshedpur. With an academic foundation from premier institutes like IIT Delhi and NIT Jamshedpur, he brings over a decade of research and industrial experience in materials science, mechanical design, and manufacturing. His expertise spans from engine integration design at Tata Motors to pioneering research in biodegradable implants, hydrogen energy, and advanced metallurgy at CSIR-NML. He is actively involved in national research projects including DRDO, DST, and CSIR initiatives. Known for his innovative thinking and multidisciplinary research capabilities, he has significantly contributed to the development of green hydrogen solutions and advanced manufacturing processes. Dr. Kumar is also a passionate advocate for technology-driven social change, participating in programs like Women Technology Park. With multiple publications in reputed international journals and awards to his credit, he continues to bridge academic excellence and applied engineering for societal advancement.

Professional Profile : 

Scopus 

Summary of Suitability for Award:

Dr. Roshan Kumar exemplifies the qualities of an outstanding researcher, with a strong academic background from premier institutions like IIT Delhi and NIT Jamshedpur, and over a decade of professional experience across industry and research. Currently a Senior Scientist at CSIR–National Metallurgical Laboratory, he has made significant contributions to materials research, particularly in biodegradable implants, hydrogen energy, computational modeling, and metal corrosion studies. His work bridges computational science with experimental materials design, reflecting innovation and societal relevance. Recognized with an All India Rank 3 in CSIR-NET and a Best Poster Award at an international hydrogen conference, he has authored impactful publications in high-ranking journals. His leadership in interdisciplinary CSIR and DST projects underscores his collaborative and forward-looking research approach. With a clear focus on materials science and clean energy, Dr. Kumar’s achievements demonstrate excellence, innovation, and real-world application. Dr. Roshan Kumar is highly suitable for the “Best Researcher Award”, given his exemplary track record in research innovation, publication impact, national-level project leadership, and meaningful contributions to sustainable and advanced technologies.

🎓Education:

Dr. Roshan Kumar’s educational journey showcases academic brilliance and technical depth. He earned his M.Tech in Design Engineering from Indian Institute of Technology (IIT) Delhi in 2015 with an impressive CGPA of 9.115, demonstrating strong command in mechanical design and computational engineering. He completed his B.Tech in Production Engineering and Management from NIT Jamshedpur in 2010, securing a GPA of 8.65, laying a robust foundation in manufacturing and production systems. His schooling reflects consistent academic performance with 72% in CBSE (2005) from VBCV, Jamshedpur, and 69.2% in Class X (2003) under the Jharkhand Board from SJS, Jamshedpur. His early academic achievements were further validated by an All India Rank 3 in CSIR-NET, earning him eligibility for the prestigious Shyama Prasad Mukherjee Fellowship (2013). This strong educational background has fueled his contributions to scientific research, innovation, and national R&D missions.

🏢Work Experience:

Dr. Roshan Kumar currently serves as a Senior Scientist at the Engineering Division of CSIR–NML, Jamshedpur (Dec 2019 – Present), where he leads and contributes to projects involving materials science, hydrogen energy, and biodegradable implants. Before joining CSIR, he worked as a Senior Manager at Tata Motors Limited (Sept 2015 – Nov 2019) in the Engine Integration Design department at the Engineering Research Centre, Jamshedpur. His role involved design validation, component analysis, and optimization in automotive engineering. Earlier, he began his career at Mahindra and Mahindra Limited (July 2010 – June 2011) as a Graduate Apprentice Trainee in the Engine Department at Rudrapur. Across these roles, Dr. Kumar has built a strong reputation in integrating academic research with industrial applications, especially in engine systems, manufacturing technology, and metallurgical engineering. His experience spans both applied research and industrial innovation, making him a valuable contributor to national science missions.

🏅Awards: 

Dr. Roshan Kumar has received notable recognition for his research excellence and academic accomplishments. He secured an All India Rank 3 in the CSIR-NET Examination, qualifying him for the Shyama Prasad Mukherjee Fellowship in 2013, one of the most prestigious fellowships for young researchers in India. In 2023, he was honored with the Best Poster Award at the 1st International Conference on Green Hydrogen for Global De-carbonization, recognizing his innovative work in clean energy research. His award-winning contributions span materials design, hydrogen generation, and advanced manufacturing. Additionally, his work is frequently cited and featured in reputed international journals, establishing his scholarly impact. These accolades highlight his dedication to solving global engineering challenges and his capacity to influence cutting-edge research in sustainable technologies, materials development, and design engineering. His involvement in national-level projects and active membership in multiple CSIR initiatives further solidify his reputation as a leading researcher in his field.

🔬Research Focus:

Dr. Roshan Kumar’s research is focused on materials engineering, design optimization, and clean energy technologies, with a keen interest in sustainable manufacturing. His key contributions include the development of biodegradable Mg/Zn-based implants, atomic-scale corrosion studies, and hydrogen generation through metal–water reactions. At CSIR–NML, he has led and co-led projects on machinability of Mg alloys, electroplating systems for medical applications, and weldability of high-strength steels in collaboration with DRDO and Tata Steel. His work blends computational simulations, molecular dynamics, and experimental validations to explore fracture toughness, fatigue behavior, and additive manufacturing processes. He also contributes to the CSIR Integrated Skill Training and Phenome India Health Cohort initiatives. His interdisciplinary approach leverages simulation, materials science, and product design to create real-world engineering solutions. Dr. Kumar’s work plays a pivotal role in India’s R&D landscape, especially in advancing green hydrogen energy, smart materials, and medical-grade alloys.

Publication Top Notes:

1. Atomic Investigation of Corrosion Mechanism and Surface Degradation of Fe–Cr–Ni Alloy in Presence of Water: Advanced Reactive Molecular Dynamics Simulation

Citations: 2

2. Atomistic Characterization of Multi Nano‑Crystal Formation Process in Fe–Cr–Ni Alloy During Directional Solidification: Perspective to the Additive Manufacturing

 

 

Prof. Dr. Boguslaw BUSZEWSKI | Materials Chemistry | Analytical Chemistry Award

Published on by Chemistry Awards

Prof. Dr. Boguslaw BUSZEWSKI | Materials Chemistry | Analytical Chemistry Award

Prof. Dr. Boguslaw BUSZEWSKI ,  Materials Chemistry , Head at Prof. Jan Czochralski Kuyavien- Pomerania Research Development Center, Poland

Prof. Dr. Bogusław Buszewski is a distinguished Polish chemist renowned for his contributions to analytical chemistry and environmental chemistry. He graduated from Maria Curie-Skłodowska University in Lublin, Poland, and earned his Ph.D. in 1986, followed by a Dr Sc degree in 1992. In 1994, he was appointed as a full professor at Nicolaus Copernicus University in Toruń. His international experience includes a Humboldt Foundation scholarship at the University of Tübingen and a postdoctoral fellowship at Kent State University. Prof. Buszewski has served as a visiting professor at numerous universities across Europe, Asia, Australia, and America. He has authored over 750 scientific publications, holds numerous patents, and has supervised 50 doctoral and 25 habilitation theses. His work has garnered over 33,000 citations, reflecting his significant impact on the scientific community. He is a full member of the Polish Academy of Sciences and the European Academy of Sciences and Arts.

Professional Profile : 

Orcid

Summary of Suitability for Award:

Prof. Dr. Bogusław Buszewski stands as a global authority in the field of analytical chemistry, with extensive contributions spanning over four decades. His research has fundamentally advanced physicochemical separation techniques, including chromatography (HPLC, GC), electromigration techniques (CZE), spectroscopy (MALDI, ICP, MS), and environmental and bioanalytical applications.  Prof. Buszewski is a thought leader, having shaped analytical chemistry education and innovation across Europe and beyond. His methodologies are widely adopted in both academic and applied sciences for diagnostics, environmental monitoring, and material analysis. Prof. Dr. Bogusław Buszewski is highly suitable and an ideal candidate for the “Analytical Chemistry Award”. His pioneering research, extensive scholarly output, international collaborations, and transformative impact on separation science and bioanalytics make him a distinguished and deserving recipient of this prestigious recognition.

🎓Education:

Prof. Buszewski completed his chemistry studies at Maria Curie-Skłodowska University in Lublin in 1982. He earned his Ph.D. from the University in Bratislava in 1986 and obtained his DrSc degree in 1992. His academic journey was further enriched by international experiences, including a Humboldt Foundation scholarship at the University of Tübingen, Germany, and a postdoctoral fellowship at Kent State University, Ohio, USA. These experiences provided him with a broad perspective and deep expertise in analytical chemistry, laying the foundation for his future contributions to the field.

🏢Work Experience:

Prof. Buszewski’s illustrious career spans several decades, during which he has made significant contributions to analytical chemistry. Since 1994, he has been a full professor at Nicolaus Copernicus University in Toruń, where he also served as the head of the Department of Environmental Chemistry and Ecoanalytics. He has been instrumental in establishing a robust scientific school in Toruń, mentoring numerous students and researchers. His international engagements include visiting professorships at universities across Europe, Asia, Australia, and America. Prof. Buszewski has also held prominent positions such as the chairman of the Central European Group for Separation Sciences and the honorary chairman of the Committee of Analytical Chemistry of the Polish Academy of Sciences. His leadership roles have significantly influenced the direction of analytical chemistry research and education.

🏅Awards: 

Prof. Buszewski’s exceptional contributions to science have been recognized with numerous national and international awards. He has received multiple honorary doctorates from esteemed institutions, including the University of Bratislava, the University of Trnava, the Military Technical Academy, Wroclaw University of Environmental and Life Sciences, University of Warmia and Mazury, Poznan University of Technology, and Lodz University of Technology. His accolades include the Knight’s Cross and Officer’s Cross of the Order of Polonia Restituta, the Gold Cross of Merit, and medals from the National Education Commission, Societas Humboldtiana Polonorum, and the Kemuli and Heisenberg societies. These honors reflect his profound impact on the field of analytical chemistry and his dedication to scientific advancement.

🔬Research Focus:

Prof. Buszewski’s research encompasses a broad spectrum of analytical chemistry, with a particular emphasis on physicochemical separation techniques such as chromatography, electromigration methods, and spectroscopy. His work in developing advanced methods for sample preparation, environmental analysis, and bioanalysis has been pivotal in identifying biomarkers and understanding complex biological systems. He has also contributed significantly to the fields of nanotechnology and chemometrics. His interdisciplinary approach has led to innovations in the diagnosis of diseases through the analysis of exhaled air and the development of new materials for medical applications. Prof. Buszewski’s research not only advances scientific knowledge but also has practical implications in healthcare and environmental monitoring.

Publication Top Notes:

1. Potential Clinical Application of Analysis of Bisphenols in Pericardial Fluid from Patients with Coronary Artery Disease with the Use of Liquid Chromatography Combined with Fluorescence Detection and Triple Quadrupole Mass Spectrometry

2. In Vitro and In Silico of Cholinesterases Inhibition and In Vitro and In Vivo Anti-Melanoma Activity Investigations of Extracts Obtained from Selected Berberis Species

3. Development and Validation of LC-MS/MS Method for Determination of Cytisine in Human Serum and Saliva

4. Comprehensive Study of Si-Based Compounds in Selected Plants (Pisum sativum L., Medicago sativa L., Triticum aestivum L.)

5. Determination of Some Isoquinoline Alkaloids in Extracts Obtained from Selected Plants of the Ranunculaceae, Papaveraceae and Fumarioideae Families by Liquid Chromatography and In Vitro and In Vivo Investigations of Their Cytotoxic Activity

6. Exogenously Applied Cyclitols and Biosynthesized Silver Nanoparticles Affect the Soluble Carbohydrate Profiles of Wheat (Triticum aestivum L.) Seedling

7. Determination of Selected Isoquinoline Alkaloids from Chelidonium majus, Mahonia aquifolium and Sanguinaria canadensis Extracts by Liquid Chromatography and Their In Vitro and In Vivo Cytotoxic Activity against Human Cancer Cells

8. Functional Beverages in the 21st Century

9. The Association between the Bisphenols Residues in Amniotic Fluid and Fetal Abnormalities in Polish Pregnant Women—Its Potential Clinical Application

10. Analysis of VOCs in Urine Samples Directed towards Bladder Cancer Detection

11. Comparative Study of the Potentially Toxic Elements and Essential Microelements in Honey Depending on the Geographic Origin

12. Oligonucleotides Isolation and Separation—A Review on Adsorbent Selection

13. A New Approach to Imaging and Rapid Microbiome Identification for Prostate Cancer Patients Undergoing Radiotherapy

 

Assoc. Prof. Dr. Hexin Zhang | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Assoc. Prof. Dr. Hexin Zhang | Materials Chemistry | Best Researcher Award

Assoc. Prof. Dr. Hexin Zhang , Materials Chemistry ,  Harbin Engineering University, China

Dr. Hexin Zhang is an Associate Professor and Doctoral Supervisor at the School of Materials Science and Chemical Engineering, Harbin Engineering University. She holds a Doctorate in Engineering and has developed a robust academic profile in high-temperature materials and additive manufacturing. With over 60 peer-reviewed SCI-indexed publications and five invention patents, Dr. Zhang’s work significantly contributes to the field of advanced alloys and composite materials. She has successfully led numerous prestigious projects funded by the National Natural Science Foundation of China and other provincial and institutional bodies. As a guest editor for Metals and a senior member of the Chinese Society of Composite Materials, she plays an influential role in shaping research directions. Her ongoing projects involve cutting-edge research in nano-TiC reinforced molybdenum-based superalloys. Her leadership extends to military-grade materials research, and she currently spearheads a multi-million-yuan defense technology initiative with wide application potential in marine gas turbines.

Professional Profile : 

Scopus 

Summary of Suitability for Award:

Dr. Hexin Zhang is an Associate Professor and Doctoral Supervisor at Harbin Engineering University. She holds a Doctorate in Engineering and has extensive expertise in high-temperature composite materials, superalloys, and additive manufacturing—fields of critical importance in advanced materials research.With over 60 SCI-indexed publications, 5 invention patents, and 2 authored monographs, Dr. Zhang has demonstrated consistent and significant contributions to materials science. Her work addresses both fundamental science and industrial application challenges, particularly in marine gas turbines.She serves as Guest Editor for the journal Metals, is a Senior Member of the Chinese Society for Composite Materials, and holds leadership roles in multiple national professional organizations.Dr. Hexin Zhang’s exceptional track record in high-impact research, leadership in national-level projects, patent portfolio, and editorial and professional service make her a standout candidate for the “Best Researcher Award.” Her contributions align well with the award’s objective of honoring researchers who exhibit innovation, leadership, and societal impact through their work.

🎓Education:

Dr. Hexin Zhang pursued her Doctorate in Engineering with a specialization in materials science, focusing on the mechanical behavior and processing of high-temperature alloys. Her academic training emphasized advanced manufacturing techniques including additive manufacturing (AM) and laser-based fabrication technologies. Her graduate work laid the foundation for exploring novel metal matrix composites and developing expertise in microstructural analysis, thermal stability, and mechanical performance enhancement under extreme conditions. She was trained in a multidisciplinary environment, combining theoretical materials science with practical engineering and thermodynamic modeling. As a part of her academic journey, she engaged in collaborative lab work, conference presentations, and published extensively in SCI-indexed journals, honing both technical skills and academic writing. Her formal education and consistent excellence have positioned her as a specialist in nickel-based and molybdenum-based superalloys, enabling her to tackle real-world challenges in aerospace and marine turbine applications.

🏢Work Experience:

Dr. Zhang currently serves as Associate Professor and Doctoral Supervisor at Harbin Engineering University. With extensive experience leading and contributing to key research projects, she has spearheaded over ten major scientific initiatives, including two funded by the National Natural Science Foundation of China and one basic research project targeting the processing of molybdenum-based materials. She has published over 60 high-impact SCI papers, secured 5 national patents, and authored 2 technical monographs. As the principal investigator of a military-focused project supported by the Central Military Commission, she managed a 2-million-yuan segment of a larger 7.5-million-yuan initiative. In addition to her research contributions, she serves as a guest editor for the journal Metals and has held important roles in several academic committees. Her hands-on expertise covers nano-reinforced materials, additive manufacturing, and failure analysis under thermo-mechanical fatigue.

🏅Awards: 

Dr. Hexin Zhang has received multiple accolades for her contributions to materials science and engineering. She has been honored with competitive research grants from the National Natural Science Foundation of China, a testament to her innovative work in the field. She also serves in distinguished capacities including Senior Member of the Chinese Society of Composite Materials and Director of the Ecological Civilization Branch of the China Association of Higher Education. In recognition of her academic leadership and commitment to advancing materials research, she was appointed as a Member of the Materials Gene Engineering Expert Committee of the National Materials and Devices Scientists Think Tank. Additionally, her editorial role for Metals highlights her influence in peer-reviewed publishing. Her work in defense applications of high-temperature materials has further earned her distinction in government and institutional circles.

🔬Research Focus:

Dr. Zhang’s research focuses on the design, processing, and performance of nickel-based and molybdenum-based super alloys, especially for high-temperature and corrosive environments. She specializes in additive manufacturing techniques, particularly laser selective melting and nano-TiC reinforcement, to enhance mechanical strength and thermal resistance. Her investigations include thermo-mechanical fatigue, oxidation resistance, and hot corrosion mechanisms, crucial for the development of next-generation aerospace and marine turbine materials. A highlight of her work is the innovation in laser forming of Mo-based superalloys, solving issues like brittle fracture at room temperature. Her projects, including those funded by the Central Military Commission, involve cutting-edge structural materials aimed at military propulsion systems. Dr. Zhang also integrates computational modeling and experimental validation to understand microstructural evolution and failure modes under extreme conditions.

Publication Top Notes:

1. Impact of Secondary γ’ Precipitate on the High-Temperature Creep Properties of DD6 Alloy

2. Microstructural Evolution and Its Effect on Tensile Properties of 10Cr-2W-3Co Martensitic Steel During Thermal Exposure

3. Microstructure Evolution and Mechanical Properties of Ti-6Al-4V Alloy Fabricated by Directed Energy Deposition Assisted with Dual Ultrasonic Vibration

Citations: 2

4. Effect of Powder Particle Size on the Microscopic Morphology and Mechanical Properties of 316L Stainless Steel Hollow Spheres

5. Study on Hot-Compressive Deformation Behavior and Microstructure Evolution of 12Cr10Co3MoWVNbNB Martensitic Steel

6. Lattice Disorder Driving the Electron Migration from Tetracycline to TiO₂ via Ligand-to-Metal Charge Transfer to Generate Superoxide Radical

Citations: 2

7. Hydrangea-like MnO₂@Sulfur-Doped Porous Carbon Spheres with High Packing Density for High-Performance Supercapacitor

Citations:

8. La Doped-Fe₂(MoO₄)₃ with the Synergistic Effect Between Fe²⁺/Fe³⁺ Cycling and Oxygen Vacancies Enhances the Electrocatalytic Synthesizing NH₃

9. Influence of Aging Heat Treatment on Microstructure and Mechanical Properties of a Novel Polycrystalline Ni₃Al-Based Intermetallic Alloy

Citations:

Dr. Siyao Chen | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Dr. Siyao Chen | Materials Chemistry | Best Researcher Award

Dr. Siyao Chen , Materials Chemistry , Senior research assistant at City University of Hong Kong , Hong Kong

Dr. Siyao Chen is a Senior Research Assistant at the City University of Hong Kong, specializing in additive manufacturing and polymer-derived ceramics. With an impressive track record in advanced material research, Dr. Chen has published 11 SCI-indexed papers, including two ESI highly cited works, amassing over 610 citations. He serves as an invited editor for Frontiers in Electronics and actively contributes as a peer reviewer for prestigious journals such as Aerospace Science and Technology and the Journal of the European Ceramic Society. His research has made significant strides in 3D/4D ceramic printing, smart sensors, and semiconductor applications. In addition to academic achievements, Dr. Chen has worked on two major research projects, collaborated on four industry consultancies, and is listed as an inventor on three patents. A rising figure in materials science, Dr. Chen’s work integrates cutting-edge technology with real-world applications, contributing meaningfully to the development of intelligent ceramic systems.

Professional Profile : 

Google Scholar

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Chen has published 11 SCI-indexed papers, including 2 ESI highly cited works, demonstrating high-impact contributions. One of these papers has gathered over 610 citations, a remarkable achievement for an early-career researcher. His work in additive manufacturing, polymer-derived ceramics, and intelligent electronics is not only innovative but also addresses complex, high-tech engineering challenges. These fields are critical in both academic and industrial applications. He serves as an invited editor for Frontiers in Electronics and is a reviewer for top-tier journals like Aerospace Science and Technology and Journal of the European Ceramic Society, indicating recognition by peers in his domain. With 3 patents, 4 consultancy projects, and 2 ongoing research projects, Dr. Chen demonstrates both academic excellence and practical application, bridging the gap between theory and industry. Dr. Siyao Chen’s research excellence, demonstrated by high-impact publications, innovation through patents, editorial and peer-review contributions, and cross-disciplinary industrial collaborations, clearly qualify him as an exceptional candidate for the “Best Researcher Award.” His academic rigor and applied innovation mark him as a rising leader in materials science and engineering research.

🎓Education:

Dr. Siyao Chen earned his doctoral degree from City University of Hong Kong, where he laid the foundation for his expertise in additive manufacturing and ceramic. His academic training emphasized interdisciplinary knowledge at the intersection of materials engineering, mechanical design, and electronic systems. During his time at CityU, Dr. Chen developed critical skills in vat photopolymerization, polymer-derived ceramic processing, and microstructural design of smart ceramics. His graduate research focused on fabricating high-performance ceramic sensors and coatings using 3D/4D printing methods. Throughout his education, he was actively involved in publishing high-impact articles and contributing to collaborative research teams. His studies not only strengthened his theoretical foundation but also fostered practical lab experience, laying the groundwork for his continued academic and industrial research. The combination of rigorous education and hands-on innovation shaped Dr. Chen’s academic identity and enabled him to push boundaries in the field of intelligent ceramic-based electronics.

🏢Work Experience:

Dr. Siyao Chen currently works as a Senior Research Assistant at the City University of Hong Kong, where he leads multiple research efforts in the field of additive manufacturing and ceramic electronics. Over the years, he has contributed to both academic and industrial projects, participating in four consultancy collaborations and leading two significant research endeavors. He has also acted as a project coordinator for the development of smart ceramic sensors, coating systems, and semiconductor devices. His work includes guiding junior researchers, managing experimental workflows, and contributing to grant applications. Dr. Chen serves as a peer reviewer for several SCI-indexed journals and as an invited editor for Frontiers in Electronics, showcasing his academic authority. His multi-disciplinary experience, spanning ceramics, polymer chemistry, and semiconductor devices, equips him to work across diverse research environments. His consistent performance and hands-on innovation have made him a valuable member of the advanced materials research community.

🏅Awards: 

Although early in his career, Dr. Siyao Chen has achieved notable recognition in his field. He is the recipient of multiple citations in high-impact journals, including two ESI Highly Cited Papers — a significant mark of influence and excellence in scholarly research. His publication in Materials Science and Engineering: R: Reports alone has gathered over 550 citations. Additionally, he was invited to join the editorial board of Frontiers in Electronics, a testament to his research integrity and subject matter expertise. His role as a reviewer for high-tier journals such as the Journal of the European Ceramic Society and Aerospace Science and Technology also highlights his academic credibility. Dr. Chen’s patent contributions and collaboration in industrial projects demonstrate the practical impact of his work. With a growing reputation in the materials science community, he is an emerging leader in ceramic additive manufacturing and intelligent electronics.

🔬Research Focus:

Dr. Chen’s primary research interests lie in additive manufacturing, polymer-derived ceramics, and semiconductor applications. He focuses on the design and processing of smart ceramic materials using 3D/4D printing technologies. His work bridges traditional ceramics with modern electronics, enabling innovations in reconfigurable structures, temperature sensors, and electromagnetic devices. A key area of interest is the development of lightweight, high-performance ceramics with tunable properties, particularly for sensing, actuation, and aerospace applications. His recent projects explore vat photopolymerization for SiCN and SiBCN-based ceramics, real-time material behavior modeling, and coating technologies for extreme environments. He is also involved in stimuli-responsive material systems, contributing to the advancement of intelligent electronics. His interdisciplinary research integrates materials engineering, electronic design, and digital fabrication, offering scalable and programmable material solutions for future smart systems. By combining structural innovation with electronic functionality, Dr. Chen aims to reshape how materials are conceived and manufactured.

Publication Top Notes:

Title: Additive manufacturing of structural materials
Citations: 572

Title: Lightweight and geometrically complex ceramics derived from 4D printed shape memory precursor with reconfigurability and programmability for sensing and actuation applications
Citations: 43

Title: Fabrication of polymer-derived SiBCN ceramic temperature sensor with excellent sensing performance
Citations: 17

Title: Fabrication of electrical semi-conductive SiCN ceramics by vat photopolymerization
Citations: 8

Title: 3D/4D additive–subtractive manufacturing of heterogeneous ceramics
Citations: 5

Title: Temperature and frequency dependent conductive behavior study on polymer-derived SiBCN ceramics
Citations: 3

Title: Novel anti-oxidation coating prepared by polymer-derived ceramic for harsh environments up to 1200°C
Citations: 2

Title: Real-time Bayesian model calibration method for C/SiC mechanical behavior considering model bias
Citations: 1

Title: Recent advances in stimuli-responsive materials for intelligent electronics

Title: Oxidation behavior of TiB2 from 600–1400°C considering microstructure evolution, oxidation kinetics, and mechanisms

Title: Evolution of dielectric properties of SiBCN ceramics and its derived wireless passive temperature sensor application

Dr. Hyun Jung Lee | Materials chemistry | Best Researcher Award

Published on by Chemistry Awards

Dr. Hyun Jung Lee | Materials chemistry | Best Researcher Award

Dr. Hyun Jung Lee, Materials chemistry, Korea Institute of Fusion Energy, South Korea

Dr. Hyunjung Lee is a distinguished physicist and Principal Investigator at the Korea Institute of Fusion Energy (KFE) in Daejeon, South Korea. With a Ph.D. in Physics from Kyungpook National University, she has over two decades of research expertise in superconducting magnet systems, cryogenics, and fusion technology. She has made vital contributions to flagship projects like KSTAR, K-DEMO, and ITER, leading multi-million-dollar development efforts. A committed advocate for women in STEM, she represents Korea at international physics conferences and plays key roles in national scientific committees. Dr. Lee has authored over 60 peer-reviewed publications and continues to lead innovative research on high-field magnet design, quench analysis, and thermo-hydraulics. Her contributions significantly advance global nuclear fusion efforts, showcasing both technical excellence and visionary leadership.

Professional Profile :         

Scopus 

Summary of Suitability for Award:

Dr. Hyunjung Lee is a highly accomplished researcher with a robust and diverse academic and professional background in fusion energy and superconductivity. She has extensive experience in superconducting magnet systems and cryogenic technologies, leading significant projects like the development of superconducting magnets for the K-DEMO and KSTAR fusion reactors. As a principal investigator at the Korea Institute of Fusion Energy (KFE), her work involves cutting-edge research in fusion physics, including the design, analysis, and operational stability of superconducting magnets. Dr. Hyunjung Lee is undoubtedly a suitable candidate for the “Best Researcher Award”, due to her impactful research, leadership in large-scale international projects, and her contributions to the advancement of fusion energy technology. Her innovative work in superconducting magnet systems has advanced both scientific understanding and practical applications in fusion energy, making her an outstanding candidate for this prestigious award.

🎓Education:

Dr. Hyunjung Lee completed her Ph.D. in Physics at Kyungpook National University, Daegu, South Korea, in 2003. Her doctoral research focused on the behavior of materials in extreme magnetic fields and low temperatures, setting the stage for her future work in superconducting systems. Prior to that, she earned her B.S. in Physics from Daegu University in 1997. Her strong academic foundation enabled her to transition seamlessly into high-level research, with early postdoctoral training at the Korea Basic Science Institute (KBSI). Dr. Lee’s educational background reflects a deep commitment to fundamental physics, with an application-driven focus on fusion energy systems and superconducting technologies. Her continuous engagement with advanced analytical and cryogenic systems throughout her education laid the groundwork for her leadership in magnet design and thermo-hydraulic simulation for nuclear fusion applications.

🏢Work Experience:

Dr. Lee began her career as a Postdoctoral Associate (2003–2006) at the Korea Basic Science Institute (KBSI), where she researched material properties under extreme conditions. She then joined the Korea Institute of Fusion Energy (KFE) in 2006, advancing from Senior Researcher to Principal Investigator. From 2006–2013, she focused on thermo-hydraulic and quench analysis for KSTAR and K-DEMO superconducting magnets. Between 2013–2015, she contributed to cryogenic system design for the RAON project. From 2016–2018, she also served as an Associate Professor at the University of Science and Technology (UST), teaching accelerator and fusion physics. Her key achievements include designing 16T superconducting magnets, establishing experimental facilities (~$30 million), and collaborating with global fusion initiatives such as ITER, ENEA, and General Atomics. She is currently a leading figure in Korea’s national fusion reactor (K-DEMO) magnet program and a central voice in international fusion technology forums.

🏅Awards: 

While Dr. Hyunjung Lee’s CV does not list specific named awards, her achievements are reflected through her prestigious roles, international collaborations, and scientific committee appointments. She serves as an Executive Officer in the Korean Physical Society’s Academic and Women’s Committees (2021–present), showcasing her leadership in Korea’s physics community. She has been a Mentoring Fellow of the Korea Foundation for Women in Science and Technology (2008–2020), guiding the next generation of scientists. Her appointment to the Peaceful Unification Advisory Council (2015–2017) reflects national recognition beyond science. Dr. Lee frequently represents Korea in international conferences, including the International Conference on Women in Physics and the Magnet Technology Conference, evidencing her global stature. Her research is highly regarded in fusion communities and continues to influence policies and project planning at the international level. Her awards lie in the transformative impact of her research and leadership across nuclear fusion initiatives.

🔬Research Focus:

Dr. Hyunjung Lee’s research is centered on superconducting magnet systems and cryogenic thermo-hydraulics for nuclear fusion reactors. Her core contributions span magnet design, quench analysis, and the establishment of fusion magnet experimental infrastructure. A key architect of Korea’s K-DEMO and KSTAR fusion magnet programs, she focuses on developing high-field (up to 16T) superconducting magnets and advanced quench protection mechanisms. Her work includes detailed thermo-hydraulic modeling, AC loss analysis, and cooling loop simulations to ensure cryogenic stability. She also leads international collaboration on magnet technologies with partners like ITER, ENEA, and General Atomics. Dr. Lee has also contributed to the RAON rare isotope accelerator project, analyzing cryogenic systems for linear accelerators. Her research directly advances fusion energy’s feasibility, offering safe, efficient, and scalable superconducting systems for future reactors. She is a thought leader in fusion technology development, particularly in enabling long-term stability of superconducting devices under high-stress operations.

Publication Top Notes:

Design Updates of a Fusion Superconducting Conductor Test Facility Magnet (SUCCEX)

Assessment of KSTAR Nb₃Sn Superconducting Magnet Property After Long-Term Operation Since 2008

Effect of Flow Imbalance on the Operational Performance of the KSTAR PF1UL Magnets

Design Updates and Thermo-Hydraulic Analysis of K-DEMO CS Magnets

Thermo-Hydraulic Analysis of the KSTAR PF Cryogenic Loop Using SUPERMAGNET Code

Citations: 1​

 

Prof. Qinghui Zeng | Materials Chemistry | Medical Chemistry Award

Published on by Chemistry Awards

Prof. Qinghui Zeng | Materials Chemistry | Medical Chemistry Award

Prof. Qinghui Zeng | Materials Chemistry | professor at Changchun University of Chinese Medicine ,China

Prof. Qinghui Zeng is a distinguished researcher in fluorescent nanomaterials, biomarkers, and medical immunodetection. He has pioneered advancements in fluorescence resonance energy transfer (FRET), quantum dots, and gold nanorods for biomedical applications. His groundbreaking work includes using fluorescent carbon dots for targeted drug delivery and fluorescence tracing, as well as developing spinal endoscopes and other medical instruments. With over 75 SCI-indexed publications and 23 national and international patents, he has made significant contributions to nanomedicine and optoelectronic devices. His work has been recognized with multiple awards, including the Jilin Provincial Natural Science Academic Achievement Award.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Prof. Qinghui Zeng is highly suitable for the “Medical Chemistry Award” due to his groundbreaking contributions to nanomaterials, optoelectronic biosensors, and biomedical applications. His research in fluorescent nanomaterials, fluorescence resonance energy transfer (FRET), and targeted drug delivery has had a profound impact on medical diagnostics and therapeutics. His pioneering work on quantum dots, gold nanorods, and carbon dots has led to significant advancements in biosensing, molecular imaging, and cancer treatment. Additionally, his expertise in nanotechnology-driven drug delivery systems has enabled real-time fluorescence tracking of therapeutic agents, improving precision medicine. Prof. Qinghui Zeng’s extensive contributions to medical chemistry and nanomedicine make him an outstanding candidate for the “Medical Chemistry Award”. His work has pushed the boundaries of biomedical research, leading to practical applications in diagnostics, targeted therapy, and medical instrumentation. His innovations in fluorescent nanomaterials, optoelectronic biosensors, and drug delivery systems have significantly enhanced the precision and efficiency of medical treatments. Given his exceptional academic and professional achievements, Prof. Zeng is highly deserving of this recognition.

🎓Education:

Prof. Qinghui Zeng holds a strong academic background in chemistry and materials science, specializing in biomedical nanotechnology. He earned his undergraduate and master’s degrees in chemistry, followed by a Ph.D. in materials for biomedical applications. His academic journey has been marked by innovative research on nanomaterials, bioimaging, and targeted drug delivery. His doctoral research focused on fluorescence enhancement using metal plasma fields, laying the foundation for his groundbreaking work in FRET-based biosensing and nanomedicine. He has furthered his expertise through postdoctoral research in nanobiotechnology, collaborating with leading institutions in China.

🏢Work Experience:

Prof. Zeng has an extensive academic and research career at Changchun University of Chinese Medicine and the Northeast Asia Institute of Chinese Medicine. With over 15 years of experience, he has led multiple national and provincial research projects, including two from the National Natural Science Foundation of China. His expertise spans fluorescent nanomaterials, optoelectronic devices, and medical immunodetection. As a principal investigator, he has supervised numerous Ph.D. and master’s students, contributing significantly to biomedical research. He is also involved in industry collaborations, bringing innovative nanotechnology-based solutions to healthcare.

🏅Awards: 

Prof. Qinghui Zeng has been widely recognized for his outstanding contributions to nanomaterials, optoelectronics, and biomedical research. He has received the Second Prize of Jilin Provincial Natural Science Academic Achievement Award, acknowledging his pioneering work in fluorescent nanomaterials and medical immunodetection. Additionally, he was honored with the Eighth Changbai Youth Science and Technology Prize for his innovative research in fluorescence resonance energy transfer (FRET) and quantum dot-based biosensors. Over the years, he has won a total of four prestigious scientific research awards, recognizing his excellence in biomedical applications of nanotechnology. His leadership in research has led to his role as the principal investigator for multiple national and provincial-level projects, including two funded by the National Natural Science Foundation of China. His groundbreaking work in targeted drug delivery and advanced medical instrumentation has significantly advanced the field of nanomedicine and bioimaging.

🔬Research Focus:

Prof. Zeng’s research primarily focuses on fluorescent nanomaterials, optoelectronic devices, and biomedical applications. His work on fluorescence resonance energy transfer (FRET) has enhanced the efficiency of biosensing and molecular imaging, leading to significant advancements in medical diagnostics. He has extensively worked with quantum dots and gold nanorods, developing multi-marker immunoassays for rapid and sensitive disease detection. His pioneering studies on fluorescent carbon dots have led to groundbreaking applications in targeted drug delivery and fluorescence-based cancer therapy, enabling real-time tracking of drug release within cancer cells. Furthermore, he has contributed to the development of spinal endoscopes and other advanced medical instruments, integrating nanotechnology with minimally invasive medical procedures. His innovative approach to optoelectronic biosensors and nanomaterial-based drug carriers has positioned him as a leading researcher in biomedical nanotechnology, bridging the gap between materials science and clinical medicine.

Publication Top Notes:

Title: A general synthesis method for small-size and water-soluble NaYF4:Yb, Ln upconversion nanoparticles at high temperature

Title: Highly Stable Core/Shell AgIn5S8/ZnS Quantum Dots for Pure White Light-Emitting Diodes

Citations: 2

Title: Ultra-small-size, highly efficient and stable CsPbBr3 quantum dots synthesized by using a cesium-dodecyl benzene sulfonic acid solution

Citations: 13

Title: Spectrally Stable Blue Light-Emitting Diodes Based on All-Inorganic Halide Perovskite Films

Citations: 6

Title: Flexible Quantum-Dot Color-Conversion Layer Based on Microfluidics for Full-Color Micro-LEDs

Citations: 13

Title: Synthesis of carbon dots with strong luminescence in both dispersed and aggregated states by tailoring sulfur doping

Citations: 42

Title: Research on the influence of polar solvents on CsPbBr3 perovskite QDs

Citations: 42