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

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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.

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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​

 

Dr. Halligudra Guddappa | Materials Chemistry | Best Researcher Award

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Dr. Halligudra Guddappa | Materials Chemistry | Best Researcher Award

Dr. Halligudra Guddappa | Materials Chemistry | Assistant Professor at ATME College of Engineering, India

Dr. Halligudra Guddappa is an accomplished Assistant Professor & Research Faculty in the Department of Chemistry at ATMECE, Mysuru, India. A gold medalist in Chemistry and a DST-INSPIRE Fellow, he has made significant contributions to nanochemistry, catalysis, and analytical chemistry. His expertise lies in nanostructured metal/metal oxide-based catalysts for organic transformations. With a strong background in teaching and research, he actively mentors students and secures research grants. Dr. Guddappa has presented at international conferences, winning awards for his outstanding research presentations. His industrial exposure at ITC R&D further enhances his applied scientific approach. Passionate about interdisciplinary research, he continues to contribute through peer-reviewed publications, book chapters, and patents. His dedication to innovative material development and sustainable chemistry makes him a recognized figure in the field.

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Summary of Suitability for Award:

Dr. Halligudra Guddappa is an exceptionally accomplished researcher in chemistry, specializing in nanochemistry, catalysis, and green chemistry. With a Ph.D. in Chemistry from VTU, Muddenahalli, and a DST-INSPIRE Fellowship (Government of India), his academic excellence and research contributions are highly commendable. His work in nanostructured metal/metal oxide catalysts has made a significant impact on sustainable catalysis, pollutant degradation, and energy storage applications.  Additionally, Dr. Guddappa has received several prestigious accolades, including the Gold Medal for securing the 1st Rank in M.Sc. Chemistry, multiple Best Poster Presentation Awards at international conferences, and the Best Flash Talk Presentation Award.  Dr. Halligudra Guddappa’s academic excellence, innovative research in nanotechnology and catalysis, numerous awards, and contributions to sustainable chemistry make him a strong contender for the “Best Researcher Award”. His ability to bridge fundamental research with practical applications, secure research funding, and mentor future scientists is truly commendable. Awarding him this recognition would not only honor his outstanding contributions but also motivate further advancements in nanochemistry and catalysis research.

🎓Education:

Dr. Halligudra Guddappa holds a Ph.D. in Chemistry from Visvesvaraya Technological University (VTU), Muddenahalli, India (2017-2023), where he specialized in nanostructured metal/metal oxide-based catalysts for organic transformations. His research during this period contributed significantly to catalysis and nanomaterial applications. Prior to his Ph.D., he completed his M.Sc. in Analytical Chemistry (2012-2014) from Davangere University, where he graduated with distinction and was awarded a Gold Medal for securing the 1st rank in the university. During this time, he developed expertise in analytical techniques and material characterization methods. He pursued his B.Sc. in Physics, Chemistry, and Mathematics (2009-2012) from A.D.B First Grade College, Harapanahalli, affiliated with Davangere University, securing First Class with Distinction. Additionally, in 2020, he qualified the Karnataka State Eligibility Test (K-SET) in Chemistry, further demonstrating his strong academic and research foundation. His educational background has equipped him with a robust understanding of nanochemistry, catalysis, and analytical sciences.

🏢Work Experience:

Dr. Halligudra Guddappa is currently serving as an Assistant Professor and Research Faculty in the Department of Chemistry at ATMECE, Mysuru, India (August 2023 – Present). His responsibilities include teaching undergraduate students, mentoring research projects, publishing scientific papers, and securing research grants. Before this, he worked as a DST-INSPIRE Fellow at VTU, Muddenahalli (2017-2023), where he conducted groundbreaking research on nanostructured metal/metal oxide-based catalysts for organic reactions. As a research scholar, he was also involved in guiding B.Tech. and M.Tech. students, organizing workshops, and presenting at international conferences. His early research experience includes working as a Project Trainee at ITC R&D, Bengaluru (July-Nov 2014 & Jan-Feb 2014), where he focused on sample preparation techniques, residue analysis, and chromatographic methods for food safety applications. With a strong academic and industrial research background, he continues to make significant contributions to nanotechnology, green chemistry, and catalysis research.

🏅Awards: 

Dr. Halligudra Guddappa has received numerous prestigious awards in recognition of his academic excellence and research contributions. He was honored with the Best Flash Talk Presentation Award at IVaccT-2021, held at PDA College of Engineering, Kalaburagi. His research on nanomaterials and catalysis has earned him multiple Best Poster Presentation Awards, including at the TEQIP-III International Conferences MESSAGE-2019 and NESARA-2019 at VTU, Muddenahalli. He was selected as a Visiting Scholar under the Knowledge Exchange Program at Aryabhata Knowledge University, Bihar, further expanding his research collaborations. A major milestone in his career was being awarded the DST-INSPIRE Fellowship (2017) by the Department of Science and Technology, Government of India, which supported his doctoral research in nanochemistry and catalysis. In 2014, he received a Gold Medal for securing the 1st Rank in M.Sc. Chemistry at Davangere University. His role as a Master Trainer in Nanomaterials Synthesis and Device Fabrication at VTU highlights his expertise in advanced material science.

🔬Research Focus:

Dr. Halligudra Guddappa’s research focuses on nanochemistry, catalysis, and green chemistry, particularly the synthesis, characterization, and application of nanostructured metal/metal oxide-based catalysts for organic transformations. His work contributes to the development of sustainable and efficient catalytic systems, reducing the environmental impact of chemical processes. He is also actively engaged in energy storage applications, chemical sensing, and pollutant degradation using nanomaterials. His expertise extends to chromatographic techniques and food safety analysis, integrating analytical chemistry with nanoscience. Through his research, he has contributed to the advancement of green synthetic methodologies, novel catalyst design, and material science applications. His interdisciplinary approach bridges chemistry, material science, and environmental applications, making his research highly relevant for industry and academia. He is committed to publishing high-impact research, mentoring young scientists, and securing funding for innovative projects in nanotechnology, catalysis, and sustainable chemistry.

Publication Top Notes:

1. Silver nanoparticles synthesized using saponin extract of Simarouba glauca oil seed meal as effective, recoverable and reusable catalyst for reduction of organic dyes

Citations: 46

2. Pd(II) on Guanidine-Functionalized Fe₃O₄ Nanoparticles as an Efficient Heterogeneous Catalyst for Suzuki–Miyaura Cross-Coupling and Reduction of Nitroarenes

Citations: 38

3. Copper zinc tin sulfide and multi-walled carbon nanotubes nanocomposite for visible-light-driven photocatalytic applications

Citations: 30

4. Magnetic Fe₃O₄ supported MoS₂ nanoflowers as catalyst for the reduction of p-nitrophenol and organic dyes and as an electrochemical sensor for the detection of pharmaceutical compounds

Citations: 25

5. Silver nanoparticles anchored TiO₂ nanotubes prepared using saponin extract as heterogeneous and recyclable catalysts for reduction of dyes

Citations: 25

6. Study on the DC supply and charging effect on the growth of carbon nanotubes and their electrochemical properties

Citations: 9

7. Imidazole-centred cupric ions sensor: experimental validation, theoretical understanding, and zebrafish bioimaging

Citations: 8

8. Electrochemical investigation of Fe₃O₄/TNT/PANI composites for enhanced supercapacitor applications

Citations: 8

9. Cu(II) immobilized on guanidine functionalized Fe₃O₄ magnetic substrate as a heterogeneous catalyst for selective reduction of nitroarenes

Citations: 7

10. Magnetic photocatalytic systems (Book Chapter)

Citations: 6

11. Photocatalytic Systems by Design: Materials, Mechanisms and Applications (Book)

Citations: 4

12. Imidazole-Thiazole Based Dual Chemosensor for Cu²⁺ and Co²⁺ Ions with Identical Excitation Wavelength and Colorimetric TFA Sensing, Theoretical Validation

Citations: 1

Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Best Researcher Award

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Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Best Researcher Award

Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Assistant professor at Amirkabir University of Technology , Iran

Dr. Arman Zarebidaki is an Assistant Professor and Head of the Corrosion Engineering and Material Protection Group at Amirkabir University of Technology (Tehran Polytechnic), Bandarabbas Campus, Iran. With a strong background in materials engineering, electrochemistry, and surface engineering, his research focuses on advanced coatings for corrosion protection, hydrogen evolution, and oxygen evolution reactions. He has extensive experience in electrochemical techniques such as polarization methods, voltammetry, and impedance spectroscopy. Dr. Zarebidaki has supervised over 25 master’s theses and has authored multiple high-impact journal articles. He holds three national patents in corrosion prevention and is recognized for his contributions to sustainable energy technologies and industrial material protection.

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Summary of Suitability for Award:

Dr. Arman Zarebidaki is a highly accomplished researcher in materials science, electrochemistry, and surface engineering, making him an exceptional candidate for the “Best Researcher Award”. His research spans crucial areas such as corrosion protection, electrocatalysis, and advanced coating technologies, which have significant industrial and environmental applications. His high-impact publications, extensive teaching experience, and contributions to innovative material protection methods demonstrate his leadership in the field. He has also secured three national patents, reflecting his ability to translate research into practical solutions. Recognized as the Top Researcher in Hormozgan Province (2023) and a Distinguished Researcher at Azad University (2015), his accolades further establish his excellence in scientific innovation. Dr. Zarebidaki’s outstanding research in corrosion-resistant coatings, electrochemical energy applications, and material durability makes him a strong contender for the “Best Researcher Award”. His work not only advances scientific knowledge but also has direct implications for industry and sustainability, positioning him among the top researchers in his field.

🎓Education:

Dr. Arman Zarebidaki holds a Ph.D. in Metallurgical & Materials Engineering from the University of Tehran (2006–2012), where he investigated the tribo-corrosion behavior of Ni-P electroless coatings with SiC nanoparticles and carbon nanotubes. His doctoral research resulted in multiple high-impact publications. Prior to that, he earned an M.S. in Metallurgical & Materials Engineering from the University of Tehran (2003–2006), focusing on optimizing and characterizing Al/Gr composites produced by in-situ powder metallurgy. His master’s research led to a Q2-ranked ISI publication. He completed his B.S. in Materials Engineering-Industrial Metallurgy at Azad University, Yazd Branch (1998–2003), where he studied surface hardening of cast iron using the TIG process. Throughout his academic journey, he maintained outstanding GPAs and received multiple accolades for his research excellence. His extensive educational background laid the foundation for his expertise in materials engineering, corrosion protection, and advanced electrochemical methods.

🏢Work Experience:

Dr. Arman Zarebidaki is an Assistant Professor at Amirkabir University of Technology, where he has been leading the Corrosion Engineering and Material Protection Group since 2023. He has been actively involved in teaching courses such as oxidation and hot corrosion, corrosion inhibitors, and advanced electrochemistry laboratory techniques. Prior to this, he served as an Assistant Professor at Azad University, Yazd Branch (2008–2014), where he taught advanced electrochemistry, cathodic & anodic protection, and corrosion science. With over 25 master’s theses supervised, he has contributed significantly to the field of corrosion and electrocatalysis . His expertise includes deposition techniques for coatings and nanocomposite materials, corrosion assessments, and electrochemical analysis. He is proficient in methods such as cyclic voltammetry, linear sweep voltammetry, and electrochemical impedance spectroscopy. His research extends to nanotube production via anodizing, corrosion inhibition using green inhibitors, and the development of protective coatings for industrial applications.

🏅Awards: 

Dr. Arman Zarebidaki has received several prestigious awards throughout his career. In 2023, he was recognized as the Top Researcher in technical and engineering fields in Hormozgan province. He was also named a Distinguished Researcher by the Deputy of Education and Technology at Islamic Azad University, Yazd Branch, in 2015. His exceptional teaching abilities earned him the Exemplary Professor Award in 2014. Additionally, his Ph.D. thesis was awarded as a Superior Dissertation at the University of Tehran in 2012. As an M.Sc. student, he ranked 1st among 50 peers in the Department of Material Science and Engineering. His contributions to the field of corrosion prevention and control are further highlighted by three national patents, including innovations in self-healing epoxy coatings, corrosion-fatigue assessment apparatus, and electroless coatings for oil and gas steel equipment, demonstrating his commitment to advancing materials engineering and corrosion protection technologies.

🔬Research Focus:

Dr. Arman Zarebidaki’s research centers on materials engineering, electrochemistry, and surface engineering, with a strong emphasis on developing advanced coatings to enhance material durability and performance. His work involves designing metallic, composite, and nanocomposite coatings for industrial applications, particularly for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), aiming to improve the efficiency of electrolysis in hydrogen and oxygen production. He specializes in electrochemical characterization techniques, including polarization methods, linear sweep voltammetry, cyclic polarization, and electrochemical impedance spectroscopy (EIS), to analyze corrosion resistance and material degradation. Additionally, he investigates electrocatalysis mechanisms and surface chemistry to develop sustainable energy solutions. His expertise extends to nanotube production through anodizing, corrosion inhibitors, and smart coatings. His contributions help address global challenges related to energy sustainability, environmental protection, and climate change, making his research pivotal in the advancement of corrosion-resistant and energy-efficient materials.

Publication Top Notes:

Influence of graphite content on the dry sliding and oil impregnated sliding wear behavior of Al 2024–graphite composites produced by in situ powder metallurgy method

Citations: 396

An investigation on effects of heat treatment on corrosion properties of Ni–P electroless nano-coatings

Citations: 166

Effect of surfactant on the fabrication and characterization of Ni-P-CNT composite coatings

Citations: 104

Characterization and corrosion behavior of electroless Ni–P/nano-SiC coating inside the CO2 containing media in the presence of acetic acid

Citations: 96

The effect of sliding speed and amount of loading on friction and wear behavior of Cu–0.65 wt.% Cr alloy

Citations: 47

Microstructure and corrosion behavior of electrodeposited nano-crystalline nickel coating on AZ91 Mg alloy

Citations: 46

Evaluation of corrosion inhibition of mild steel in 3.5 wt% NaCl solution by cerium nitrate

Citations: 43

Electrodeposition and characterization of Co–BN (h) nanocomposite coatings

Citations: 42

An experimental study on stress corrosion behavior of A131/A and A131/AH32 low carbon steels in simulated seawater

Citations: 28

Porosity measurement of electroless Ni–P coatings reinforced by CNT or SiC particles

Citations: 28

 

Prof. Dr. Vânia Caldas Sousa | Materials Chemistry | Material Chemistry Award

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Prof. Dr. Vânia Caldas Sousa | Materials Chemistry | Material Chemistry Award

Prof. Dr. Vânia Caldas Sousa | Materials Chemistry | Professor at UFRGS/DEMAT , Brazil 

Vânia Caldas de Sousa is a distinguished Professor Titular at the Universidade Federal do Rio Grande do Sul (UFRGS), Brazil. She specializes in materials engineering, with a focus on non-metallic materials, ceramics, and advanced processing techniques. With a prolific research career spanning decades, she has contributed significantly to the synthesis of ceramic materials, particularly in ZnO-based varistors and refractory composites. She has conducted postdoctoral research at renowned institutions such as the University of California, Davis, Instituto de Cerámica y Vidrio (Spain), and Universidade Federal de São Carlos (UFSCar). Her work has been widely recognized through numerous publications, research projects, and academic contributions. She has played a key role in mentoring young researchers and developing innovative approaches in materials engineering. As an active academic, she has been dedicated to advancing knowledge in ceramic materials, their processing, and their applications in various engineering fields.

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Summary of Suitability for Award:

Dr. Vânia Caldas de Sousa is a distinguished researcher in Materials Chemistry, specializing in ceramics, varistors, and composite materials. With a Ph.D. in Science and Engineering of Materials from the Federal University of São Carlos (UFSCar), her research has significantly advanced the synthesis and processing of ceramic materials. Her expertise in combustion synthesis, refractory materials, and electrical ceramics aligns perfectly with the award’s focus on innovative contributions to materials chemistry. Dr. Vânia Caldas de Sousa is highly suitable for the “Material Chemistry Award” due to her extensive research in materials chemistry, particularly in ceramic materials, varistors , and chemical synthesis techniques. Her academic leadership, international collaborations, and impactful publications make her an outstanding candidate for this prestigious recognition.

🎓Education:

Vânia Caldas de Sousa holds a Ph.D. in Materials Science and Engineering from Universidade Federal de São Carlos (UFSCar), Brazil, where she worked on the synthesis of ZnO-based varistors through combustion reaction techniques. Her doctoral research significantly contributed to understanding chemical synthesis methods for ceramic materials. She earned her master’s degree from the same institution, focusing on the preparation and characterization of mullite-cordierite composites for refractory applications. She completed her undergraduate degree in Materials Engineering at Universidade Federal da Paraíba (UFPB), where she developed a strong foundation in materials science and processing. Throughout her academic journey, she has pursued multiple short courses and training programs, covering topics such as biomaterials, ceramic processing, phase diagrams, and surface analysis. Her continuous academic development has been complemented by postdoctoral research experiences at leading global institutions, enhancing her expertise in advanced materials engineering and ceramic technologies.

🏢Work Experience:

Vânia Caldas de Sousa is a Professor Titular at Universidade Federal do Rio Grande do Sul (UFRGS), where she leads research in materials science, particularly focusing on ceramic materials, synthesis techniques, and powder processing. She has held this position for several years, actively contributing to research and academic programs. She has taught courses at both undergraduate and postgraduate levels, including subjects like Advanced Ceramics, Science of Materials, and Mechanical Construction Materials. Additionally, she has mentored numerous graduate students in research projects related to ceramic materials and their applications. Her international research collaborations have included postdoctoral stints at the University of California, Davis, and Instituto de Cerámica y Vidrio (Spain). She has also been involved in various funded research projects, contributing to advancements in materials engineering, and has worked extensively on developing innovative ceramic materials with applications in energy storage, electronics, and structural components.

🏅Awards: 

Vânia Caldas de Sousa has received multiple awards and recognitions for her contributions to materials science and engineering. She has been honored with research grants and fellowships from esteemed organizations, including the Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) and the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq). Her research excellence has been acknowledged through invitations to speak at international conferences and workshops. She has been recognized for her outstanding mentorship of graduate students, fostering innovation and development in ceramic materials. Her work has been featured in prestigious scientific journals, and she has received distinctions for her contributions to the advancement of non-metallic materials. Through her active involvement in academia, she has played a crucial role in shaping the future of materials engineering, earning respect and accolades from the scientific community.

🔬Research Focus:

Vânia Caldas de Sousa’s research revolves around the synthesis, processing, and characterization of ceramic materials. She specializes in powder synthesis techniques, including combustion reactions, for developing high-performance ceramics. Her work has contributed significantly to the understanding of ZnO-based varistors, which are essential for electronic applications. She is also deeply involved in the study of refractory materials, particularly mullite-cordierite composites, for high-temperature applications. Another key aspect of her research is the development of advanced ceramic processing techniques, including thermal analysis and phase equilibrium studies. Her investigations into the electrical and optical properties of inorganic materials have further expanded the applications of engineered ceramics. She collaborates with international institutions to explore innovative solutions in materials science, emphasizing energy efficiency, sustainability, and industrial applications of ceramic materials. Her research aims to bridge the gap between fundamental science and technological advancements in material engineering.

Publication Top Notes:

Characterization of silica produced from rice husk ash: comparison of purification and processing methods

Authors: IJ Fernandes, D Calheiro, FAL Sánchez, ALD Camacho, TLAC Rocha, VC Sousa

Citations: 189

Year: 2017

Combustion synthesized ZnO powders for varistor ceramics

Authors: VC Sousa, AM Segadaes, MR Morelli, R Kiminami

Citations: 179

Year: 1999

Recent research developments in SnO2-based varistors

Authors: MR Cássia-Santos, VC Sousa, MM Oliveira, FR Sensato, WK Bacelar, …

Citations: 105

Year: 2005

Magnetic and Mössbauer behavior of the nanostructured MgFe2O4 spinel obtained at low temperature

Authors: S Da Dalt, AS Takimi, TM Volkmer, VC Sousa, CP Bergmann

Citations: 95

Year: 2011

The effect of Ta2O5 and Cr2O3 on the electrical properties of TiO2 varistors

Authors: VC Sousa, ER Leite, JA Varela, E Longo

Citations: 59

Year: 2002

Combustion process in the synthesis of ZnO–Bi2O3

Authors: VC de Sousa, MR Morelli, RHG Kiminami

Citations: 58

Year: 2000

Physical, chemical and electric characterization of thermally treated rice husk ash and its potential application as ceramic raw material

Authors: IJ Fernandes, FAL Sánchez, JR Jurado, AG Kieling, TLAC Rocha, VC Sousa

Citations: 56

Year: 2017

Influence of fuel on morphology of LSM powders obtained by solution combustion synthesis

Authors: DP Tarragó, C de Fraga Malfatti, VC de Sousa

Citations: 48

Year: 2015

Study of structural and optical properties of ZnO nanoparticles synthesized by an eco-friendly tapioca-assisted route

Authors: WL de Almeida, NS Ferreira, FS Rodembusch, VC de Sousa

Citations: 38

Year: 2021

Eco-friendly and cost-effective synthesis of ZnO nanopowders by Tapioca-assisted sol-gel route

Authors: WL de Almeida, FS Rodembusch, NS Ferreira, VC de Sousa

Citations: 34

Year: 2020

Microstructure and electrical properties of (Ta, Co, Pr) doped TiO2 based electroceramics

Authors: VC Sousa, MM Oliveira, MO Orlandi, E Longo

Citations: 32

Year: 2010

Nonlinear behavior of TiO2· Ta2O5· MnO2 material doped with BaO and Bi2O3

Authors: MRD Bomio, VC Sousa, ER Leite, JA Varela, E Longo

Citations: 32

Year: 2004

Electrical Properties of La0.6Sr0.4Co1–yFeyO3 (y = 0.2–1.0) Fibers Obtained by Electrospinning

Authors: M Lubini, E Chinarro, B Moreno, VC de Sousa, AK Alves, CP Bergmann

Citations: 30

Year: 2015

Tertiary urban wastewater treatment with microalgae natural consortia in novel pilot photobioreactors

Authors: EG de Morais, JCA Marques, PR Cerqueira, C Dimas, VS Sousa, …

Citations: 27

Year: 2022

Assoc. Prof. Dr. Olcay Gençyılmaz | Materials Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Olcay Gençyılmaz | Materials Chemistry | Best Researcher Award

Assoc. Prof. Dr. Olcay Gençyılmaz , Çankırı Karatekin University, Turkey

Olcay Gençyılmaz is a prominent academic and researcher at Çankırı Karatekin University, specializing in materials science and nanotechnology. With expertise in thin film production, electrochemical applications, and photovoltaic systems, She has led multiple national research projects and contributed to the development of advanced materials for various applications. Throughout his career, She has worked on numerous interdisciplinary projects, exploring the effects of nanomaterials on environmental sustainability, energy production, and health. As a dedicated educator, he actively engages in mentoring graduate and doctoral students, guiding them in their research endeavors. His work is widely recognized in the scientific community, and he has published extensively in international journals.

Professional Profile:

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Summary of Suitability for Award:

Olcay Gençyılmaz is highly qualified for the “Best Researcher Award” due to his outstanding contributions in the field of materials science and nanotechnology. His extensive research on thin films, nanomaterials, and their applications in energy systems, environmental sustainability, and healthcare has positioned him as a leading figure in his field. His work on the development of innovative materials for photovoltaics, electrochemical energy storage, and environmental remediation demonstrates his commitment to solving global challenges. His academic achievements, leadership in research projects, and numerous high-quality publications underscore his excellence in research and innovation, which are key criteria for this prestigious recognition.

🎓Education:

Olcay Gençyılmaz holds a Bachelor’s degree in Physics and a Master’s degree in Materials Science. He earned his Ph.D. in Nanotechnology from Çankırı Karatekin University, Turkey. His educational journey was marked by a focus on developing thin films for applications in energy and electronics. She participated in numerous academic workshops and research collaborations, enhancing his understanding of advanced materials and their characterization. Olcay’s education laid the foundation for his career, enabling him to contribute to the scientific community with cutting-edge research.

🏢Work Experience:

Olcay Gençyılmaz’s professional experience spans both academia and research. As an Associate Professor at Çankırı Karatekin University, She has supervised numerous research projects and mentored graduate students. His academic expertise includes thin film characterization, nanomaterials, and energy systems. Olcay has been involved in multiple national research projects related to photovoltaic systems, electrochemical capacitors, and thin film production techniques like SILAR and spray pyrolysis. She has served as a project leader and executive board member, contributing to advancements in materials science and nanotechnology.

🏅Awards: 

Olcay Gençyılmaz has received several prestigious awards throughout his career. Notably, She was recognized by TÜBİTAK for his work on the synthesis and characterization of CuO films. His research on thin films, particularly for solar cells and energy storage, She has earned him national recognition. Olcay’s contributions to material science and nanotechnology have been pivotal in advancing these fields. His passion for research and innovation continues to inspire students and colleagues alike.

🔬Research Focus:

Olcay Gençyılmaz’s research primarily focuses on materials science, particularly thin films and nanomaterials. His work explores the production, characterization, and application of thin films for various technological fields such as photovoltaics, electrochemical energy storage, and environmental remediation. Olcay is also interested in the synthesis of nanoparticles for antibacterial and photocatalytic applications. His innovative research aims to develop sustainable materials that can address energy and environmental challenges.

Publication Top Notes:

1. Analyzing antimicrobial activity of ZnO/FTO, Sn–Cu-doped ZnO/FTO thin films: Production and characterizations
  • Citations: 1
2. Comparison of high antioxidant ZnO NPs produced from different fungi as alternative biomaterials
3. Comparative evaluation of zinc oxide nanoparticles (ZnONPs): Photocatalysis, antibacterial, toxicity and genotoxicity
  • Citations: 1
4. Spray pyrolysis–derived V₂O₅ thin films as an alternative electrochromic layer for electrochromic devices
5. Binary ZnS–ZnO films as an alternative buffer layer for solar cell applications
  • Citations: 2

 

 

 

He Liu | Materials Chemistry | Best Researcher Award

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Dr. He Liu | Materials Chemistry | Best Researcher Award

Doctorate at Jiangsu University Of Science And Technology, China

He Liu is a talented researcher in the field of chemistry and materials science, currently pursuing his doctoral studies at Jiangsu University of Science and Technology. With a strong foundation in applied chemistry and several significant publications in prestigious journals, He Liu has established himself as a promising scientist in gas sensors, ceramic materials, and energy storage research. His research efforts are marked by innovation, practical application, and a commitment to advancing the frontiers of materials science.

Author Metrics

Scopus Profile

He Liu has contributed to several high-impact publications, with his work cited in reputable journals. He has published in SCI-indexed journals such as Nanomaterials, Ceramics International, and Electrochimica Acta. These journals boast impact factors (IF) of 5.7, 7.336, and 5.5, respectively, reflecting the high quality and influence of his research. His publications have gained significant attention within the materials science community, further solidifying his role as a rising scholar.

  • Total Citations: 58 citations from 57 different documents.
  • Documents Published: 3 documents indexed in Scopus.
  • h-index: 3 (This indicates that He Liu has at least 3 publications with 3 or more citations each, demonstrating early academic impact.)

Education

He Liu’s academic journey began with a Bachelor’s degree in Applied Chemistry from Henan Institute of Science and Technology, where he graduated in 2020. He continued his education at the same institution, obtaining a Master’s degree in Chemistry in 2023. Currently, He Liu is pursuing a Ph.D. in Materials Science and Engineering at Jiangsu University of Science and Technology. His educational background has laid a robust foundation for his advanced research in the field of materials science.

Research Focus

He Liu’s research primarily revolves around materials science, with a focus on the development and synthesis of novel ceramic materials, gas sensors, and energy storage systems. Notably, his work on 2D WO3 nanosheets for VOCs gas sensors and carbon-enriched SiOC ceramics for lithium storage highlights his expertise in the practical applications of materials in energy conversion and storage. He has also contributed to the development of ZIF-8 modified oxide-sensitive materials.

Professional Journey

He Liu began his professional journey as a researcher during his Master’s studies at Henan Institute of Science and Technology. His dedication and significant contributions to applied chemistry earned him recognition and scholarships. In 2023, he transitioned to Jiangsu University of Science and Technology, where he is currently a doctoral candidate in Materials Science and Engineering, advancing his research on ceramics and energy storage.

Honors & Awards

Throughout his academic career, He Liu has received several awards for his outstanding performance. He was awarded the Third-Class Scholarship for the 2021-2022 academic year and the Second-Class Scholarship for 2022-2023 at Henan Institute of Science and Technology. He has also been recognized as a “Merit Student” and “Outstanding University Student” for his volunteer services against flood and epidemic. Additionally, he won the Special Prize in the prestigious “Siyang Cup” National Marine Energy and Power Innovation Competition.

Publications Noted & Contributions

He Liu has made significant contributions to scientific literature. Some notable publications include his work on:

Microwave Synthesized 2D WO3 Nanosheets for VOCs Gas Sensors

  • Journal: Nanomaterials, 2022, 12(18), 3211
  • Co-authors: Duan, L., Xia, K., Xu, J., Hou, Z.
  • Citations: 13
    This open-access article focuses on the synthesis of WO3 nanosheets via microwave methods, specifically for application in VOCs gas sensors, showcasing an innovative approach to sensor technology.

Microwave-assisted Solvothermal Synthesis of Hollow Mesoporous SiOC Ceramics in NaOH Solution

  • Journal: Ceramics International, 2022, 48(13), pp. 19232–19239
  • Co-authors: Xia, K., Liu, X., Duan, L., Hou, Z.
  • Citations: 7
    This study introduces a microwave-assisted solvothermal method to synthesize hollow mesoporous SiOC ceramics, highlighting its potential for industrial ceramic applications.

Carbon-enriched SiOC Ceramics with Hierarchical Porous Structure as Anodes for Lithium Storage

  • Journal: Electrochimica Acta, 2021, 372, 137899
  • Co-authors: Xia, K., Liu, X., Li, R., Wang, D.
  • Citations: 38
    This paper explores the synthesis of carbon-enriched SiOC ceramics, emphasizing their application in lithium-ion batteries as anodes. It is one of He Liu’s most cited papers, reflecting its high relevance in energy storage research.

These publications emphasize his contributions to material science, focusing on ceramics, gas sensors, and energy storage systems, garnering wide recognition in the scientific community.

Research Timeline

  • 2016-2020: Undergraduate studies in Applied Chemistry at Henan Institute of Science and Technology.
  • 2020-2023: Master’s research on chemistry with a focus on ceramic materials and gas sensors.
  • 2023-present: Ph.D. candidate at Jiangsu University of Science and Technology, focusing on advanced materials science and engineering, specifically on the synthesis of novel ceramics for energy storage and gas sensing.

Collaborations and Projects

He Liu has collaborated with several prominent researchers throughout his academic career. He was involved in a Henan Province Science and Technology Research Project titled “ZIF-8 Modification Methods for Oxide-Sensitive Materials,” where he was the third person in charge. He has also worked closely with researchers like Duan L., Xia K., and Hou Z. on various innovative projects, contributing to advancements in gas sensing materials and energy storage systems. His collaboration with peers has resulted in several impactful publications and technological advancements in materials science.

Conclusion

Dr. He Liu is a promising candidate for the Best Researcher Award, showcasing significant strengths in innovative research, high-quality publications, and collaborative efforts. By addressing areas for improvement, particularly in expanding his research scope and enhancing public engagement, he can further elevate his impact within the field of materials chemistry. His commitment to advancing knowledge and practical applications in materials science positions him as a strong contender for this prestigious recognition.

Qiuling Chen | Materials Chemistry | Best Researcher Award

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Assoc Prof Dr. Qiuling Chen | Materials Chemistry | Best Researcher Award

Associate Professor at Henan University of Technology, China

Dr. Qiuling Chen is a prominent academic in the field of materials science, currently serving as a Vice Professor at Henan University of Technology in China. Her extensive expertise in materials science is underpinned by her academic background and over two decades of professional experience. With a Ph.D. in Electronic Devices from Politecnico di Torino and a B.Sc. in Computer Science from Luoyang Institute of Technology, Dr. Chen has made significant contributions to the development of advanced materials, particularly in nanotechnology, optical materials, and energy storage systems. Her research has led to numerous publications and project coordinations, reflecting her leadership and innovation in these domains.

Author Metrics

Scopus Profile

ORCID Profile

Dr. Qiuling Chen’s author metrics underscore her substantial impact in the field of materials science. Her Google Scholar Citations and ResearchGate profiles reveal a robust citation record, indicating the widespread recognition and influence of her research. The Scopus Author ID further highlights her scholarly contributions and productivity, showcasing her role as a key figure in advancing knowledge in her areas of expertise.

  • Citations: 1,588 citations across 1,029 documents.
  • Documents: 113 publications.
  • h-index: 22, which measures both productivity and citation impact.

Education

Dr. Chen holds a Ph.D. in Electronic Devices from Politecnico di Torino, Italy, obtained between 2004 and 2008. Prior to this, she completed her B.Sc. in Computer Science at Luoyang Institute of Technology in 1995. Her educational background provides a strong foundation in both theoretical and practical aspects of technology and materials science, preparing her for a distinguished career in research and academia.

Research Focus

Dr. Chen’s research focuses on the development and application of advanced materials, including nanomaterials, optical materials, and energy storage technologies. Her work explores areas such as high-capacity lithium-air batteries, photocatalytic materials, and magneto-optical materials. By investigating these fields, Dr. Chen aims to enhance the performance, stability, and functionality of materials used in various technological applications.

Professional Journey

Dr. Chen’s professional journey began as a Network Engineer before transitioning to academia as a Teaching Assistant at Luoyang Institute of Technology. She pursued her Ph.D. at Politecnico di Torino and later served as a researcher there. Since 2013, she has been a Vice Professor at Henan University of Technology, where she leads research initiatives and supervises graduate students, reflecting her evolution from industry practitioner to academic leader.

Honors & Awards

Dr. Chen has been recognized for her significant contributions to materials science through various honors and awards. Her achievements include securing competitive research grants from the Chinese National Natural Science Foundation and provincial science and technology programs. These accolades highlight her excellence in research and her impact on advancing scientific knowledge and innovation.

Publications Noted & Contributions

Dr. Chen’s notable publications include influential papers in high-impact journals such as Ceramics International and Journal of Alloys and Compounds. Her work, including studies on Eu2+ activated phosphors and giant Faraday rotation, demonstrates her expertise in materials science and her ability to contribute valuable insights to the fields of photonics, magneto-optics, and photocatalysis.

“Z-scheme In2S3/MnO2/BiOCl heterojunction photo-enhanced high-performance lithium-oxygen batteries”
Authors: Wang, S., Chen, Q., Gao, T., Zhou, Y.
Journal: Journal of Materials Science and Technology
Year: 2025
Volume/Issue: 215, pp. 1–14
Citations: 0

“In-situ crystallization of CoCr2O4 in tellurite glass with enhanced optical nonlinear limiting, photoluminescence, and magnetic properties: Influence of Co content”
Authors: Chen, Q., Chen, L., Wang, J., Ma, Q., Miao, B.
Journal: Journal of the European Ceramic Society
Year: 2024
Volume/Issue: 44(13), pp. 7904–7920
Citations: 1

“Strontium doping-tailored inverse spinel phase in cobalt chromite with enhanced photo-degradation of ofloxacin”
Authors: Chen, Q., Gao, T., Chen, L., Miao, B., Chen, Q.
Journal: Ceramics International
Year: 2024
Volume/Issue: 50(14), pp. 26234–26249
Citations: 0

“Dual p-n Z-scheme heterostructure boosted superior photoreduction CO2 to CO, CH4 and C2H4 in In2S3/MnO2/BiOCl photocatalyst”
Authors: Chen, Q., Wang, S., Miao, B., Chen, Q.
Journal: Journal of Colloid and Interface Science
Year: 2024
Volume/Issue: 663, pp. 1005–1018
Citations: 5

“High entropy enhanced phase & structural stability and high electromagnetic wave absorption in CsPbBr3 perovskite”
Authors: Chen, Q., Chen, L., Shuai, W., Miao, B.
Journal: Materials Science in Semiconductor Processing
Year: 2024
Volume/Issue: 175, 108295
Citations: 0

Research Timeline

Dr. Chen’s research timeline reflects a progression of increasing responsibility and impact. From her doctoral research at Politecnico di Torino (2004-2008) to her role as a researcher there (2008-2016), and her current position as Vice Professor at Henan University of Technology (2013-present), her career has been marked by significant contributions to materials science and leadership in research projects.

Collaborations and Projects

Dr. Chen has led and collaborated on a variety of research projects, including high-profile initiatives such as the NSFC-U1604120 project on magneto-optical biosensors and the STABLE 314508 project on lithium-air batteries. Her collaborations span international and domestic research efforts, demonstrating her ability to work across disciplines and contribute to major advancements in her field.

Strengths of Dr. Qiuling Chen’s Best Researcher Award

Significant Research Impact: Dr. Chen’s extensive citation record (1,588 citations across 1,029 documents) and h-index (22) highlight the substantial impact of her research in materials science. Her work is well-regarded and influential, indicating a high level of academic recognition.

Diverse Research Focus: Her research spans several critical areas, including nanomaterials, optical materials, and energy storage systems. This diversity not only demonstrates her versatility but also her capability to address various scientific challenges through innovative approaches.

High-Quality Publications: Dr. Chen has published in high-impact journals such as Ceramics International and the Journal of Alloys and Compounds. This indicates that her work is valued and respected by leading journals in her field.

Recognition and Awards: Receiving competitive research grants from prestigious bodies like the Chinese National Natural Science Foundation highlights her standing and contributions in the scientific community. These awards reflect her excellence in research and ability to secure funding for impactful projects.

Leadership in Research and Academia: As a Vice Professor at Henan University of Technology, Dr. Chen leads research initiatives and supervises graduate students, showcasing her role as an academic leader. Her ability to mentor and guide future scientists is a testament to her expertise and dedication to the field.

Areas for Improvement

Publication Citations: Some of Dr. Chen’s most recent publications, such as those from 2024, have relatively few citations (e.g., “Strontium doping-tailored inverse spinel phase in cobalt chromite” has 1 citation). This could suggest a need for increased visibility or dissemination efforts for her latest research.

Diversity of Collaborations: While Dr. Chen has led and participated in various projects, expanding her collaboration network to include more interdisciplinary and international partnerships could enhance the breadth and impact of her research.

Emerging Research Trends: Keeping pace with emerging research trends and integrating cutting-edge technologies or methodologies could further strengthen her research contributions and maintain her leadership position in a rapidly evolving field.

Research Application and Translation: Focusing on translating research findings into practical applications or commercial ventures could increase the societal impact of her work and demonstrate the practical value of her research.

Public Engagement: Increasing engagement with the broader public and stakeholders through outreach activities, science communication, and public lectures could enhance the visibility and societal relevance of her research.

Conclusion

Dr. Qiuling Chen’s recognition as a Best Researcher underscores her significant contributions to materials science, her ability to secure competitive grants, and her leadership in academia. Her extensive citation record and high-quality publications reflect her research’s impact and influence. However, there are areas for potential growth, including increasing the visibility of recent publications, expanding collaboration networks, and enhancing the practical application of her research. Addressing these areas could further amplify her contributions and solidify her position as a leading figure in her field.