Mr. ROSHAN KUMAR | Materials Chemistry | Best Researcher Award

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Mr. ROSHAN KUMAR | Materials Chemistry | Best Researcher Award

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

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

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Summary of Suitability for Award:

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

🎓Education:

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

🏢Work Experience:

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

🏅Awards: 

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

🔬Research Focus:

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

Publication Top Notes:

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

Citations: 2

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

 

 

Prof. 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.

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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

 

 

Assoc. Prof. Dr. Xiaoming Zhang | Physical Chemistry | Women Researcher Award

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Assoc. Prof. Dr. Xiaoming Zhang | Physical Chemistry | Women Researcher Award

Assoc. Prof. Dr. Xiaoming Zhang , Physical Chemistry , Minzu University of China , China

Dr. Zhang Xiaoming is an Associate Professor in Physical Chemistry at the College of Science, Minzu University of China. She specializes in functional self-assembly and interfacial physics of nanomaterials for applications in energy batteries, photocatalytic water splitting, and ultra-high-resolution imaging. She earned her Ph.D. from the Institute of Chemistry, Chinese Academy of Sciences in 2007. Dr. Zhang has held postdoctoral positions at Keio University (Japan), Dublin City University (Ireland), and the National Center for Nanoscience and Technology (China). She has published over 60 SCI-indexed papers and led multiple national and municipal research projects. Her work bridges fundamental nanoscience with real-world applications in energy and biotechnology. She is actively involved in editorial boards and academic committees and has received several teaching and research awards. She also mentors postgraduate and international postdoctoral researchers, contributing to global scientific exchange.

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Summary of Suitability for Award:

Dr. Zhang holds a Ph.D. in Physical Chemistry from the prestigious Institute of Chemistry, Chinese Academy of Sciences, with additional advanced training from globally recognized institutions such as Keio University (Japan) and Dublin City University (Ireland). She has published over 60 SCI-indexed papers as first or corresponding author, indicating her leading role in innovative research. Her work on nanomaterials, interfacial physics, and applications in energy storage, photocatalysis, and super-resolution imaging is both interdisciplinary and of high societal relevance. Dr. Zhang is the Principal Investigator for a major National Natural Science Foundation of China project and has led/co-led several national and international research initiatives, including talent introduction and key development programs. She is a Master’s and Ph.D. supervisor, actively mentoring both domestic and international researchers, especially women and underrepresented groups, thus contributing to capacity building and gender equity in science. Dr. Zhang Xiaoming embodies the ideal profile for the “Women Researcher Award”—a dynamic scientist who excels in cutting-edge research, mentors the next generation, contributes to international scientific dialogue, and advances gender representation in science. Her contributions not only enrich the scientific community but also serve as a role model for aspiring women researchers globally. Awarding her would recognize and further empower women’s leadership in science and technology.

🎓Education:

Dr. Zhang Xiaoming completed her Ph.D. in Physical Chemistry (2007) at the Institute of Chemistry, Chinese Academy of Sciences under the supervision of Prof. Junbai Li. She earned her M.Sc. in Physical Chemistry (2004) from Shandong Normal University, mentored by Prof. Zexin Wang, where she began her research into molecular self-assembly. Prior to that, she obtained her B.Sc. in Chemistry (2001) from the same university. Her education laid the foundation for her interdisciplinary approach, combining chemistry, nanotechnology, and physics. Through her studies, she developed a deep understanding of surface chemistry, interfacial interactions, and bio-functionalization, which now underpin her research on nanomaterial design for energy and biomedical applications.

🏢Work Experience:

Dr. Zhang has extensive academic and industrial experience. Since 2017, she has served as an Associate Professor at Minzu University of China. Before that, she was Deputy General Manager and Senior Engineer at the American Bentley Company (Beijing) from 2015 to 2017. Her academic journey includes postdoctoral positions at Keio University (Japan, 2007–2008), Dublin City University (Ireland, 2010–2012), and the National Center for Nanoscience and Technology, China (2012–2015). This international research exposure has shaped her cross-disciplinary expertise in nanoscience, interfacial physics, and functional materials. She has been actively involved in major national-level research projects and contributes to graduate education and talent training initiatives.

🏅Awards: 

Dr. Zhang has received numerous awards for her academic, research, and teaching excellence. These include the 2025 Outstanding Individual in Undergraduate Recruitment Publicity and 2024 Outstanding Work Performance awards from Minzu University. She earned Second Prize in the 2024 Education and Teaching Innovation Competition and several awards for teaching excellence, including the First Prize in the 11th Teaching Competition and the Best Teaching Demonstration Award (2018). Her research was internationally recognized with the IRCSET EMPOWER Fellowship (2010) in Ireland. She has also been honored as an Outstanding Instructor and Outstanding Communist Party Member and continues to be a highly active contributor in national education evaluations and academic forums.

🔬Research Focus:

Dr. Zhang’s research focuses on functional nanomaterials, particularly their self-assembly, bio-functionalization, and interfacial physics. Her goal is to harness these properties for energy storage, photocatalytic water splitting, and ultra-high resolution fluorescence imaging. Her interdisciplinary approach blends chemistry, nanotechnology, and biology. She investigates how nanostructures form and behave at interfaces, which is key to improving battery performance and catalytic efficiency. One of her recent projects explores the co-assembly of glucagon-like peptide GLP-1 with lipopeptides, using super-resolution fluorescence microscopy to visualize intracellular transport. She also studies the epitaxial growth of GeSn alloys for use in mid-infrared photodetectors, expanding her expertise into semiconductor applications.

Publication Top Notes:

1. High-performance ethanol detection achieved by WO₃/Co₃O₄ composite heterojunctions with synergistic p-n junction features

2. Probing Peptide Assembly and Interaction via High-Resolution Imaging Techniques: A Mini Review.

3. Engineering of peptide assemblies for adaptable protein delivery to achieve efficient intracellular biocatalysis

4. Manganese doped tailored cobalt sulfide as an accelerated catalyst for oxygen evolution reaction

5. Solution-processed, ultrasensitive, high current density vertical phototransistor using porous carbon nanotube electrode

6. Dramatic increase in SWIR detection for GeSn strip detector with graphene hybrid structure

7. A review on III–V compound semiconductor short wave infrared avalanche photodiodes

8. Two-dimensional antimony selenide (Sb₂Se₃) nanosheets prepared by hydrothermal method for visible-light photodetectors

9. Fabrication of graphene: CdSe quantum dots/CdS nanorod heterojunction photodetector and role of graphene to enhance the photoresponsive characteristics

10. One-Step Synthesis of SiOx@Graphene Composite Material by a Hydrothermal Method for Lithium-Ion Battery Anodes

 

Ms. NTUMBA LOBO | Physical Chemistry | Best Researcher Award

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Ms. NTUMBA LOBO | Physical Chemistry | Best Researcher Award

Ms. NTUMBA LOBO | Physical Chemistry | PhD student at NAGOYA INSTITUTE OF TECHNOLOGY, Japan

Ntumba Lobo, a Congolese researcher, is a Ph.D. student and research assistant at Nagoya Institute of Technology, Japan. She specializes in semiconductor materials, focusing on carrier recombination effects in perovskites. She holds a Master’s degree from Shibaura Institute of Technology, Japan, in hydrogen storage materials, and an M.Sc. in Nuclear Physics from Addis Ababa University, Ethiopia. With experience in international collaborations, she was an exchange researcher at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany. Ntumba has participated in several scientific conferences and published extensively in high-impact journals. She has also held teaching and research positions, including at the University of Kinshasa and the Centre Régional de Recherche Nucléaire de Kinshasa. Her work contributes significantly to materials science and renewable energy applications.

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Summary of Suitability for Award:

Ntumba Lobo is an exceptional researcher with a strong multidisciplinary background in semiconductor materials, energy storage, and nuclear physics. Her Ph.D. research at Nagoya Institute of Technology, Japan, focuses on metal halide perovskites, lithium tantalate, and carrier dynamics, contributing significantly to the development of advanced semiconductor materials. She has demonstrated excellence in research through multiple international collaborations, including an exchange program at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany. Her expertise in material characterization techniques such as Time-Resolved Photoluminescence (TRPL), Scanning Electron Microscopy (SEM), and X-ray Diffraction (XRD) has led to high-impact publications and conference presentations. Ntumba Lobo’s extensive research contributions, global collaborations, and expertise in semiconductor and energy materials make her a strong candidate for the “Best Researcher Award.” Her work is not only innovative but also has a significant impact on the future of optoelectronic devices and sustainable energy solutions. Her dedication to scientific excellence, combined with her ability to work across disciplines, positions her as a deserving recipient of this prestigious recognition.

🎓Education:

Ntumba Lobo is currently pursuing a Ph.D. in Science and Engineering at Nagoya Institute of Technology, Japan, specializing in semiconductor materials (expected completion in September 2025). She was an exchange student at i-MEET, Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany, in 2022, where she worked on single and polycrystal semiconductor materials. She obtained a Master’s degree in Science and Engineering from Shibaura Institute of Technology, Japan (2018-2020), focusing on energy storage materials. Before that, she completed an M.Sc. in Nuclear Physics from Addis Ababa University, Ethiopia (2014-2016), with a dissertation on nuclear fusion reactions. Her academic journey began with a B.Sc. (Honors) in Physics from the University of Kinshasa, Democratic Republic of the Congo (2012), where she contributed to non-destructive characterization of reinforced concrete using ultrasound methods. Her diverse educational background in physics, material science, and engineering has equipped her with expertise in semiconductor research and energy materials.

🏢Work Experience:

Ntumba Lobo has extensive experience in research and teaching. Since 2020, she has been a Research Assistant at Nagoya Institute of Technology, working on semiconductor materials and device characterization. She has completed multiple internships, including at OSM Group Co., Ltd. (Japan, 2019) and For Delight Co. Ltd. (Japan, 2018), where she gained industry exposure. Her research career started with an internship at the Centre Régional de Recherche Nucléaire de Kinshasa (2016-2017) in nuclear physics. She also worked as a Teaching Assistant at the University of Kinshasa (2013-2014) and taught physics, scientific drawing, and technology at Liziba High School (2012-2013). Her hands-on expertise in material characterization techniques, including Scanning Electron Microscopy (SEM), X-ray Diffraction (XRD), and photoconductivity measurements, has contributed to multiple high-impact publications. Her professional experience spans academic, industrial, and research institutions, making her a well-rounded scientist in semiconductor and energy materials.

🏅Awards: 

Ntumba Lobo has been recognized for her contributions to material science and semiconductor research. She received funding for an exchange research program at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany (2022), where she worked on advanced semiconductor materials. Her research on energy storage materials during her Master’s at Shibaura Institute of Technology was highly appreciated. She has presented her work at prestigious conferences, including the 16th International Symposium on Metal-Hydrogen Systems (China, 2018) and the Solid-State Devices and Materials Conference (Japan, 2023). She also participated in specialized training programs such as the Summer School on Space Weather in Kinshasa (2011) and Advanced Python Programming and Geographic Information Systems training in Addis Ababa (2016). Her continuous engagement in international research collaborations and conferences showcases her commitment to scientific advancement.

🔬Research Focus:

Ntumba Lobo’s research focuses on semiconductor materials, particularly metal halide perovskites and their carrier dynamics. She investigates surface recombination, carrier lifetime, and trapping effects in single and polycrystalline materials using techniques like Microwave Photoconductivity Decay (µPCD) and Time-Resolved Photoluminescence (TRPL). Her work extends to lithium tantalate and its photoconductance properties. She has also contributed to the field of hydrogen storage materials, analyzing the effects of TiO₂, Nb₂O₅, and TiH₂ catalysts on magnesium hydride. Additionally, her expertise in nuclear physics has allowed her to explore neutron-induced reactions and fusion mechanisms. By integrating her knowledge in physics, materials science, and engineering, she aims to develop efficient, stable, and high-performance materials for energy storage and semiconductor applications. Her research is pivotal in advancing next-generation optoelectronic devices and sustainable energy solutions.

Publication Top Notes:

Stability investigation of the γ-MgH₂ phase synthesized by high-energy ball milling

Citations: 27

Stable quasi-solid-state zinc-ion battery based on the hydrated vanadium oxide cathode and polyacrylamide-organohydrogel electrolyte

Citations: 13

Trapping effects and surface/interface recombination of carrier recombination in single- or poly-crystalline metal halide perovskites

Citations: 9

Study of ²⁰Ne Induced Reaction in ⁵⁹Co: Incomplete and Complete Fusion

Citations: 3

Effect of TiO₂ + Nb₂O₅ + TiH₂ Catalysts on Hydrogen Storage Properties of Magnesium Hydride

Citations: 2

La Super Symétrie en Physique Quantique

Citations: 1

Mitigation of carrier trapping effects on carrier lifetime measurements with continuous-wave laser illumination for Pb-based metal halide perovskite materials

Transport and business improvement in the province of South-Ubangi (Democratic Republic of the Congo)

 

Prof. Behrooz Zargar | Analytical Chemistry | Best Researcher Award

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Prof. Behrooz Zargar | Analytical Chemistry | Best Researcher Award

Prof. Behrooz Zargar | Analytical Chemistry | Full Professor in Analytical Chemistry/Researcher/Lecturer at Shahid Chamran University of Ahvaz, Iran 

Prof. Behrooz Zargar is a distinguished Full Professor of Analytical Chemistry at Shahid Chamran University of Ahvaz, Iran, with over two decades of academic and research excellence. His expertise spans electrochemistry, nano-chemistry, solar cells, and environmental remediation. He has published over 60 high-impact research papers and actively collaborates with organizations such as ISO and the Iranian Safety and Environment Committee. As the Founder and Head of the Central Laboratory at Shahid Chamran University, he has played a pivotal role in advancing analytical techniques. His research has contributed significantly to pesticide analysis, mycotoxin detection, and nanomaterial-based pollutant degradation. His commitment to academia is reflected in his editorial appointments, research collaborations, and mentorship of numerous students. With an impressive citation index of 2143, Prof. Zargar’s groundbreaking work has influenced various industrial and environmental sectors, making him a leading figure in analytical and environmental chemistry.

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Summary of Suitability for Award:

Prof. Behrooz Zargar, a distinguished Professor of Analytical Chemistry at Shahid Chamran University of Ahvaz, has made remarkable contributions to analytical chemistry, particularly in nanotechnology, electrochemistry, and environmental chemistry. With over 60 publications in high-impact journals (SCI, Scopus indexed), a citation index of 2143, and extensive research in solar cells, solid-phase extraction, and photo-degradation, his scientific impact is substantial. His research collaborations, including work with ISO Organization and national standardization committees, demonstrate his leadership in applied scientific advancements. Additionally, his industry projects on food safety and environmental toxin analysis highlight his contributions to public health and sustainability. With a proven track record of pioneering research, industry collaborations, and leadership in analytical chemistry, Prof. Zargar stands as a highly deserving candidate for the “Best Researcher Award.” His groundbreaking research in nano-chemistry and solar cell technology continues to drive innovation, making him an excellent choice for this prestigious recognition.

🎓Education:

Prof. Behrooz Zargar holds a Ph.D. in Analytical Chemistry (2001) from Shahid Chamran University of Ahvaz. He earned his Master’s degree in Analytical Chemistry (1996) from the same institution, building a strong foundation in instrumental analysis and environmental monitoring. His Bachelor’s degree in Applied Chemistry (1992) from Isfahan University of Technology laid the groundwork for his interest in chemical applications for industrial and environmental solutions. Prior to university education, he completed a Diploma in Experimental Sciences, fostering his analytical skills early on. His academic journey reflects a commitment to precision, innovation, and interdisciplinary research. Over the years, he has integrated electrochemical, spectroscopic, and chromatographic techniques into his research, making significant contributions to chemical science. His education has been instrumental in shaping his expertise in nano-chemistry, separation sciences, and environmental remediation, areas where he continues to make impactful discoveries.

🏢Work Experience:

Prof. Zargar’s academic career spans over two decades at Shahid Chamran University of Ahvaz, where he has held various positions. He served as an Assistant Professor (2002-2009), progressing to Associate Professor (2009-2017), and was promoted to Full Professor in 2017. With a Grade 32 ranking, he has contributed extensively to teaching, research, and institutional leadership. He has collaborated with ISO, developed national safety and environmental standards, and played a key role in nanotechnology advancements. His consultancy work has influenced industries by assessing toxic residues in food, environmental contaminants, and industrial pollutants. As the Founder and Head of the Central Laboratory at Shahid Chamran University, he has enhanced research infrastructure, fostering innovation. His experience extends to mentoring Ph.D. and Master’s students, shaping the next generation of chemists. His expertise in solar cells, electroless plating, corrosion, and electrochemical preconcentration has made him a respected figure in analytical and industrial chemistry.

🏅Awards: 

Prof. Behrooz Zargar’s contributions to analytical chemistry and environmental sciences have earned him numerous accolades. He was recognized for 10 years of excellent service to ISO/TC 17/SC 1/ WG 74 in 2025 for his contributions to steel chemical composition analysis. His work in nanotechnology and environmental monitoring has been acknowledged by national and international scientific committees. As a key member of the Iranian Safety and Environment Committee, he has shaped national policies on chemical safety and environmental sustainability. His editorial appointments in high-impact journals further highlight his scholarly influence. His innovative work in photo-degradation, nano-based solid-phase extraction, and pesticide residue analysis has led to several research grants and industrial collaborations. His role in the development of national analytical standards in Khuzestan, Iran, reflects his commitment to advancing chemical safety regulations. Prof. Zargar’s outstanding research contributions and institutional leadership make him a highly esteemed scientist.

🔬Research Focus:

Prof. Zargar’s research spans analytical, environmental, and industrial chemistry, with a strong emphasis on nanotechnology applications. His work in electrochemical preconcentration and separation techniques has improved trace-level detection of contaminants in food and water. His nano-chemistry expertise has advanced solar cell technology, particularly FeS₂/TiO₂-based solar cells. He has pioneered printed-based voltammetric selective electrodes for precise electrochemical analysis. His work in photo-degradation of cyanide ions using nanomaterials has significant environmental implications. He has developed aerogel-based solid-phase extraction methods for efficient pollutant removal. His industrial research includes toxic residue detection in grains, milk, and bread. His collaboration with ISO and the Iranian Nanotechnology Committee has led to the establishment of new safety and environmental guidelines. His research continues to bridge analytical chemistry with environmental sustainability, contributing to the development of safer chemical practices and advanced material applications.

Publication Top Notes:

A nano curcumin–multi-walled carbon nanotube composite as a fluorescence chemosensor for trace determination of celecoxib in serum samples

An effervescence-assisted dispersive liquid–liquid micro-extraction of captopril based on hydrophobic deep eutectic solvent

Citations: 8

Determination of Tetracycline Using Ultrasound-Assisted Dispersive Liquid–Liquid Microextraction Based on Solidification of Floating Organic Droplet Followed by HPLC–UV System​​

Over-oxidized carbon paste electrode modified with pretreated carbon nanofiber for the simultaneous detection of epinephrine and uric acid in the presence of ascorbic acid​​

Dendrimer-modified magnetic nanoparticles as a sorbent in dispersive micro-solid phase extraction for preconcentration of metribuzin in a water sample​​

Synthesis and dye adsorption studies of the {dibromo(1,1′-(1,2-ethanediyl)bis(3-methyl-imidazole-2-thione)dicopper(i)}n polymer and its conversion to CuO nanospheres for photocatalytic and antibacterial applications​​

Adsorption and removal of ametryn using graphene oxide nano-sheets from farm waste water and optimization using response surface methodology​​

Application of vortex-assisted solid-phase extraction for the simultaneous preconcentration of Cd(ii) and Pb(ii) by nano clinoptilolite modified with 5(p-dimethylaminobenzylidene) rhodanine​​

Metal oxide/TiO₂ nanocomposites as efficient adsorbents for relatively high temperature H₂S removal​​

Novel magnetic hollow zein nanoparticles for preconcentration of chlorpyrifos from water and soil samples prior to analysis via high-performance liquid chromatography (HPLC)

**Synthesis of an ion-imprinted sorbent by surface imprinting of magnetized carbon nanotubes for determination

Dr. Jean Moto Ongagna | Theoretical Chemistry | Catalysis Award

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Dr. Jean Moto Ongagna | Theoretical Chemistry | Catalysis Award

Dr. Jean Moto Ongagna | Theoretical Chemistry | Lecturer – University of Douala-Cameroon , Cameroon

Dr. Jean Moto Ongagna is a Cameroonian researcher specializing in Theoretical chemistry and Computational Chemistry . He obtained his Ph.D. from the University of Douala in 2021. His expertise spans Density Functional Theory (DFT), Pharmacokinetics (ADMET), Molecular Docking, Molecular Dynamics (MD), and ab initio Molecular Dynamics (ADMP). Dr. Ongagna has contributed significantly to computational chemistry, particularly in studying metal complexes, chemical bonding, and reaction mechanisms. He has participated in prestigious international conferences and workshops, presenting groundbreaking research on chemical bonding interactions. With numerous publications in high-impact journals such as RSC Advances and the International Journal of Quantum Chemistry, his work advances the understanding of transition metal complexes and their applications. He actively collaborates with researchers worldwide and is dedicated to developing computational tools for chemical and biological systems.

Professional Profile : 

Orcid  

Summary of Suitability for Award:

Dr. Jean Moto Ongagna is an outstanding candidate for the “Catalysis Awards”, given his significant contributions to computational catalysis and theoretical chemistry. His research extensively applies Density Functional Theory (DFT), Quantum Chemical Calculations, and Molecular Dynamics (MD) to investigate transition metal complexes, non-standard chemical bonding, and catalytic reaction mechanisms. His studies provide deep insights into metal-ligand interactions, catalytic efficiency, and reaction pathways, which are fundamental for designing novel catalytic systems. Dr. Jean Moto Ongagna’s research in computational catalysis, transition metal chemistry, and theoretical modeling aligns perfectly with the objectives of the “Catalysis Awards”. His work advances the understanding of catalyst behavior, reaction mechanisms, and molecular interactions, making a substantial impact on modern catalysis research. His ability to integrate quantum chemistry tools with catalytic design positions him as a highly suitable candidate for this prestigious recognition.

🎓Education:

Dr. Jean Moto Ongagna pursued his higher education at the University of Douala, Cameroon. He earned a Ph.D. in Theoretical and Computational Chemistry (2021), focusing on Density Functional Theory (DFT) and molecular simulations. In 2016, he completed his Master’s degree in the same field, where he explored the computational analysis of metal-ligand interactions. His Bachelor’s degree in Physical Chemistry (2013) laid the foundation for his research on quantum chemistry and molecular modeling. Before university, he completed his GCE Advanced Level (Baccalauréat D) in 2008 at Laic Private College “La Liberté” in Douala. His education equipped him with expertise in quantum chemistry, molecular docking, and theoretical modeling, enabling him to contribute to cutting-edge research. Throughout his academic journey, he attended specialized workshops and conferences to enhance his skills in computational chemistry, continuously refining his expertise in quantum simulations and advanced chemical theories.

🏢Work Experience:

Dr. Jean Moto Ongagna has extensive experience in Theoretical chemistry and Computational Chemistry, with expertise in Density Functional Theory (DFT), Molecular Docking, Pharmacokinetics (ADMET), and ab initio Molecular Dynamics (ADMP). He has actively participated in international conferences, presenting research on transition metal complexes, chemical bonding, and molecular interactions. He has contributed to significant projects involving the computational study of catalysts, biomolecular interactions, and pharmaceutical compounds. Dr. Ongagna has also collaborated with renowned institutions and researchers worldwide, publishing extensively in high-impact journals. His research experience includes developing and applying quantum chemical tools for investigating metal-ligand interactions and reaction mechanisms. He has been involved in multiple computational chemistry workshops, enhancing his knowledge of secondary metabolite discovery, quantum topology, and electronic structure theory. His contributions have led to a deeper understanding of non-standard chemical bonding and have implications for catalysis, drug design, and materials science.

🏅Awards: 

Dr. Jean Moto Ongagna has received multiple recognitions for his contributions to Theoretical and Computational Chemistry. He has been invited as a speaker at international conferences, including the 4th Commonwealth Chemistry Posters (2023) and the Virtual Conference on Chemistry and Its Applications (2021, 2022). His research on transition metal complexes and quantum chemistry has been published in high-impact journals such as RSC Advances and the International Journal of Quantum Chemistry. He has received accolades for his computational investigations on catalytic and biomolecular systems, contributing to the advancement of quantum chemical methodologies. His participation in scientific workshops at the University of Buea (Cameroon) and Technische Universität Dresden (Germany) further highlights his academic excellence. His continuous engagement in international scientific discussions and collaborations has strengthened his reputation as a leading researcher in quantum chemistry and molecular modeling.

🔬Research Focus:

Dr. Jean Moto Ongagna’s research focuses on Theoretical and Computational Chemistry, particularly Density Functional Theory (DFT), Quantum Chemical Calculations, Molecular Docking, Pharmacokinetics (ADMET), and Molecular Dynamics (MD). He specializes in studying transition metal complexes, non-standard chemical bonds, and catalytic reactions. His work involves topological analysis of chemical interactions using advanced computational techniques such as Quantum Theory of Atoms in Molecules (QTAIM), Energy Decomposition Analysis (EDA), and Natural Bond Orbital (NBO) analysis. He has made significant contributions to understanding palladium complexes, Diels–Alder reactions, and bioactive compounds. His research extends to computational drug discovery, antimicrobial compounds, and bioinorganic chemistry, aiming to bridge the gap between theoretical modeling and experimental applications. By integrating quantum chemical methods with molecular simulations, his studies provide valuable insights into reaction mechanisms, electronic structures, and potential applications in pharmaceuticals, catalysis, and material science.

Publication Top Notes:

Deciphering the Influence of Alkylene Bridged and Chelating Mode on Pd—C and Pd—X (X = Cl, Br, and I) Bonding Interaction Within Bis‐(NHC)‐Palladium Complexes Using Quantum Chemistry Tools

Authors: Gaël Mouzong D’Ambassa, Jean Moto Ongagna, Adjieufack Abel Idrice, Désiré Bikele Mama

Year: 2024

Computational Exploration of the Impact of Low‐Spin and High‐Spin Ground State on the Chelating Ability of Dimethylglyoxime Ligand on Dihalo Transition Metal: A QTAIM, EDA, and CDA Analysis

Authors: Daniel Lissouck, Suzane Leonie Djendo Mazia, Gaël Mouzong D’Ambassa, Jean Moto Ongagna

Year: 2024

Deciphering the Influence of PdII and PdIV Oxidation States on Non-Standard Chemical Bonds Within Bis(N-Heterocyclic Carbene) Complexes: Insights from DFT

Authors: Gaël Mouzong D’Ambassa, Jean Moto Ongagna, Adjieufack Abel Idrice, Désiré Bikele Mama

Year: 2024

Exploring the Mechanism of the Intramolecular Diels–Alder Reaction of (2E,4Z,6Z)-2(allyloxy)cycloocta-2,4,6-trien-1-one Using Bonding Evolution Theory

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2023

In Vitro and In Silico Studies of Antibacterial Activities of Secofriedelane Derivatives from Senna alata (L) Roxb

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2023

How a Chromium Tricarbonyl Complex Catalyzes the [3 + 2] Cycloaddition Reaction of N-Substituted Phenylnitrones with Styrene: A Molecular Electron Density Theory Analysis

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2023

Insight into the Antioxidant and Antiradical Properties of Colorotane Sesquiterpenes Extracted from Warburgia ugandensis: Theoretical Evaluation

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2021

Topological Unraveling of the [3+2] Cycloaddition (32CA) Reaction Between N-Methylphenylnitrone and Styrene Catalyzed by the Chromium Tricarbonyl Complex Using Electron Localization Function and Catastrophe Theory

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2021

B3LYP, M06 and B3PW91 DFT Assignment of nd8 Metal-Bis-(N-Heterocyclic Carbene) Complexes

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2020

 

 

 

Assist. Prof. Dr. Ohyla El gammal | Inorganic Chemistry | Inorganic Chemistry Award

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Assist. Prof. Dr. Ohyla El gammal | Inorganic Chemistry | Inorganic Chemistry Award

Assist. Prof. Dr. Ohyla El gammal , Menofia university , Egypt

Dr. Ohyla Ahmed Abd El-Latif El-Gammal is an Egyptian inorganic chemist specializing in metal complexes, macrocyclic synthesis, and their biomedical applications. She earned her Ph.D. in Inorganic Chemistry from Menoufia University in 2014 and has extensive experience in academia, having served as a lecturer at Najran University, Saudi Arabia, and Menoufia University, Egypt. Her research explores spectroscopic characterization, γ-irradiation effects, and the biological activities of metal complexes. She has attended numerous international conferences and workshops, contributing to scientific discussions on materials science, analytical chemistry, and bioinorganic applications. Dr. Ohyla is actively involved in scientific publishing, having authored several high-impact journal articles. She is also dedicated to mentoring students and advancing knowledge in transition metal chemistry.

Professional Profile:

Scopus 

Summary of Suitability for Award:

Ohyla Ahmed Abd El-Latif El-Gammal is a highly suitable candidate for the “Inorganic Chemistry Award” due to her extensive contributions to the field of inorganic chemistry, particularly in the synthesis and characterization of metal complexes with biomedical applications. Her research focuses on developing innovative macrocyclic ligands, Schiff base complexes, and transition metal coordination compounds. She has made significant advancements in understanding the structural and functional properties of metal-based drugs, emphasizing their potential as anticancer, antimicrobial, and antioxidant agents.Ohyla El-Gammal is an excellent candidate for the “Inorganic Chemistry Award.” Her innovative work in metal complex synthesis, combined with her significant impact on medicinal and environmental chemistry, aligns perfectly with the award’s objectives. Her dedication to advancing inorganic chemistry through both theoretical and applied research makes her a deserving recipient of this prestigious recognition.

🎓Education:

Ohyla Ahmed Abd El-Latif El-Gammal obtained her B.Sc. in Chemistry from the Faculty of Science at Menoufia University, Egypt. She pursued postgraduate studies in Chemistry, further deepening her expertise in the field. She earned her M.Sc. in Inorganic Chemistry, focusing on the synthesis and characterization of metal complexes. Her academic journey culminated in a Ph.D. in Inorganic Chemistry, where she explored the design and application of macrocyclic metal complexes. Additionally, she obtained an ICDL certification, demonstrating her proficiency in information and communication technology. Throughout her education, she developed a strong foundation in coordination chemistry, spectroscopic techniques, and materials science, which later shaped her research interests in anticancer, antioxidant, and antimicrobial studies. Her educational background provided her with the necessary expertise to contribute significantly to the field of inorganic chemistry, particularly in the synthesis of innovative metal complexes with potential biomedical applications.

🏢Work Experience:

Ohyla El-Gammal has extensive experience in academia, serving as a Lecturer in Chemistry at various institutions. She has taught undergraduate courses in inorganic chemistry, transition metals, quantum chemistry, and analytical techniques. Her teaching career includes positions at Najran University, Saudi Arabia, where she contributed to the education of students in the fields of lanthanides, actinides, and phase chemistry. She also served as a faculty member at Northern Border University, Rafha, Saudi Arabia, specializing in principal group chemistry and spectroscopic methods. Additionally, she has been actively involved in laboratory-based instruction, focusing on qualitative and quantitative analytical chemistry. Apart from teaching, she has participated in numerous workshops and conferences, enhancing her expertise in scientific research and publishing. Her experience spans both theoretical and practical aspects of chemistry, making her a well-rounded academic professional with a strong commitment to research and education.

🏅Awards: 

Ohyla El-Gammal has received multiple accolades in recognition of her contributions to chemistry and academia. She has been honored for her participation in prestigious international scientific conferences and workshops, where she presented her research on metal complexes and their biomedical applications. She has actively engaged in high-impact research collaborations, earning recognition for her significant contributions to inorganic chemistry. She has also been acknowledged for her dedication to teaching and mentoring students, ensuring excellence in chemical education. Her involvement in major research projects and her participation in international scientific academies have further established her as a distinguished researcher. In addition, her research on macrocyclic complexes and their anticancer properties has been widely appreciated, leading to invitations to speak at global scientific forums. Her contributions to scientific publishing, along with her active role in international webinars, have cemented her reputation as a dedicated and accomplished chemist.

🔬Research Focus:

Ohyla El-Gammal’s research interests lie in inorganic chemistry, particularly in the synthesis and characterization of metal complexes with biomedical applications. She specializes in the development of macrocyclic ligands, transition metal coordination compounds, and Schiff base complexes. Her work explores the spectroscopic characterization of newly synthesized compounds, focusing on their structural and functional properties. She investigates the impact of γ-irradiation on metal complexes, studying their stability and enhanced biological activity. Her research extends to anticancer, antioxidant, and antimicrobial activities, aiming to develop novel therapeutic agents. She also works on improving the surface morphology of metal complexes for enhanced pharmaceutical applications. Her studies contribute significantly to the understanding of metal-based drugs and their potential in medicine. By integrating spectroscopic analysis and computational modeling, she continues to advance knowledge in the field of inorganic chemistry, contributing to the development of innovative materials for biomedical and environmental applications.

Publication Top Notes:

Synthesis, characterization, molecular docking and in vitro antibacterial assessments of anthracene-bis(hydrazine)thiosemicarbazide complexes with Co(II), Ni(II) and Cu(II) ions

Authors: O.A. El-Gammal, A.A. El-Bindary, A.M. Eldesoky, I.M. Abd Al-Gader

Journal: Journal of Molecular Structure

Year: 2025

Citations: 1

DNA binding, potential anticancer, antioxidant and molecular docking simulations of some isonicotinohydrazide metal complexes with the impact of high energy γ-rays irradiation doses: Synthesis and structural characterization

Authors: O.A. El-Gammal, H.A. El-Boraey, H. Alshater

Journal: Journal of Molecular Structure

Year: 2024

Citations: 1

Bishydrazone ligand and its Zn-complex: synthesis, characterization and estimation of scalability inhibition mitigation effectiveness for API 5L X70 carbon steel in 3.5% NaCl solutions

Authors: O.A. El-Gammal, D.A. Saad, M.N. El-Nahass, K. Shalabi, Y.M. Abdallah

Journal: RSC Advances

Year: 2024

Synthesis, structural characterization, antioxidant, cytotoxic activities and docking studies of schiff base Cu(II) complexes

Authors: G.N. Rezk, O.A. El-Gammal, S.H. Alrefaee, A.A. El-Bindary, M.A. El-Bindary

Journal: Heliyon

Year: 2023

Citations: 20

Synthesis, spectral, DFT, intrinsic constant of DNA binding and antioxidant activity of vanadyl (IV)2+^2+ complexes of a symmetrical bisthiosemicarbazides

Authors: O.A. El-Gammal, M.A.R. El-Nawawy, H.A. Gomaa, B.M. Ismael

Journal: Journal of Molecular Structure

Year: 2023

Citations: 4

Divalent transition metal complexes of multidentate nitrogen, oxygen and sulfur containing ligand: Design, spectroscopic, theoretical molecular modeling and antioxidant-like activity

Authors: B.M. Ismael, M.A.R. El-Nawawy, H.A. Gomaa, O.A. El-Gammal

Journal: Egyptian Journal of Chemistry

Year: 2022

 

 

 

 

Dr. Shu Tian | Surface Chemistry Award | Best Researcher Award

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Dr. Shu Tian | Surface Chemistry Award | Best Researcher Award

Dr. Shu Tian, Ningbo Institute of Materials Technology & Engineering, CAS , China

Shu Tian is an Assistant Professor at Ningbo Institute of Materials Technology & Engineering, CAS. he holds a strong background in materials science and engineering, having earned his bachelor’s degree from Northeastern University and completed a joint master’s program between Shanghai University and Ningbo Institute. His Ph.D. in Chemical Engineering was awarded by Tianjin University. Dr. Tian’s research focuses on developing environmentally friendly, long-lasting antifouling materials, with a particular interest in organic and functional coatings. he has contributed to various advanced protective coatings and collaborates with several prestigious research institutions. Dr. Tian has published numerous research papers and holds multiple patents for his innovations in surface chemistry and materials science.

Professional Profile:

Google Scholar

Summary of Suitability for Award:

Dr. Shu Tian is highly suitable for the “Best Researcher Award” based on his extensive contributions to the field of materials science, particularly in the area of antifouling and functional coatings. his innovative approach to designing environmentally friendly, long-lasting coatings that address significant challenges such as marine biofouling, corrosion, and surface icing highlights his leadership in research. Dr. Tian has successfully led two major research projects and contributed to over 10 others, demonstrating her ability to drive impactful, collaborative scientific advancements.

🎓Education:

Shu Tian’s academic journey began with a Bachelor’s degree from the School of Materials Science and Engineering at Northeastern University. he continued his studies as a joint graduate student between Shanghai University and Ningbo Institute of Materials Technology and Engineering, CAS, where he completed his Master’s degree. Dr. Tian then pursued a Ph.D. at the School of Chemical Engineering, Tianjin University, focusing on advanced materials and coatings. He is strong educational foundation has propelled his into his  current position as an Assistant Professor at Ningbo Institute of Materials Technology & Engineering, where he continues to expand his expertise in surface chemistry and material science.

🏢Work Experience:

Dr. Shu Tian’s professional experience includes serving as an Assistant Professor at Ningbo Institute of Materials Technology & Engineering, CAS, since September 2023. Prior to this, he was involved in advanced research during his doctoral studies and contributed to various research projects on functional organic coatings. As the leader of two projects and a key member of over ten others, Dr. Tian has honed his skills in materials development, particularly in antifouling and protective coatings. he has also collaborated with top research institutes like Zhejiang University of Technology, Luoyang Ship Material Research Institute, and Soochow University. his research experience spans marine biofouling, corrosion, and surface icing prevention.

🏅Awards:

Dr. Shu Tian has received several recognitions for his innovative contributions to the field of materials science, particularly for his work on antifouling and functional coatings. While specific awards and honors were not listed, his recognition is evident in the numerous citations and patents he has achieved. his research has garnered attention in several international academic and scientific communities. his work continues to advance the field, earning his respect and acknowledgment from peers and industry leaders. The publication of his research and successful patent filings further demonstrate his commitment to innovation in the material sciences.

🔬Research Focus:

Dr. Shu Tian’s research is centered on the development of environmentally friendly and durable antifouling materials. his work explores surface chemistry and functional coatings, including bio-based antibacterial coatings, integrated anticorrosion and antifouling coatings, and biomimetic anti-icing coatings. he investigates ways to improve the longevity and performance of materials in harsh environments, focusing on the prevention of biofouling, corrosion, and surface icing in marine applications. Dr. Tian’s contributions are key to addressing challenges in protective coatings, with a focus on sustainability, material innovation, and the development of smart coatings with multi-functional properties.

Publication Top Notes:

  •  A new hybrid silicone-based antifouling coating with nanocomposite hydrogel for durable antifouling properties
    Citations: 110
  •  Pro-healing zwitterionic skin sensor enables multi-indicator distinction and continuous real-time monitoring
    Citations: 99
  •  Fabrication of bio-based amphiphilic hydrogel coating with excellent antifouling and mechanical properties
    Citations: 73
  •  Amphiphilic marine antifouling coatings based on a hydrophilic polyvinylpyrrolidone and hydrophobic fluorine–silicon-containing block copolymer
    Citations: 61
  •  Force-induced ion generation in zwitterionic hydrogels for a sensitive silent-speech sensor
    Citations: 52

 

 

 

 

 

Mr. Lei Mou | Analytical Chemistry Award | Young Scientist Award

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Mr. Lei Mou | Analytical Chemistry Award | Young Scientist Award

Mr. Lei Mou ,Guangzhou Medical University, China

Lei Mou is a Research Associate at the Terasaki Institute for Biomedical Innovation, Los Angeles, specializing in biosensors, wearable devices, and organ-on-a-chip technology. With a robust background in biomedical engineering and materials science, Lei completed a Ph.D. from the National Center for Nanoscience and Technology (NCNST) under Prof. Xingyu Jiang. His work integrates advanced microfluidic and biosensor platforms aimed at enhancing clinical diagnostics and wearable health monitoring. With extensive research and technical skills, he has contributed to innovative approaches in immunoassay technology, HPV detection, and biosignal computing. Lei’s contributions to nanobiotechnology are also reflected in his numerous patents, high-impact publications, and presentations at international conferences.

Professional Profile:

Google Scholar

Summary of Suitability for Award:

Lei Mou demonstrates strong potential for the “Young Scientist Award,” with impressive accomplishments in biomedical engineering, especially in clinical biosensors, wearable devices, and organs-on-a-chip technology. His academic foundation is rooted in a Ph.D. from the Chinese Academy of Sciences, where he specialized in biomaterials and point-of-care diagnostic platforms, laying a solid groundwork for his current innovative research.

🎓Education:

Lei Mou earned his Ph.D. in Biomedical Engineering from the National Center for Nanoscience and Technology, Chinese Academy of Sciences (2016-2020), where he researched biosensors and microfluidic devices under Prof. Xingyu Jiang’s mentorship. His undergraduate studies in Materials Science and Engineering were completed at the University of Science and Technology Beijing (USTB) in 2016, as part of the Excellent Engineer Training Program. Here, he laid the foundation for his expertise in nanomaterials and engineering design, achieving numerous accolades for academic excellence. Lei’s educational path has emphasized interdisciplinary research, equipping him with a skill set to bridge materials science, biomedical engineering, and clinical applications effectively.

🏢Work Experience:

Lei Mou is currently a Research Associate at the Terasaki Institute for Biomedical Innovation (TIBI), where he focuses on the development of organ-on-a-chip systems and advanced biosensors. Prior to this, he was a Researcher at the Third Affiliated Hospital of Guangzhou Medical University, where he specialized in clinical biosensors and wearable device technology. Lei’s professional experience has enabled him to develop high-sensitivity immunoassay platforms and contribute to significant projects in health-related microfluidic applications. His work bridges clinical settings and advanced engineering, bringing laboratory innovations closer to real-world applications.

🏅Awards:

Lei Mou has earned numerous awards for his academic and research excellence, including the Director’s Scholarship at NCNST and the First Class Scholarship for Master’s Students, recognizing him as a top 3% student. During his undergraduate studies, he received the prestigious 86 Alumni Scholarship, the National Scholarship from China’s Ministry of Education, and the Beijing Outstanding Graduates Award. His achievements reflect his commitment to excellence and innovation in his field, with honors that highlight his performance and contributions to biomedical engineering and materials science.

🔬Research Focus:

Lei Mou’s research focuses on microfluidic immunoassays, wearable biosensors, and organs-on-a-chip technologies. He specializes in integrating nanotechnology with biomedical engineering to develop advanced diagnostic tools for healthcare. His work includes creating chemiluminescence immunoassay platforms that amplify biomarker signals using gold nanoparticles, as well as developing portable devices for detecting high-risk HPV strains. His research has significant implications for personalized medicine and remote diagnostics, aiming to improve accessibility and precision in clinical diagnostics and healthcare monitoring.

Publication Top Notes:

  • Surface chemistry of gold nanoparticles for health-related applications
    • Citations: 277
  • Microfluidics‐based biomaterials and biodevices
    • Citations: 183
  • Materials for microfluidic immunoassays: a review
    • Citations: 154
  • Printable metal-polymer conductors for highly stretchable bio-devices
    • Citations: 130
  • Highly stretchable and biocompatible liquid metal‐elastomer conductors for self‐healing electronics
    • Citations: 109

 

 

 

 

Charles Perrin | Chemistry and Materials Science | Best Researcher Award

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Prof Dr. Charles Perrin | Chemistry and Materials Science | Best Researcher Award

 Professor at Distinguished Professor Emeritus of UCSD, United States

Professor Dr. Charles L. Perrin, born on July 22, 1938, in Pittsburgh, PA, is a distinguished professor emeritus at UC San Diego, where he has served since 1964. 🎓 He holds an A.B. summa cum laude in Chemistry from Harvard College (1959) and a Ph.D. in Organic Chemistry from Harvard University (1963). 💍 Married to Marilyn Heller Perrin, they have two sons. 👨‍👩‍👦‍👦 Dr. Perrin’s career is marked by numerous awards, including the Alfred P. Sloan Foundation Fellowship, the ACS James Flack Norris Award, and multiple teaching excellence awards at UCSD. 🏅 His research in physical-organic chemistry encompasses molecular structure, reaction mechanisms, NMR methods, and hydrogen bonding. 🧪 He has authored over 190 scientific articles and has made significant contributions, such as the synthesis of malonic anhydrides and elucidating proton exchange mechanisms in amides. 📚 Dr. Perrin has also served as a consultant, expert witness, and editorial board member, and has chaired and organized various scientific conferences. 🌍🔬

Professional Profile:

Education🎓

Professor Dr. Charles L. Perrin’s education is rooted in his outstanding academic achievements. 🎓 He graduated summa cum laude with an A.B. in Chemistry from Harvard College in 1959. 🏛️ He then pursued a Ph.D. in Organic Chemistry under the guidance of Frank H. Westheimer at Harvard University, completing it in 1963. 📜 Following his doctorate, he was awarded an NSF Post-Doctoral Fellowship to work with Andrew Streitwieser, Jr., at the University of California, Berkeley, further solidifying his expertise in the field. 🔬

 

Professional Experience 📚

Professor Dr. Charles L. Perrin has had a distinguished professional career at UC San Diego, where he began as an Assistant Professor of Chemistry in 1964. 👨‍🏫 He was promoted to Associate Professor in 1971 and became a full Professor in 1980. 🌟 In 2018, he was honored as a Distinguished Professor Emeritus and was recalled to active service. 🎓 Over the decades, he has made significant contributions to physical-organic chemistry, published over 190 scientific articles, and received numerous prestigious awards. 🏅 Dr. Perrin has also served as a consultant, expert witness, and member of several editorial boards, and has chaired and organized key scientific conferences, solidifying his reputation as a leading figure in his field. 🌍

Research Interest 🔍

Professor Dr. Charles L. Perrin’s research interests lie in the realm of physical-organic chemistry, focusing on the molecular structure and mechanisms of organic reactions. 🧪 His work includes the study of malonic anhydrides, NMR methods for chemical kinetics, and proton exchange kinetics in amides and related compounds. 🔄 He delves into solvation and hydrogen bonding, stereoelectronic control in the cleavage of tetrahedral intermediates and acyl shifts, as well as kinetic and equilibrium isotope effects. 🔬 Dr. Perrin also explores the symmetry of hydrogen bonds, anomeric effects, conformational analysis, and steric hindrance to ionic solvation, alongside nonradical reactions of p-benzyne diradicals and the chemistry of resulting “naked” aryl anions. 🌐 🧬💻

Award and Honor🌟 

Professor Dr. Charles L. Perrin has received numerous awards and honors throughout his distinguished career. 🏅 He was elected to Phi Beta Kappa at Harvard College in 1958 and received an Alfred P. Sloan Foundation Fellowship in 1967-69. 🌟 He was honored with a Special HEW Research Fellowship at Göteborgs Universitet in Sweden (1972-73) and was named a Fellow of the American Association for the Advancement of Science in 1984. 🔬 Dr. Perrin has been recognized for his teaching excellence with multiple awards from UCSD, including the Revelle College Excellence in Teaching Awards (1977, 1993) and the UCSD Chancellor’s Associates’ Faculty Excellence Award for Teaching in 2001. 🎓 He received the prestigious ACS James Flack Norris Award in Physical Organic Chemistry in 2015 and was named the Distinguished Scientist Award of the ACS San Diego Section in 2017. 🌍 Additionally, he has held various visiting professorships and lectureships worldwide, further cementing his status as a leading figure in his field. 🌐

 

Research Skills 🔬 

Professor Dr. Charles L. Perrin possesses exceptional research skills in physical-organic chemistry. 🧪 He is adept at utilizing NMR methods for chemical kinetics and developing innovative techniques such as variable-temperature NMR and magnetization-transfer and 2D-NMR methods for multisite kinetics. 🔄 His expertise includes synthesizing complex molecules like malonic anhydrides and elucidating reaction mechanisms at the molecular level. 🔬 Dr. Perrin has a keen ability to investigate proton exchange kinetics, solvation, hydrogen bonding, and stereoelectronic effects, making significant contributions to understanding the fundamental principles governing organic reactions. 🌟 His work also includes the application of isotopic perturbation and kinetic isotope effects, showcasing his comprehensive analytical and experimental capabilities. 🌐

 

Achievements 🏅 🏆

Professor Dr. Charles L. Perrin has made numerous groundbreaking achievements in physical-organic chemistry. 🧪 He recognized the generality of ipso substitution and introduced the related terminology. 📚 He authored the textbook “Mathematics for Chemists” and ACS Audio Courses on “Probability and Statistics for Chemists” and “Calculus for Chemists.” 🔬 His work elucidated the mechanisms of proton exchange in amides, peptides, and proteins, and he synthesized malonic anhydrides, classic molecules sought for 70 years. 🔄 Dr. Perrin developed innovative NMR methods, discovered a chain mechanism for proton exchange, and made significant advancements in understanding the Curtin-Hammett Principle. 🌐 He critically assessed stereoelectronic control, evaluated the anomeric effect, and measured the rate of NH4+ rotation within its solvent cage. 🔍 His research demonstrated the nonexistence of the reverse anomeric effect, elucidated the symmetry of hydrogen bonds, and developed an accurate NMR titration method. 🌟 He also discovered new reactions involving p-benzyne and demonstrated nonadditivity of secondary deuterium isotope effects on basicities.

 

Publications📖📚

Symmetry of Hydrogen Bonds: Application of NMR Method of Isotopic Perturbation and Relevance of Solvatomers

  • Publication: Molecules, 2023, 28(11), 4462 📄
  • Author: Perrin, C.L.
  • Citations: 1 🔬

My First Publication

  • Publication: Journal of Physical Or
  • ganic Chemistry, 2022, 35(11), e4302 📄
  • Author: Perrin, C.L.
  • Citations: 0 🚫

The Complete Mechanism of an Aldol Condensation in Water

  • Publication: Physical Chemistry Chemical Physics, 2022, 24(31), pp. 18978–18982 📄
  • Authors: Perrin, C.L., Kim, J.
  • Citations: 1 🔬

Nucleophilic Addition of Enolates to 1,4-Dehydrobenzene Diradicals Derived from Enediynes: Synthesis of Functionalized Aromatics

  • Publication: ACS Omega, 2022, 7(26), pp. 22930–22937 📄
  • Authors: Shrinidhi, A., Perrin, C.L.
  • Citations: 2 🔬🔬

Malonic Anhydrides, Challenges from a Simple Structure

  • Publication: Journal of Organic Chemistry, 2022, 87(11), pp. 7006–7012 📄
  • Author: Perrin, C.L.
  • Citations: 0 🚫

Glossary of Terms Used in Physical Organic Chemistry (IUPAC Recommendations 2021)

  • Publication: Pure and Applied Chemistry, 2022, 94(4), pp. 353–534 📄
  • Authors: Perrin, C.L., Agranat, I., Bagno, A., Uggerud, E., Williams, I.H.
  • Citations: 19 🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬🔬

Ipso

  • Publication: Journal of Organic Chemistry, 2021, 86(21), pp. 14245–14249 📄
  • Author: Perrin, C.L.
  • Citations: 6 🔬🔬🔬🔬🔬🔬

Comment on “Topography of the Free Energy Landscape of Claisen-Schmidt Condensation: Solvent and Temperature Effects on the Rate-Controlling Step” by N. D. Coutinho, H. G. Machado, V. H. Carvalho-Silva and W. A. da Silva

  • Publication: Physical Chemistry Chemical Physics, 2021, 23(38), pp. 22199–22201 📄
  • Author: Perrin, C.L.
  • Citations: 1 🔬

Cyclohexeno[3,4]cyclodec-1,5-diyne-3-ene: A Convenient Enediyne

  • Publication: Organic Letters, 2021, 23(17), pp. 6911–6915 📄
  • Authors: Shrinidhi, A., Perrin, C.L.
  • Citations: 2 🔬🔬

Enthalpic and Entropic Contributions to the Basicity of Cycloalkylamines

  • Publication: Chemical Science, 2020, 11(32), pp. 8489–8494 📄
  • Authors: Perrin, C.L., Shrinidhi, A.
  • Citations: 3 🔬🔬🔬