Prof. Dr. Xuanmeng He | Inorganic Chemistry | Best Researcher Award

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Prof. Dr. Xuanmeng He | Inorganic Chemistry | Best Researcher Award

Prof. Dr. Xuanmeng He , Inorganic Chemistry , Laboratory Chief at Shaanxi University of Science and Technology, China

Prof. He Xuanmeng is a distinguished faculty member at the School of Materials Science and Engineering, Shaanxi University of Science and Technology. With a profound dedication to material innovation and functional nanomaterials, he has risen through academic ranks from lecturer to full professor since joining the university in 2008. His research primarily focuses on energy-related materials, including high-entropy oxides, electrocatalysts for oxygen evolution reactions (OER), and advanced color pigments. A prolific researcher, Prof. He has authored several impactful publications in reputed journals like Journal of Alloys and Compounds, ACS Applied Nano Materials, and Journal of Colloid and Interface Science. His interdisciplinary approach bridges inorganic chemistry, electrochemistry, and materials engineering. Through years of rigorous academic training and research, he has emerged as a key contributor to China’s materials science domain. Prof. He continues to inspire future scientists through both his scholarly work and academic leadership.

Professional Profile : 

Scopus 

Summary of Suitability for Award:

Prof. He Xuanmeng, currently serving as a Professor at the School of Materials Science and Engineering, Shaanxi University of Science and Technology, exemplifies all the qualities befitting a recipient of the “Best Researcher Award”. His academic path, entirely pursued at Shaanxi University, reflects both loyalty and progressive excellence in materials science. With over 15 years of research experience, he has consistently advanced from lecturer to full professor, demonstrating a strong trajectory of academic growth and leadership. Prof. He Xuanmeng is a highly qualified and deserving nominee for the “Best Researcher Award”.  Honoring him with this award would be a recognition of research excellence, sustained innovation, and impactful scholarship. His research output includes high-impact publications in reputed international journals such as ACS Applied Nano Materials, Journal of Alloys and Compounds, and Journal of Colloid and Interface Science.Prof. He’s ability to integrate multifunctionality, sustainability, and performance optimization in material design stands out. His interdisciplinary work impacts both the energy sector and ceramic industries, illustrating his broad contribution to science and technology. His work on high-entropy oxides, energy electrocatalysts, Li-S battery materials, and environmentally friendly ceramic pigments showcases innovation, application relevance, and scientific depth. Moreover, his expertise bridges nanomaterials, electrochemistry, and optical engineering, aligning with contemporary global research priorities.

🎓Education:

Prof. He Xuanmeng’s academic journey is deeply rooted in Shaanxi University of Science and Technology, where he pursued all three degrees in materials science. He earned his Ph.D. in Materials in 2018, focusing on advanced material synthesis and applications. Earlier, he completed his Master’s in Materials Physics and Chemistry in 2008, laying the foundation for his work on functional coatings and hybrid materials. His undergraduate degree, completed in 2005, was in Inorganic Non-metallic Materials Engineering—a program emphasizing ceramics, pigments, and structural materials. This consistent academic path has endowed him with a deep, layered understanding of both the theoretical and applied aspects of materials science. The continuity of education at the same institution reflects his long-standing commitment to its academic culture and research goals. His comprehensive training across materials chemistry and engineering now informs his innovative research in energy materials and ceramic-based nanostructures.

🏢Work Experience:

Prof. He Xuanmeng began his professional career in 2008 as a Lecturer at Shaanxi University of Science and Technology. With a passion for research and academic excellence, he was promoted to Associate Professor in 2010, a role he held for eight years. In 2018, he was elevated to the position of Professor in the School of Materials Science and Engineering. Over more than 15 years of service, he has been instrumental in shaping the department’s research direction, focusing on functional nanomaterials and energy applications. He has successfully mentored graduate students, led research initiatives, and published extensively. His multidisciplinary collaborations and expertise in high-entropy oxides, pigment design, and electrode materials have significantly contributed to the university’s reputation in materials science. Prof. He’s progression through academic ranks highlights his dedication to teaching, research, and scientific advancement in the field of advanced functional materials.

🏅Awards: 

While specific awards and honors were not listed in the resume provided, Prof. He Xuanmeng’s academic journey and publication record strongly indicate a career marked by peer recognition and scholarly impact. His multiple first-author papers in top-tier journals like ACS Applied Nano Materials, Journal of Alloys and Compounds, and Journal of Colloid and Interface Science reflect high academic merit. He likely has received internal recognition for excellence in teaching and research within Shaanxi University of Science and Technology. Additionally, contributing to high-impact studies in areas like oxygen evolution reaction and Li-S battery applications suggests involvement in nationally or provincially funded research projects. Given his track record and position, he may also be serving as a reviewer or editorial board member for reputed journals in materials science. Further details of awards can be included upon availability to comprehensively highlight his career achievements.

🔬Research Focus:

Prof. He Xuanmeng’s research focuses on advanced functional materials with applications in energy conversion, storage, and optical properties. He specializes in the synthesis and design of high-entropy oxides, spinel-type nanostructures, and graphene-composite hybrids for electrocatalysts, particularly the oxygen evolution reaction (OER). His work also explores Li-S battery materials, utilizing hollow microspheres and reduced graphene oxide for sulfur hosting. Additionally, Prof. He has made significant contributions to the development of ceramic pigments with core-shell structures for enhanced coloration and NIR reflectance, offering sustainable alternatives with reduced heavy metal content. His interdisciplinary approach bridges material chemistry, solid-state physics, and energy applications, aiming to develop cost-effective and high-performance materials. His research outputs demonstrate innovation in structural control, electronic modulation, and multifunctionality in both energy and optical domains, aligning with global goals for sustainable energy and environmental-friendly technologies.

Publication Top Notes:

1. Enhanced Multienzyme‑like and Antibacterial Activity by Copper Atomically Dispersed into Molybdenum Disulfide for Accelerated Wound Healing

2. Carbon Cloth Supporting (CrMnFeCoCu)₃O₄ High‑Entropy Oxide as Electrocatalyst for Efficient Oxygen Evolution Reactions

Citations: 2

3. Highly Stable Hierarchical Core‑Shell Structure CuMn₀.₅Co₂O₄@CC with Self‑Regulating Electronic and Conductivity for Its Improved OER Performance

Citations: 5

4. Nanocrystalline (CrMnFeCoCu)₃O₄ High‑Entropy Oxide for Efficient Oxygen Evolution Reaction

Citations: 15

Assoc. Prof. Dr. Yun Zhang | Environmental Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Yun Zhang | Environmental Chemistry | Best Researcher Award

Assoc. Prof. Dr. Yun Zhang  , Environmental Chemistry , Faculty at  Lanzhou University , China

Dr. Yun Zhang is an Associate Professor at Lanzhou University, China, with extensive expertise in environmental chemistry and nanomaterials. She earned her Ph.D. from Lanzhou University and the University of Vienna, specializing in porous chelating adsorbents and ionic liquids. Dr. Zhang has held academic positions at Lanzhou University and conducted postdoctoral research at Georgia Institute of Technology. Her research bridges environmental science and materials chemistry, focusing on the development of advanced nanostructures for pollutant detection and removal. Dr. Zhang has led several national and provincial research projects on catalysts and adsorbents for environmental remediation. Her contributions are recognized with multiple prestigious awards, including the International Postdoctoral Exchange Fellowship. She is also an active peer reviewer for leading journals such as Chemosphere and Journal of Hazardous Materials. Her innovative work on SERS-based pollutant detection and polymer-nanoparticle composites continues to impact sustainable environmental solutions.

Professional Profile : 

Orcid

Scopus  

Summary of Suitability for Award:

Dr. Yun Zhang’s academic journey, marked by international collaboration, advanced research on nanostructured materials for environmental remediation, and successful leadership in funded projects, makes her a highly suitable candidate for a “Best Researcher Award.” Her work is innovative, globally relevant, and reflects a consistent trajectory of excellence and contribution to both fundamental and applied science. She exemplifies the qualities of a researcher who translates high-impact science into real-world environmental solutions. Dr. Yun Zhang fulfills the criteria expected of a “Best Researcher Award” recipient. Her research record demonstrates scientific innovation, international recognition, and societal relevance. Based on her proven capabilities, scholarly achievements, and impactful contributions to environmental chemistry and nanotechnology, she is strongly recommended as a deserving nominee for the “Best Researcher Award”.

🎓Education:

Dr. Yun Zhang completed her Ph.D. in Environmental Chemistry (2008–2011) through a joint program between Lanzhou University and the University of Vienna, where she focused on porous chelating adsorbents and ionic liquids for environmental applications. Prior to that, she earned her Master’s degree in Environmental Chemistry (2005–2008) from Lanzhou University, with research centered on atmospheric particles, PAHs, and analytical methods like GC-MS. Her undergraduate training in Environmental Science (2001–2005), also from Lanzhou University, laid a solid foundation in environmental monitoring and pollution analysis. The interdisciplinary nature of her academic training—spanning inorganic chemistry, environmental science, and polymer technology—has equipped her with a comprehensive approach to tackling modern environmental challenges through material innovation and chemical analysis.

🏢Work Experience:

Dr. Yun Zhang currently serves as an Associate Professor in the Department of Environmental Science at Lanzhou University, a role she has held since December 2019. She began her academic career as a Lecturer in the Institute of Polymer Science & Engineering at the same university from 2010 to 2016. From 2016 to 2018, she expanded her international research experience during a postdoctoral fellowship in Materials Science and Engineering at Georgia Institute of Technology, USA, where she developed expertise in nanostructured materials for pollutant sensing and degradation. Returning to Lanzhou University, she resumed teaching and research as a Lecturer (2018–2019) before her promotion. Dr. Zhang’s career reflects a dynamic blend of teaching, mentoring, and high-impact research across material science, environmental remediation, and nanotechnology. Her interdisciplinary experience has enabled her to lead cutting-edge research projects and mentor emerging scholars in environmental chemistry.

🏅Awards: 

Dr. Yun Zhang has received several prestigious awards recognizing her academic excellence and international research contributions. In 2015, she was selected for the International Postdoctoral Exchange Fellowship Project (2016–2018), supporting her research tenure at Georgia Tech. She earned the Bao Gang Education Scholarship in 2011, acknowledging her outstanding academic record. That same year, she also received the Scholarship Award for Excellent Doctoral Student, highlighting her impactful contributions during her Ph.D. studies. Earlier, in 2010, she was honored with a joint doctoral scholarship by the CSC (China Scholarship Council) and FWF (Austrian Science Fund), which facilitated her research at the University of Vienna. These accolades reflect not only her commitment to scientific excellence but also her capacity to contribute meaningfully to global research collaborations. Dr. Zhang’s recognition at national and international levels demonstrates her status as a leading figure in environmental chemistry and materials science.

🔬Research Focus:

Dr. Yun Zhang’s research integrates environmental chemistry, materials science, and nanotechnology to develop advanced solutions for pollution control. She specializes in the precise synthesis of noble metal nanostructures such as Ag nanocubes and Ag@Pt-Rh core-frame nanocrystals, which are employed in sensitive detection and catalytic degradation of organic pollutants using surface-enhanced Raman spectroscopy (SERS). Her work also explores polymer-nanoparticle composite adsorbents for the extraction of heavy metals, as well as the application of ionic liquids (ILs) in micro-pollutant removal. A distinctive feature of her research is the atomic layer deposition (ALD) technique, which enables controlled nanomaterial design for environmental applications. Her interdisciplinary projects are supported by competitive grants, emphasizing applied innovations for antibiotic degradation, mercury detection, and bimetallic catalysis. Through the integration of chemistry and environmental science, Dr. Zhang addresses pressing ecological challenges while advancing fundamental research in nanomaterials.

Publication Top Notes:

1. A Specific Time Lag Regulation of Soil Moisture Across Layers on Soil Salinization in the Northeast Tibetan Plateau Agroecosystem

2. Differential Quantitative Analysis of Carbon Emission Efficiency of Gansu Manufacturing Industry in 2030

3. Multi-Scenario Land Use/Cover Change and Its Impact on Carbon Storage Based on the Coupled GMOP-PLUS-InVEST Model in the Hexi Corridor, Chin

4. Hydrothermal Conditions in Deep Soil Layer Regulate the Interannual Change in Gross Primary Productivity in the Qilian Mountains Area, China

5. Syntheses, Plasmonic Properties, and Catalytic Applications of Ag–Rh Core-Frame Nanocubes and Rh Nanoboxes with Highly Porous Walls

6. Thiazole Orange-Modified Carbon Dots for Ratiometric Fluorescence Detection of G-Quadruplex and Double-Stranded DNA

7. Enriching Silver Nanocrystals with a Second Noble Metal

8. Observing the Overgrowth of a Second Metal on Silver Cubic Seeds in Solution by Surface-Enhanced Raman Scattering

9. Pt–Ag Cubic Nanocages with Wall Thickness Less Than 2 nm and Their Enhanced Catalytic Activity Toward Oxygen Reduction

10. Fabrication of Magnetic Alginate Beads with Uniform Dispersion of CoFe₂O₄ by the Polydopamine Surface Functionalization for Organic Pollutants Removal

11. Facile One-Pot Assembly of Adhesive Phenol/Fe³⁺/PEI Complexes for Preparing Magnetic Hybrid Microcapsules

 

 

Assoc. Prof. Dr. Ji-Chi Liu | Electrochemistry | Best Researcher Award

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Assoc. Prof. Dr. Ji-Chi Liu | Electrochemistry | Best Researcher Award

Assoc. Prof. Dr. Ji-Chi Liu ,  Electrochemistry , Associate Professor at Liaoning University, China

Dr. Ji-Chi Liu is an accomplished Associate Professor at the College of Chemistry, Liaoning University, China. He received his Ph.D. in 2022 from the same institution and rapidly progressed to a faculty position due to his exemplary research in advanced energy materials. His work focuses on the rational design and controlled synthesis of novel materials for electrochemical energy storage, particularly aqueous ion batteries and supercapacitors. In just a few years, Dr. Liu has published multiple high-impact papers in reputed journals and filed five patents, establishing himself as a promising researcher in the field. With an innovative mindset and deep scientific acumen, he has led three funded research projects and continues to collaborate across institutions. His scientific contributions are aligned with sustainable energy solutions, making a significant impact in materials chemistry and energy technology. Dr. Liu is a committed educator and researcher, dedicated to advancing the frontier of clean energy systems.

Professional Profile : 

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Ji-Chi Liu holds a Ph.D. in Chemistry from Liaoning University (2022) and currently serves as an Associate Professor at the same institution. His rapid academic progression within three years of receiving his doctorate demonstrates exceptional promise and capability. He has published five high-impact SCI-indexed papers in leading journals such as Nano Energy, Journal of Materials Chemistry A, and Energy & Environmental Materials, all within a short span. His focus on electrochemical energy storage, particularly aqueous ion batteries and supercapacitors, addresses global priorities in sustainable and safe energy technologies. This aligns well with international goals for climate action and clean energy. With five patents filed, his work exhibits a clear translational value from lab-scale innovation to real-world applications, reinforcing the relevance of his research beyond academia. Dr. Liu has led three funded research projects, evidencing his capability in securing competitive funding and managing research teams effectively. Dr. Ji-Chi Liu is highly suitable for the “Best Researcher Award”. His outstanding publication record, innovation through patents, impactful research in sustainable energy, and growing academic leadership present a compelling case for recognition. Despite being early in his career, his trajectory clearly indicates a strong and consistent commitment to high-quality research with both academic and societal relevance.

🎓Education:

Dr. Ji-Chi Liu pursued all his higher education at Liaoning University, a prestigious institution in China. He earned his Ph.D. in Chemistry in 2022, specializing in the design and synthesis of advanced materials for electrochemical applications. During his doctoral research, he developed deep expertise in the electrochemical behavior of aqueous ion battery systems and supercapacitors. His academic journey is marked by a strong foundation in both theoretical understanding and hands-on experimental techniques in materials science and energy storage. His research during his Ph.D. led to several publications in SCI-indexed journals and laid the groundwork for postdoctoral innovations. Dr. Liu has also continuously upgraded his academic qualifications through participation in workshops, scientific conferences, and research collaborations. His education has provided him with a multidisciplinary skill set spanning solid-state chemistry, electrochemistry, and nanomaterials, enabling him to contribute meaningfully to the field of clean and sustainable energy technologies.

🏢Work Experience:

Dr. Ji-Chi Liu currently serves as an Associate Professor at the College of Chemistry, Liaoning University. Since completing his Ph.D. in 2022, he has rapidly grown into a leadership role, heading several research initiatives focused on energy storage systems. Dr. Liu has successfully led three major research projects, supported by national or institutional grants. In addition to his research contributions, he plays a key role in mentoring undergraduate and graduate students and actively contributes to curriculum development in electrochemistry and materials science. His teaching is enriched by his cutting-edge research experience, enabling him to bridge theory and application in classroom and laboratory settings. Dr. Liu also participates in academic reviewing and has contributed to several international conferences. With his academic rigor and leadership qualities, he has established strong research collaborations and is an active member of the global electrochemical materials research community.

🏅Awards: 

Dr. Ji-Chi Liu’s innovative research in electrochemical energy storage has garnered significant recognition. He has been nominated for the Best Researcher Award by the International Chemistry Scientist Awards in 2025, reflecting the global appreciation of his scientific contributions. Despite being in the early stages of his academic career, Dr. Liu has already published in prestigious journals like Nano Energy and Journal of Materials Chemistry A, with first or corresponding author roles, demonstrating leadership in his field. He has filed five patents, underscoring the originality and applicability of his research. His projects have also received institutional funding, a testament to the confidence placed in his work by the scientific and academic community. As a rising star in materials chemistry and clean energy research, Dr. Liu’s accolades affirm his commitment to impactful research and innovation, positioning him as a significant contributor to future energy technologies.

🔬Research Focus:

Dr. Ji-Chi Liu’s research is centered on electrochemical energy storage devices, particularly aqueous ion batteries and supercapacitors. His work focuses on the rational design and controlled synthesis of advanced electrode materials with high stability, efficiency, and energy density. He employs techniques in nanostructure engineering and electrochemical characterization to develop sustainable energy materials. By integrating principles from materials science and electrochemistry, Dr. Liu seeks to overcome challenges in scalability, safety, and cost-efficiency in energy storage technologies. His recent projects involve the development of environmentally friendly, high-performance aqueous-based systems, which are safer and more sustainable than traditional lithium-ion batteries. Dr. Liu’s research outputs include innovative electrode architectures that enhance charge/discharge cycles, energy retention, and conductivity. He is also exploring hybrid systems that combine the benefits of batteries and supercapacitors. His work contributes significantly to advancing clean energy technologies that can support the transition to a greener and more sustainable future.

Publication Top Notes:

1. Current Collectors for Supercapacitors: Objectives, Modification Methods and Challenges

2. P-n Junction Built-in Electric Field and Electrochemical In-situ Intercalation Enabled Ultra-Stable and High-Energy Ammonium-Ion Storage

3. Integrated Electrode-Electrolyte Optimization to Manufacture a Real-Life Applicable Aqueous Supercapacitor with Record-Breaking Lifespan

4. Aqueous Supercapacitor with Ultrahigh Voltage Window Beyond 2.0 Volt

5. Structural Engineering to Maintain the Superior Capacitance of Molybdenum Oxides at Ultrahigh Mass Loadings

 

 

 

Assist. Prof. Dr. Jonghyun Eun | Polymer Chemistry | Best Researcher Award

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Assist. Prof. Dr. Jonghyun Eun | Polymer Chemistry | Best Researcher Award

Assist. Prof. Dr. Jonghyun Eun , Polymer Chemistry , Professor at Kumoh National Institute of Technology, South Korea

Dr. Jong-Hyun Eun is an Assistant Professor in the Department of Materials Design Engineering at Kumoh National Institute of Technology, Republic of Korea. With a strong background in textile engineering and advanced fiber materials, he specializes in carbon fiber technologies, piezoelectric nanofibers, and composite materials. He earned his integrated Master’s and Ph.D. from Yeungnam University under the mentorship of Prof. Joon-Seok Lee. His postdoctoral research journey included positions at Arizona State University and Yeungnam University, where he advanced his expertise in carbon fiber reinforced plastics (CFRPs), graphene-metal composites, and electrospun nanofibers. Dr. Eun has hands-on experience in fabricating and analyzing high-performance composites and energy harvesting materials, making him a rising researcher in the field. He also contributes actively to teaching, mentoring students in textile and fashion materials design. His recent publications highlight innovations in hydrogen storage, nanofiber processing, and sustainable composite development.

Professional Profile : 

Google Scholar

Orcid 

Summary of Suitability for Award:

Dr. Jong-Hyun Eun demonstrates a strong and dynamic research profile with focused expertise in carbon fiber technology, composite materials, piezoelectric nanofibers, and textile engineering—areas that are highly relevant to both academic advancement and industrial applications. His research is deeply interdisciplinary, integrating materials science, nanotechnology, and energy harvesting, aligning well with global trends in sustainable and smart materials. Dr. Jong-Hyun Eun is highly suitable for nomination for the “Best Researcher Award”. He brings together innovative research, technical excellence, and cross-disciplinary impact. His rapid trajectory from graduate studies to international postdoctoral work and faculty appointment, combined with a productive publication record and active teaching, makes him a strong contender. His ongoing contributions in composite materials and energy harvesting nanofibers address current scientific and technological challenges, fulfilling the criteria for excellence in research.

🎓Education:

Dr. Jong-Hyun Eun holds an integrated Master’s and Doctoral degree in Textile Engineering and Technology from Yeungnam University (2015–2021), where he conducted research under Prof. Joon-Seok Lee. His doctoral work focused on the development of polyethylene-based carbon fibers and composite materials. Prior to that, he completed a B.S. in Fiber and New Materials Design Engineering (2009–2015) at the same university, also under Prof. Lee’s guidance. Throughout his academic journey, Dr. Eun built a solid foundation in textile science, polymer engineering, and nanotechnology. His studies covered a range of topics from sulfonation processes under hydrostatic pressure to advanced electrospinning systems. His rigorous academic training has equipped him with both theoretical knowledge and extensive laboratory experience, paving the way for impactful research in fiber engineering and sustainable composite technologies.

🏢Work Experience:

Dr. Jong-Hyun Eun’s professional experience spans academia and cutting-edge research in fiber science and materials engineering. He currently serves as an Assistant Professor at Kumoh National Institute of Technology. Previously, he was a Postdoctoral Researcher at Arizona State University (2021–2023), focusing on material design and composite innovation. Before that, he held a postdoctoral position at Yeungnam University (2021), continuing his work in textile engineering. During his graduate studies, he also taught various courses at Korea Polytechnic, such as high-tech fiber, woven fabric formation, and textile material analysis. His hands-on experience includes fabricating carbon fiber composites through various molding techniques, developing piezoelectric nanofibers via electrospinning, and analyzing graphene-metal composites. Dr. Eun’s diverse research roles and teaching responsibilities have allowed him to bridge material science with real-world applications.

🏅Awards: 

While specific awards are not listed in the profile provided, Dr. Jong-Hyun Eun’s academic and professional achievements reflect a career of high distinction. Earning competitive postdoctoral positions at prestigious institutions like Arizona State University and Yeungnam University speaks to his expertise and scholarly recognition. His continuous collaboration with renowned Professor Joon-Seok Lee and multiple first-author publications in high-impact journals such as Scientific Reports, Materials & Design, and International Journal of Hydrogen Energy highlight his contributions to materials science and textile engineering. His role as a lead contributor in cutting-edge research on carbon fibers and composite materials demonstrates his leadership and innovation. As his career progresses, he is poised to receive further accolades in recognition of his impactful research and teaching in advanced materials engineering.

🔬Research Focus:

Dr. Jong-Hyun Eun’s research is centered on advanced fiber and composite materials, with a strong focus on sustainability and performance. His expertise includes carbon fiber development from polyethylene, toughening mechanisms in carbon fiber reinforced plastics (CFRPs), and mechanical/impact resistance analysis. He is also deeply engaged in developing piezoelectric nanofiber energy harvesting devices using electrospinning techniques, aiming at efficient wearable energy solutions. Additionally, his research extends to graphene-metal composites, exploring their structural and thermal properties. Through multidisciplinary approaches, Dr. Eun investigates reaction mechanisms, interfacial behavior, and processing-structure-property relationships in fiber-reinforced materials. His work is driven by a commitment to innovation in energy materials, lightweight composites, and next-generation textile engineering, making significant contributions to both academia and industry.

Publication Top Notes:

Effect of MWCNT content on the mechanical and piezoelectric properties of PVDF nanofibers
Citations: 83

Effect of low melting temperature polyamide fiber-interlaced carbon fiber braid fabric on the mechanical performance and fracture toughness of CFRP laminates
Citations: 32

Evaluation of carbon fiber and p-aramid composite for industrial helmet using simple cross-ply for protecting human heads
Authors: S. Kim, J. Lee, C. Roh, J. Eun, C. Kang
Citations: 32

Study on polyethylene-based carbon fibers obtained by sulfonation under hydrostatic pressure
Citations: 14

Effect of the viscosity of polyvinyl chloride resin and weaving structures of polyester fabric on the off-axis mechanical properties of PVC coated fabric
Citations: 9

Study on the NCO index and base knitted fabric substrates on the thermal, chemical, and mechanical properties of solvent-less formulations polyurethane artificial leather
Citations: 8

A study on mechanical properties and thermal properties of UHMWPE/MWCNT composite fiber with MWCNT content and draw ratio
Citations: 7

Effect of fabricating temperature on the mechanical properties of spread carbon fiber fabric composites
Citations: 7

Effect of toughened polyamide-coated carbon fiber fabric on the mechanical performance and fracture toughness of CFRP
Citations: 6

Effect of toughened polyamide/carbon fiber interlace braid fabric on the mechanical performance of CFRP laminates
Citations: 2

Prof. Safia TALEB | Organic Chemistry | Best Paper Award

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Prof. Safia TALEB | Organic Chemistry | Best Paper Award

Prof. Safia TALEB , Organic Chemistry , Professor Dr. Senior Researcher at Djillali Liabès University, Algeria

Prof. Safia Taleb is a distinguished Algerian chemist, currently serving as Professor and Deputy Director at the Faculty of Exact Sciences, Department of Chemistry, D. Liabès University, Algeria. From 2010 to 2022, she was the Head of the Laboratory of Materials & Catalysis (LMC). She earned her Doctorate in Organic Chemistry from the Catholic University of Louvain (UCL), Belgium, in 1981, later obtaining Algerian equivalence. Prof. Taleb’s career has spanned decades, marked by leadership in research, education, and collaborative international publications. Her expertise includes organic and analytical chemistry, environmental remediation, wastewater treatment, and clay-based catalysis. She is actively engaged in sustainable science, focusing on recycling and water purification. With a prolific publication record and deep commitment to applied research, Prof. Taleb has made significant contributions to science and society, mentoring numerous students and fostering global partnerships in green chemistry and environmental innovation.

Professional Profile : 

Google Scholar

Orcid

Scopus 

Summary of Suitability for Award:

Prof. Safia Taleb, a distinguished researcher and Professor of Chemistry at D. Liabes University, has made significant contributions in the fields of organic chemistry, water treatment, catalysis, and environmental sustainability. Her recent international publications display innovative and practical solutions to pressing environmental issues such as wastewater treatment, dye degradation, oil recycling, and humic acid removal. Her 2025 publication titled “Decoloration of Waste Cooking Oil by Maghnia Algerian Clays via Ion Exchange and Surface Adsorption” (published in Chem Engineering) is a strong candidate for the “Best Paper Award”, as Addresses a critical environmental concern—recycling waste cooking oil. Uses local and low-cost materials (Algerian clays) for sustainable solutions. Combines surface chemistry, materials science, and environmental engineering. Has global relevance and direct practical application, especially in developing regions. Prof. Taleb’s collaborative research approach with international and national scientists and her track record of impactful publications further bolster her candidacy. Prof. Safia Taleb’s research, particularly her 2025 paper in Chem Engineering, exemplifies the criteria of originality, scientific rigor, and environmental relevance sought in a “Best Paper Award”. Her extensive experience, commitment to solving real-world problems, and recent publication’s innovation make her a highly suitable candidate for this recognition.

🎓Education:

Prof. Safia Taleb’s academic journey began with a Baccalaureate in Applied Sciences (1970) in Mostaganem, Algeria. She pursued a Licence in Physical Sciences (Option: Chemistry) at the University of Es-Sénia, Oran, Algeria, graduating in 1974. A year later, in 1975, she earned a D.E.A. (Diplôme d’Études Approfondies) in Organic Chemistry from the same institution. Her pursuit of excellence led her abroad to the Catholic University of Louvain (UCL), Belgium, where she obtained her Doctorate Es Sciences in Organic Chemistry in 1981. In 1988, her Belgian Doctorate was officially recognized in Algeria through equivalence certification. Her solid educational foundation has empowered her pioneering contributions in organic synthesis, catalysis, and environmental science. Prof. Taleb’s international education and interdisciplinary focus continue to influence generations of Algerian scientists and innovators.

🏢Work Experience:

Prof. Safia Taleb has had a remarkable academic and research career spanning over four decades. Since 1989, she has served as Professor and Deputy Director at D. Liabès University, where she has been instrumental in curriculum development, research mentoring, and institutional management. From June 2010 to June 2022, she directed the Laboratory of Materials & Catalysis (LMC), driving innovation in sustainable materials and environmental technologies. Throughout her career, Prof. Taleb has led numerous national and international collaborations, particularly in wastewater treatment, clay-based adsorbents, and organic chemical analysis. She has authored and co-authored several peer-reviewed publications and supervised postgraduate research. Her leadership at LMC established it as a hub of applied chemistry in Algeria. An active contributor to environmental and analytical chemistry research, Prof. Taleb’s experience reflects an enduring dedication to scientific advancement and community well-being.

🏅Awards: 

While specific named awards are not listed in the provided data, Prof. Safia Taleb’s distinguished academic career reflects numerous professional recognitions. Her long-standing leadership at the Laboratory of Materials & Catalysis (LMC) and appointment as Deputy Director at D. Liabès University testify to institutional and peer recognition of her contributions. She has been regularly featured as lead or co-author in international journals, signaling esteem from the global scientific community. Her cross-border collaborations with researchers from Europe and North Africa have earned her recognition in Algeria and abroad. Additionally, her role in mentoring Ph.D. candidates, organizing research activities, and fostering innovations in environmental chemistry are indicative of her impact. Invitations to publish, collaborate, and lead reflect ongoing acknowledgment of her excellence and dedication in science and education.

🔬Research Focus:

Prof. Safia Taleb’s research bridges organic chemistry and analytical chemistry with environmental sustainability. Her core focus areas include wastewater treatment, natural clay materials, catalysis, bio-waste recycling, and water quality improvement. She is particularly renowned for developing adsorbent and catalytic materials from Algerian clays, applying them in the purification of industrial and domestic effluents. Her research is highly interdisciplinary, often merging chemistry, materials science, and environmental engineering to create eco-friendly solutions. Prof. Taleb is also engaged in valorization of agri-food waste, transforming it into functional materials for environmental applications. She employs spectroscopic, microbiological, and physicochemical techniques to characterize pollutants and evaluate remediation efficiency. Her recent work includes collaborative studies on the removal of synthetic dyes, treatment of olive mill wastewater, and recycling of used vegetable oils. Her research contributes significantly to Algeria’s environmental policy and global green chemistry initiatives.

Publication Top Notes:

1. Decoloration of Waste Cooking Oil by Maghnia Algerian Clays via Ion Exchange and Surface Adsorption

2. Temperature and pH Influence on Diuron Adsorption by Algerian Mont-Na Clay

3. Combined Ozonation Process and Adsorption onto Bentonite Natural Adsorbent for the o-Cresol Elimination

4. High Adsorption Capacity of Thermally Treated Solid Olive Wastes to Treat Olive Mill Wastewater

5. Heterogeneous Catalytic Degradation of Diuron Using Algerian Sodium Montmorillonite

6. Variation of Used Vegetable Oils’ Composition upon Treatment with Algerian Clays

7. Performance of NF90 and NF270 Commercial Nanofiltration Membranes in the Defluoridation of Algerian Brackish Water

Citations: 17

8. Preparation, Characterization and Application of Fe-Pillared Bentonite to the Removal of Coomassie Blue Dye from Aqueous Solutions

9. Lead and cadmium removal by adsorption process using hydroxyapatite porous materials

10. Mechanism study of metal ion adsorption on porous hydroxyapatite: experiments and modeling

 

 

Dr. Karim Al Souki | Environmental Chemistry | Best Researcher Award

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Dr. Karim Al Souki | Environmental Chemistry | Best Researcher Award

Dr. Karim Al Souki , Environmental Chemistry , Jan Evangelista Purkyne University , Czech Republic

Dr. Karim Al Souki is a postdoctoral researcher and assistant professor at the Faculty of Environment, Jan Evangelista Purkyne University (UJEP), Czechia. With a Ph.D. in Earth and Universe Sciences from Lille 1 University, France, his academic journey reflects a strong foundation in plant biology and environmental sciences. Dr. Al Souki’s research spans phytoremediation, bioremediation, biochar utilization, and climate change mitigation through sustainable phytotechnology. He is a key contributor to international projects funded by NATO, Erasmus+, and Interreg, focusing on ecosystem restoration, water management, and environmental biotechnology. As an educator, he has taught courses across Europe on subjects such as environmental biotechnology, phytotechnology, and bio-economy. Dr. Al Souki’s interdisciplinary approach blends ecological theory with applied environmental solutions, making significant contributions to marginal land restoration and water pollution mitigation. His work promotes sustainability, ecological awareness, and environmental resilience through innovation and education.

Professional Profile : 

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Scopus 

Summary of Suitability for Award:

With a Ph.D. in Earth and Universe Sciences from Lille 1 University (France), and two Master’s degrees in Phyto-ecology and Plant Biology from Lebanese University, Dr. Karim Al Souki demonstrates a solid and multidisciplinary academic foundation. Dr. Karim Al Souki  leads and contributes to cutting-edge projects on phytoremediation, biochar technology, and environmental biotechnology—directly addressing climate change, pollution mitigation, and sustainable soil management. His research covers analytical techniques (FTIR, TGA, stable isotopes, DNA extraction), linking practical fieldwork with lab-based precision, ensuring both academic rigor and societal relevance. His role as project supervisor in initiatives like IDEAL and NATO-SPS illustrates leadership in shaping future environmental policies and technologies. Dr. Karim Al Souki is an ideal candidate for the “Best Researcher Award”, given his consistent, interdisciplinary contributions to environmental sciences. His research directly supports global sustainability goals through practical, innovative, and scalable solutions. Furthermore, his educational outreach, cross-border collaborations, and commitment to solving real-world ecological problems distinguish him as a researcher of international repute. This award would recognize and further empower his impactful scientific journey.

🎓Education:

Dr. Al Souki pursued his academic studies in biology and environmental sciences. He earned his Bachelor’s degree in General Biology (2008–2010), followed by a Master 1 in Plant Biology and Environment (2010–2011), and a Master 2 in Phyto-ecology, Resources, and Security Applications (2011–2012), all from Lebanese University, Lebanon. He then completed his Ph.D. in Earth and Universe Sciences at LGCgE, ISA-Lille, Lille 1 University of Sciences and Technologies, France (2014–2017). His academic foundation combines ecological sciences, environmental applications, and molecular understanding of plant-soil interactions. This educational pathway equipped him with the necessary tools to integrate ecological theory with practical environmental solutions. His training in Europe and the Middle East enabled him to adopt a multidisciplinary perspective and work in cross-cultural academic and research environments. His education has laid the groundwork for his specialization in environmental biotechnology, phytoremediation, and biochar applications.

🏢Work Experience:

Since October 2018, Dr. Karim Al Souki has been serving as a Post-doctoral researcher and Assistant Professor at UJEP, Czechia, where he teaches and conducts advanced research in environmental sciences. His prior experience includes teaching roles at ESME Sudria (France) and private institutions in Lille, where he lectured in phytoecology, molecular biology, and environmental science. He has supervised and contributed to numerous EU- and NATO-funded projects related to phytotechnology, biochar, soil-plant interactions, and wastewater treatment. His pedagogical contributions span multiple European universities and platforms, such as Erasmus, COIL, and ISA-Lille. He has taught subjects including Bioremediation, Bio-economy, Environmental Biotechnology, and Climate Change. Dr. Al Souki’s interdisciplinary teaching and research experience enable him to link theoretical knowledge with field-based applications, fostering student engagement and scientific problem-solving skills relevant to contemporary ecological challenges.

🏅Awards: 

Dr. Karim Al Souki has been recognized for his impactful research and cross-border educational initiatives. He is the Principal Investigator or Supervisor on several prestigious projects funded by international agencies such as NATO Science for Peace and Security Programme, Interreg (IDEAL project), and Erasmus+, highlighting his leadership in environmental science and sustainability education. He received the UJEP Internal Grant Agency funding multiple times (2021–2023), supporting his innovative work on biochar and Miscanthus x giganteus in soil restoration. He was awarded the Usti nad Labem region grant for young researchers for his study on quinoa in polluted soils. His consistent success in securing competitive research grants attests to the scientific merit and societal relevance of his projects. These accolades recognize his commitment to ecosystem services, educational outreach, and environmental restoration, and affirm his role as a rising figure in applied environmental sciences and international academic collaboration.

🔬Research Focus:

Dr. Al Souki’s research centers on phytotechnology, bioremediation, biochar characterization, and ecosystem service enhancement in marginal and contaminated soils. He specializes in using Miscanthus x giganteus and quinoa to rehabilitate former military lands and toxic-element-polluted environments. His research integrates stable isotope analysis, DNA-based microbial community profiling, and plant physiological assessments to explore rhizospheric interactions, nutrient cycling, and carbon sequestration. His work on biochar, especially its physico-chemical and ecotoxicological properties, supports sustainable agricultural and water reuse practices. His active projects include NATO-funded studies on climate change mitigation and EU-supported educational modules for water sustainability in the Elbe/Labe basin. His interdisciplinary approach links environmental microbiology, plant ecophysiology, and green chemistry, targeting real-world environmental problems with practical, nature-based solutions. His goal is to bridge science and education to improve soil health, water quality, and resilience against climate change.

Publication Top Notes:

1. An overview of potentially toxic element pollution in soil around lead–zinc mining areas

2. A comprehensive evaluation of the environmental and health risks associated with the potential utilization of chars produced from tires, electro-waste plastics and biomass

3. Characterizations of ash derived from the crops’ waste biomass for soil improvement and assisted phytoremediation

4. A 6-year review status on soil pollution in coal mining areas from Europe

5. Extracted rapeseed meal biochar combined with digestate as a soil amendment: Effect on lettuce (Lactuca sativa L.) biomass yield and concentration of bioavailable element fraction in the soil

6. Miscanthus x giganteus stress tolerance and phytoremediation capacities in highly diesel contaminated soils

7. The influence of diesel contaminated soil on Miscanthus x giganteus biomass thermal utilization and pyrolysis products composition

8. Evaluation of Miscanthus × giganteus Tolerance to Trace Element Stress: Field Experiment with Soils Possessing Gradient Cd, Pb, and Zn Concentrations

9. Efficient Wastewater Treatment and Removal of Bisphenol A and Diclofenac in Mesocosm Flow Constructed Wetlands Using Granulated Cork as Emerged Substrate

10. Utilization of Biochar for Eliminating Residual Pharmaceuticals from Wastewater Used in Agricultural Irrigation: Application to Ryegrass

 

 

 

 

Mrs. Ralitsa Uzunova | Physical Chemistry | Best Researcher Award

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Mrs. Ralitsa Uzunova | Physical Chemistry | Best Researcher Award

Mrs. Ralitsa Uzunova | Physical Chemistry | PhD student/ Researcher at Department of Chemical and Pharmaceutical Engineering, sofia university, Bulgaria

Ralitsa Ivanova Uzunova is a dedicated Ph.D. student and researcher in the Department of Chemical and Pharmaceutical Engineering at Sofia University “St. Kliment Ohridski.” With a strong background in chemistry, she holds a Bachelor’s degree in “Chemistry” and a Master’s in “Medicinal Chemistry.” Over the past seven years, she has actively contributed to various research projects, particularly in surfactant solutions, interfacial tension, and adsorption studies. She has participated in 13 national and international conferences, delivering nine oral presentations, including at the prestigious 37th European Colloid and Interface Society Conference and the 19th European Student Colloid Conference. Her collaborations extend to industry giants like Unilever and S.C. Johnson, as well as the National Science Fund of Bulgaria. Ralitsa’s work focuses on understanding volatile molecules’ adsorption-desorption mechanisms, which are crucial in cosmetics, household products, and pharmaceuticals. Her dedication to research has led to two indexed journal publications, benefiting the broader scientific community.

Professional Profile :         

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Summary of Suitability for Award:

Ralitsa Ivanova Uzunova is an emerging researcher in the field of Chemical and Pharmaceutical Engineering, specializing in surface chemistry, interfacial tension, and adsorption phenomena. With a strong academic background (Bachelor’s in Chemistry and Master’s in Medicinal Chemistry), she has gained seven years of research experience at Sofia University “St. Kliment Ohridski.” Her participation in eight research projects, two indexed journal publications, and four industry collaborations with Unilever, S. C. Johnson, and others demonstrate her contribution to applied research. Additionally, her active engagement in national and international conferences (including the 37th European Colloid and Interface Society Conference) highlights her role in scientific dissemination. Her work on volatile molecules used in cosmetics and household formulations has both theoretical significance and industrial application, aligning well with the criteria for excellence in research. Ralitsa Ivanova Uzunova is a deserving candidate for the “Best Researcher Award”, given her multifaceted contributions to chemical engineering research, industrial collaborations, and scientific impact. Her interdisciplinary expertise in cosmetics, pharmaceuticals, and surface chemistry showcases her ability to bridge academia and industry, making her an ideal contender for this prestigious recognition.

🎓Education:

Ralitsa Ivanova Uzunova pursued her higher education in chemistry with a keen interest in interdisciplinary applications. She obtained her Bachelor’s degree in Chemistry from Sofia University “St. Kliment Ohridski,” where she built a strong foundation in chemical principles and analytical techniques. Following her undergraduate studies, she completed a Master’s degree in Medicinal Chemistry, focusing on bioactive compounds and their applications in pharmaceuticals and healthcare. Currently, she is pursuing a Ph.D. in Chemical and Pharmaceutical Engineering, specializing in surfactant solutions, interfacial tension, and adsorption phenomena. Throughout her academic journey, she has been actively engaged in research and has collaborated with industrial partners on multiple projects. Her educational background has equipped her with expertise in static and dynamic interfacial tension, cleaning mechanisms, and volatile molecule adsorption-desorption processes. Ralitsa continues to expand her knowledge through research collaborations, conference presentations, and scientific publications.

🏢Work Experience:

Ralitsa Ivanova Uzunova has amassed seven years of experience in research and academia while working in the Department of Chemical and Pharmaceutical Engineering at Sofia University. Her expertise spans static and dynamic interfacial tension, surfactant solutions, and oil drop attachment/detachment studies. She has contributed to eight research projects, collaborating with industry leaders such as Unilever, S. C. Johnson, and the National Science Fund of Bulgaria. Additionally, she has been involved in four consultancy/industry projects, applying her knowledge to real-world challenges in cosmetics and household chemistry. Ralitsa has actively participated in 13 national and international conferences, delivering nine oral presentations, including at prestigious European colloid conferences. Her research has resulted in two indexed journal publications, contributing valuable insights into volatile molecule interactions. Her work is instrumental in developing formulations for personal care and industrial applications, bridging the gap between scientific research and industrial needs.

🏅Awards: 

Ralitsa Ivanova Uzunova has been recognized for her exceptional contributions to the field of chemical and pharmaceutical engineering. She has received multiple accolades for her oral presentations at international conferences, particularly at the 37th European Colloid and Interface Society Conference and the 19th European Student Colloid Conference, where her work on interfacial tension and surfactant solutions was highly appreciated. As a member of the Bulgarian Association of Cosmetologists, she has contributed significantly to research in cosmetics and household chemistry. Her research collaborations with Unilever and S. C. Johnson have also been acknowledged for their impact on industrial formulations. Additionally, her involvement in National Science Fund of Bulgaria projects has played a crucial role in advancing knowledge in volatile molecule adsorption-desorption mechanisms. Ralitsa is currently nominated for the Best Researcher Award, recognizing her dedication to scientific excellence and innovation in colloid and interface science.

🔬Research Focus:

Ralitsa Ivanova Uzunova’s research focuses on static and dynamic interfacial tension, surfactant solutions, and volatile molecule interactions. Her work explores the bulk properties and adsorption behaviors of surfactants, which are crucial in cleaning, cosmetics, and pharmaceutical applications. She investigates the attachment/detachment of oil drops, enhancing formulations for detergents, skincare, and industrial surfactants. A significant part of her research delves into volatile molecule adsorption and desorption at interfaces, examining compounds like menthol, geraniol, linalool, benzyl acetate, and citronellol, widely used in personal care products and medicine. Her studies provide critical insights into optimizing formulations for enhanced stability, efficiency, and sustainability. Through collaborations with Unilever, S. C. Johnson, and the National Science Fund of Bulgaria, she applies her findings to industrial applications. Her work contributes to improving product performance, environmental sustainability, and the development of novel surfactant-based systems, making significant advancements in colloid and interface science.

Publication Top Notes:

“Quantitative characterization of the mass transfer of volatile amphiphiles between vapor and aqueous phases: Experiment vs theory”

“Kinetics of transfer of volatile amphiphiles (fragrances) from vapors to aqueous drops and vice versa: Interplay of diffusion and barrier mechanisms”

Dr. SHEKHAR RAPARTHI | Analytical Chemistry | Best Researcher Award

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Dr. SHEKHAR RAPARTHI | Analytical Chemistry | Best Researcher Award

Dr. SHEKHAR RAPARTHI | Analytical Chemistry | SCIENTIFIC OFFICER/H at NATIONAL CENTER FOR COMPOSITIONAL CHARACTERISATION OF MATERIALS,  India

Shekhar Raparthi is a Scientific Officer / H at the National Centre for Compositional Characterisation of Materials (NCCCM), BARC, Hyderabad. With over three decades of expertise in analytical chemistry, he specializes in trace and ultra-trace characterization of metals, alloys, and high-purity materials. His pioneering work in glow discharge quadrupole mass spectrometry and electrolyte cathode discharge atomic emission spectrometry has significantly advanced compositional analysis. Holding a Ph.D. in Chemistry from JNTU, Hyderabad (2008), he has published extensively in reputed international journals and served as a peer reviewer. Currently leading the ultra-trace analysis section at NCCCM since 2023, he is an esteemed member of India Society for Mass Spectrometry (ISMAS) and Indian Society of Analytical Science (ISAS). His contributions to spectrometric techniques have practical applications in industrial and nuclear material characterization, making him a respected figure in analytical and green chemistry research.

Professional Profile :         

Scopus  

Summary of Suitability for Award:

Dr. Shekhar Raparthi is a highly accomplished researcher specializing in trace and ultra-trace characterization of materials using mass and spectrometric techniques. With over 32 publications in high-impact journals, an h-index of 14, and 631 citations, he has made significant contributions to analytical chemistry. His pioneering research includes the development of infrared spectroscopic methods, glow discharge quadrupole mass spectrometry (GD-QMS), and novel electrolyte cathode discharge atomic emission spectrometric sources. These innovations have advanced material characterization techniques, benefiting the scientific community and industries dealing with high-purity materials, metals, and alloys. Dr. Raparthi’s extensive research contributions, innovative methodologies, and commitment to advancing analytical chemistry make him an ideal candidate for the “Best Researcher Award.” His work has been recognized through numerous international publications, and his role as the head of the ultra-trace analysis section at NCCCM, BARC, further solidifies his impact in the field.

🎓Education:

Shekhar Raparthi pursued his M.Sc. in Chemistry from the University of Hyderabad in 1993, where he developed a strong foundation in analytical chemistry. Following this, he underwent a one-year orientation program at BARC in 1994, gaining specialized training in advanced compositional characterization techniques. His academic journey culminated in a Ph.D. in Chemistry from Jawaharlal Nehru Technological University (JNTU), Hyderabad, in 2008. His doctoral research focused on the development of advanced mass spectrometric methodologies for the ultra-trace analysis of metals and high-purity materials. Over the years, he has continuously expanded his expertise through research, peer-reviewed publications, and participation in international analytical chemistry conferences. His educational background has been instrumental in his ability to innovate in trace and ultra-trace analysis techniques, making significant contributions to the field of analytical chemistry.

🏢Work Experience:

Shekhar Raparthi began his professional career in 1994 as a Scientific Officer/C at NCCCM, BARC, Hyderabad, specializing in the compositional characterization of various materials. Over the past 30 years, he has developed novel analytical methodologies for metals, alloys, and high-purity materials using mass spectrometric and spectroscopic techniques. His expertise includes glow discharge quadrupole mass spectrometry and electrolyte cathode discharge atomic emission spectrometry, contributing to advancements in trace and ultra-trace analysis. His work has been widely recognized, leading to 32 publications in reputed international journals. Since 2023, he has been heading the ultra-trace analysis section at NCCCM, overseeing critical research in compositional characterization. He is also an active peer reviewer for international journals. With extensive experience in spectrometric techniques, Shekhar Raparthi plays a key role in material characterization for nuclear, industrial, and high-tech applications.

🏅Awards: 

Shekhar Raparthi has received several accolades for his significant contributions to analytical chemistry and mass spectrometry. His infrared spectroscopic method for oxygen quantification in TiCl₄ was widely appreciated in the titanium industry, earning him recognition in the field. His research on glow discharge quadrupole mass spectrometry and matrix volatilization methodologies for ultra-trace characterization of high-purity germanium has been published in top international journals, including Analytical Chemistry. His expertise in trace element analysis has made him a valuable asset to BARC and the Indian scientific community. As a distinguished member of ISMAS and ISAS, he actively contributes to the advancement of analytical sciences in India. While he has not listed specific awards, his impactful research, numerous peer-reviewed publications, and leadership in ultra-trace analysis solidify his reputation as a leading scientist in compositional characterization.

🔬Research Focus:

Shekhar Raparthi’s research revolves around trace and ultra-trace characterization of materials using advanced mass spectrometric and spectroscopic techniques. His work plays a crucial role in ensuring the purity and compositional accuracy of metals, alloys, and high-purity materials. He has pioneered glow discharge quadrupole mass spectrometry (GD-QMS) for detecting impurities at ultra-trace levels. Additionally, his development of matrix volatilization methodologies has enhanced the characterization of high-purity germanium, a material critical in semiconductor and radiation detection applications. His innovations in electrolyte cathode discharge atomic emission spectrometry (ECD-AES) have improved the sensitivity and precision of trace element analysis. His research significantly contributes to nuclear, industrial, and advanced material applications, ensuring high accuracy in material compositional studies. As the head of the ultra-trace analysis section at NCCCM, his expertise in **

Publication Top Notes:

In-situ Ti–Ir and ammonium thiocyanate modifiers for improvement of sensitivity of Sc to sub parts per billion levels and its accurate quantification in coal fly ash and red mud by GFAAS

Hydrophobicity induced graphene oxide based dispersive micro solid phase extraction of strontium from seawater and groundwater prior to GFAAS determination

Direct determination of ultra-trace sodium in reactor secondary coolant waters and other waters by electrolyte cathode discharge atomic emission spectrometry

Citation Count: 1

 

Dr. Minitha R | Inorganic Chemistry | Best Researcher Award

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Dr. Minitha R | Inorganic Chemistry | Best Researcher Award

Dr. Minitha R ,Inorganic Chemistry, GOVERNMENT POLYTECHNIC COLLEGE, EZHUKONE, KOLLAM, KERALA, India

Dr. Minitha R. is an Associate Professor with over 14 years of teaching and 15 years of research experience in chemistry. She holds an M.Sc., M.Phil., NET, UGC-JRF, and Ph.D. Her expertise spans organic, coordination, supramolecular, and inorganic chemistry. She has served in key academic roles, including NSS Programme Officer and Chief Superintendent of Examinations. A dedicated researcher, Dr. Minitha has guided students and undertaken projects like developing a chemosensor for metal ion detection. She has organized multiple national seminars and actively participates in international conferences and workshops.

Professional Profile :                       

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Summary of Suitability for Award:

Dr. Minitha R., an accomplished Associate Professor with 15 years of research experience, has significantly contributed to the field of Inorganic Chemistry, particularly in Coordination Chemistry, Supramolecular Chemistry, and Organic Chemistry. With a strong publication record, she has authored several impactful research papers in highly reputed journals, covering diverse topics such as metal complexes, chemosensors, molecular structures, and spectroscopic studies. Dr. Minitha R. is an exceptional candidate for the “Best Researcher Award,” given her proven research excellence, scholarly contributions, and leadership in the scientific community. Her extensive work in metal-based coordination complexes, chemosensors, and supramolecular chemistry, along with her active role in mentoring and academic leadership, makes her a highly deserving nominee.

🎓Education:

Dr. Minitha R. holds a Ph.D. in Chemistry and has qualified for the NET and UGC-JRF. She completed her M.Sc. and M.Phil. in Chemistry, demonstrating academic excellence throughout. Her education provided her with a strong foundation in inorganic chemistry, particularly in complex synthesis, supramolecular interactions, and chemosensing applications. Her academic journey was driven by a passion for molecular recognition, ligand design, and structural chemistry. She has actively participated in seminars and workshops to enhance her knowledge and keep up with evolving research trends.

🏢Work Experience:

With 14 years of teaching and 15 years of research experience, Dr. Minitha R. has handled Organic, Inorganic, and Physical Chemistry courses. She has successfully guided research scholars, fostering innovations in supramolecular and coordination chemistry. Apart from teaching, she has played key roles as an NSS Programme Officer, Nature Club Coordinator, Chief Superintendent of Examinations, and Young Innovators Programme Facilitator. She has also organized national seminars and workshops on emerging trends in chemistry, enhancing academic collaboration and knowledge dissemination.

🏅Awards: 

Dr. Minitha R. has been recognized for her outstanding contributions to academia and research. She served as the NSS Programme Officer (2021-2022), demonstrating her commitment to student welfare and community service. As the Nature Club Coordinator (2019-2020), she played a crucial role in promoting environmental awareness. Her leadership extended to being the Chief Superintendent of Examinations (2020-2021), ensuring smooth academic assessments. Additionally, she facilitated the Young Innovators Programme (2019), fostering creativity and scientific curiosity among students. Her research endeavors were supported by a KSCSTE-funded M.Sc. student project, where she developed a chemosensor for metal ion detection. These roles reflect her dedication to education, research, and institutional development.

🔬Research Focus:

Dr. Minitha R. specializes in Inorganic Chemistry, with a keen interest in Organic Chemistry, Coordination Chemistry, and Supramolecular Chemistry. Her research explores the synthesis and characterization of novel metal complexes, particularly those with biological and chemosensory applications. She has contributed significantly to the development of pyrazolylhydrazone-based metal complexes, dioxo molybdenum(VI) compounds, and benzothiazolium salts. Her work also extends to fluorescent hydrazones and ruthenium(II) complexes, emphasizing their structural and functional properties. Additionally, her studies on five-coordinate Zn(II) complexes highlight their potential in nonlinear optical applications. Through her research, she aims to bridge the gap between fundamental chemistry and real-world applications, particularly in materials science, catalysis, and medicinal chemistry.

Publication Top Notes:

Formation of dicyano ruthenium(II) complex mediated by triethylamine via deprotonation of hydrazonochroman-2,4-dione
Synthesis, spectroscopic and biological studies of metal complexes of an ONO donor pyrazolylhydrazone – Crystal structure of ligand and Co(II) complex
Studies of some dioxo molybdenum(VI) complexes of a polydentate ligand
One pot synthesis of 1–(3–methyl–4H–benzo[1,4]thiazin–2–yl)-ethanone and its antimicrobial properties
 Synthesis, spectral, and magnetic studies of benzothiazolium tetrachlorocuprate salts: crystal structure and semiconducting behavior of bis[2-(4-methoxyphenyl)benzothiazolium] tetrachlorocuprate(II)
Fluorescent coumarin-based hydrazone: Synthesis, crystal structure, and spectroscopic studies
FT-IR, FT-Raman and computational study of 1H-2,2-dimethyl-3H-phenothiazin-4[10H]-one
Synthesis, crystal structure, spectral analysis, and NLO studies of five-coordinate Zn(II) complexes of hydrazochromandione
 Chemosensing study of 1,4-Benzothiazine generated from acetylacetone

 

Dr. Yuntian Xiao | Coordination Chemistry | Best Researcher Award

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Dr. Yuntian Xiao | Coordination Chemistry | Best Researcher Award

Dr. Yuntian Xiao , Tianjin University , China

Yuntian Xiao is a Ph.D. candidate at Tianjin University’s School of Chemical Engineering and Technology, specializing in chemical engineering with a focus on crystallization technology. Guided by Professor Qiuxiang Yin, Xiao’s research emphasizes sustainable pesticide delivery, environmental chemistry, and molecular simulation. His academic journey began with a Bachelor’s degree in Chemical Engineering from Tianjin University of Science and Technology, followed by a Master’s degree in Chemical Engineering at Tianjin University. He has contributed significantly to the fields of cocrystal engineering and agrochemical sustainability, earning numerous accolades such as the National Scholarship and the Tianjin University Major Awards. Xiao has published extensively in top journals like Chem. Eng. J. and Green Chem., showcasing innovations in crystallization and molecular assembly. Proficient in advanced lab techniques and computational tools, Xiao actively engages in research that bridges science and industry, aiming to develop eco-friendly solutions in agriculture and beyond.

Professional Profile

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Summary of Suitability for Award:

Yuntian Xiao demonstrates exceptional qualifications that align with the criteria for the “Best Researcher Awards.” As a Ph.D. candidate specializing in chemical engineering at Tianjin University, Xiao has made significant contributions to sustainable agriculture and environmental chemistry through cocrystal engineering and molecular simulation. With 15 high-impact publications in prestigious journals such as Chem. Eng. J. and ACS Appl. Mater. Interfaces, Xiao has advanced innovations in agrochemical delivery systems and crystallization processes. His interdisciplinary research addresses global challenges like environmental sustainability and efficient pesticide usage. Based on his impactful research contributions, proven academic excellence, and innovative approaches to addressing critical environmental issues, Yuntian Xiao is a highly suitable candidate for the “Best Researcher Awards.” His dedication to sustainability and interdisciplinary problem-solving exemplifies the qualities expected of a leading researcher, making him a deserving nominee.

🎓Education:

Yuntian Xiao is pursuing a Ph.D. in Chemical Engineering at Tianjin University’s School of Chemical Engineering and Technology, where he specializes in crystallization technology under the guidance of Professor Qiuxiang Yin. His doctoral research focuses on sustainable agrochemical solutions through cocrystal engineering. Xiao earned his Master’s degree in Chemical Engineering from Tianjin University, working at the National Engineering Research Center of Industry Crystallization Technology under Professor Chuang Xie . During his Master’s program, he deepened his understanding of crystallization processes and molecular simulations. He holds a Bachelor’s degree in Chemical Engineering and Technology from Tianjin University of Science and Technology, where he excelled academically, achieving a GPA of 3.92. His comprehensive curriculum covered subjects like Chemical Thermodynamics, Reaction Engineering, and Phase Diagrams, building a solid foundation in chemical engineering principles. Xiao’s academic journey reflects a commitment to excellence and a passion for advancing sustainable chemical engineering solutions.

🏢Work Experience:

Yuntian Xiao has diverse research experience in crystallization technology and sustainable chemical engineering solutions. His doctoral research includes developing cocrystal engineering strategies for agrochemical delivery, focusing on herbicides with sustained release, reduced leaching, and enhanced efficiency. He has employed molecular simulations to understand these processes at a mechanistic level. Xiao has also contributed to interdisciplinary projects, including the melt crystallization of buty nediol, reactive crystallization of sodium bicarbonate, and cooling crystallization of creatine phosphate sodium. His main responsibilities involved optimizing experimental methods, modeling processes, and analyzing factors influencing industrial crystallization outcomes. Proficient in techniques like PXRD, TGA/DSC, SEM, Raman, and HPLC, Xiao also has advanced computational skills, including MATLAB and Materials Studio. His expertise combines experimental techniques with computational modeling, allowing him to bridge fundamental research with industrial applications. Xiao’s contributions highlight his ability to address real-world challenges in chemical engineering effectively.

🏅Awards: 

Yuntian Xiao has received numerous awards recognizing his academic excellence and research achievements. As a Ph.D. student, he earned the Ph.D. Student Major Award (2021–2022) from Tianjin University for his innovative research in chemical engineering. During his Master’s program, he consistently achieved the Master Student Major Awards (2018–2021) and a Minor Award (2019–2020) for exceptional academic performance and contributions to crystallization research. His undergraduate achievements include the National Scholarship (2017–2018), a prestigious honor awarded for outstanding academic performance and extracurricular involvement. Additionally, Xiao received the Student Major Awards (2015–2018) from Tianjin University of Science and Technology and the Merit Student Award (2015–2016) from Hebei University of Technology. These accolades reflect Xiao’s dedication to excellence and his impactful contributions to chemical engineering research, solidifying his reputation as a top-performing researcher and scholar.

🔬Research Focus:

Yuntian Xiao’s research focuses on sustainable chemical engineering solutions, particularly through cocrystal engineering. His work addresses global challenges in agriculture and environmental chemistry by designing eco-friendly agrochemical delivery systems. By developing novel cocrystals, Xiao aims to achieve sustained-release pesticides and herbicides with reduced environmental leaching and enhanced efficacy. His expertise extends to mechanochemistry and molecular simulations, employing advanced computational tools to predict and optimize crystallization mechanisms. Xiao has also explored solid-state chemistry to enhance the lifecycle efficiency of agrochemicals. His interdisciplinary projects include studies on the crystallization of buty nediol, sodium bicarbonate, and creatine phosphate sodium, demonstrating his ability to translate research into industrial applications. Xiao’s research integrates experimental techniques like PXRD, Raman spectroscopy, and HPLC with computational modeling, ensuring a comprehensive understanding of crystallization processes. His innovative work in sustainable chemical engineering highlights his commitment to addressing pressing environmental and agricultural challenges.

Publication Top Notes:

1. Title: Cocrystals of propylthiouracil and nutraceuticals toward sustained-release: Design, structure analysis, and solid-state characterization
Authors: Y Xiao, L Zhou, H Hao, Y Bao, Q Yin, C Xie
Journal: Crystal Growth & Design
Citations: 47
Year: 2021

2. Title: New salts and cocrystals of pymetrozine with improvements on solubility and humidity stability: Experimental and theoretical study
Authors: D Wu, J Li, Y Xiao, X Ji, C Li, B Zhang, B Hou, L Zhou, C Xie, J Gong, …
Journal: Crystal Growth & Design
Citations: 46
Year: 2021

3. Title: Mechanochemical synthesis of cocrystal: From mechanism to application
Authors: Y Xiao, C Wu, X Hu, K Chen, L Qi, P Cui, L Zhou, Q Yin
Journal: Crystal Growth & Design
Citations: 29
Year: 2023

4. Title: Cocrystal engineering strategy for sustained release and leaching reduction of herbicides: a case study of metamitron
Authors: Y Xiao, C Wu, L Zhou, Q Yin, J Yang
Journal: Green Chemistry
Citations: 24
Year: 2022

5. Title: Pursuing Green and Efficient Agriculture from Molecular Assembly: A Review of Solid-State Forms on Agrochemicals
Authors: Y Xiao, C Wu, P Cui, L Zhou, Q Yin
Journal: Journal of Agricultural and Food Chemistry
Citations: 21
Year: 2023

6. Title: Analysis of solid-liquid equilibrium behavior of highly water-soluble beet herbicide metamitron in thirteen pure solvents using experiments and molecular simulations
Authors: Y Xiao, C Wu, C Zhao, L Qi, Y Bao, L Zhou, Q Yin
Journal: Journal of Molecular Liquids
Citations: 18
Year: 2022

7. Title: Structure analysis and insight into hydrogen bond and van der Waals interactions of etoricoxib cocrystals and cocrystal solvate
Authors: Y Wang, L Wang, F Zhang, N Wang, Y Gao, Y Xiao, Z Wang, Y Bao
Journal: Journal of Molecular Structure
Citations: 16
Year: 2022

8. Title: Comparison Study of KBH4 Spherical Agglomerates Prepared in Different Antisolvents: Mechanisms and Properties
Authors: Z Zhang, L Wang, P Zhao, Y Xiao, H Hao, Y Bao
Journal: Industrial & Engineering Chemistry Research
Citations: 13
Year: 2021

9. Title: Intermolecular interactions and solubility behavior of multicomponent crystal forms of 2,4-D: Design, structure analysis, and solid-state characterization
Authors: L Fang, Y Xiao, C Zhang, Z Gao, S Wu, J Gong, S Rohani
Journal: CrystEngComm
Citations: 13
Year: 2021

10. Title: Enhancing adsorption capacity and herbicidal efficacy of 2,4-D through supramolecular self-assembly: insights from cocrystal engineering to solution chemistry
Authors: Y Xiao, C Wu, P Cui, X Luo, L Zhou, Q Yin
Journal: Chemical Engineering Journal
Citations: 12
Year: 2023