Fritz Pragst | Medicinal Chemistry | Best Paper Award

Published on by Chemical Scientist

Prof. Dr. Fritz Pragst | Medicinal Chemistry | Best Paper Award

Guest Scientist | Humboldt University of Berlin | Germany

Prof. Dr. Fritz Pragst is a distinguished scholar in forensic and analytical toxicology whose work has significantly shaped modern toxicological science, evidence interpretation, and laboratory methodology. With an academic career spanning several decades, he has established himself as a leading authority in systematic toxicological analysis, forensic chemistry, and biomarker research, contributing to both foundational understanding and applied forensic practice. His scientific influence is demonstrated through 147 published documents, more than 6,170 citations, and an h-index of 43, reflecting consistent scholarly impact, high research relevance, and continued citation in contemporary toxicology literature. His pioneering contributions to hair analysis methodology, including alcohol biomarkers such as ethyl glucuronide and drug exposure evaluation in cases involving familial substance misuse, have provided globally referenced frameworks for long-term toxicological monitoring, legal case assessments, and public health applications. His work addresses complex analytical challenges, including differentiation between substance exposure routes, interpretation of low-level toxicological data, validation of forensic laboratory workflows, and development of ethical and scientifically defensible interpretation models. Beyond research, he has actively contributed to scientific societies, served in editorial and advisory roles, and engaged in extensive collaboration across multidisciplinary research networks, thereby supporting international knowledge exchange and capacity building within toxicology and forensic science communities. His scholarly output also demonstrates a commitment to solving real-world challenges, including improving diagnostic accuracy, enhancing substance abuse monitoring, and supporting fair use of toxicological evidence in legal and clinical environments. Through his influential publications, leadership roles, and contributions to methodological rigor and scientific education, Prof. Dr. Fritz Pragst has made a lasting impact on global forensic toxicology, ensuring that analytical science continues to advance with accuracy, ethical integrity, and societal relevance.

Profiles : Scopus | ResearchGate

Pragst, F. (2025). Systematic toxicological analysis in forensic and clinical laboratories: a challenging task of analytical chemistry. ChemTexts, 11(2).

Pragst, F., & Balíková, M. A. (2006). State of the art in hair analysis for detection of drug and alcohol abuse. Clinica Chimica Acta, 370(1–2), 17–49.

Pragst, F. (2022). Is there a relationship between abuse of alcohol and illicit drugs seen in hair results? Drug Testing and Analysis. (2025 listing for 2025 issues)

Prof. Dr. Fritz Pragst has significantly advanced forensic and clinical toxicology through pioneering work in systematic toxicological analysis and hair‐based drug detection methods, shaping global standards and improving public health, justice systems, and medico-legal investigations. His research continues to inspire innovation, strengthen scientific reliability, and support safer societies worldwide.

Liliya Faizullina | Organic Chemistry |Best Researcher Award

Published on by Chemical Scientist

Assoc. Prof. Dr. Liliya Faizullina | Organic Chemistry | Best Researcher Award

 Researcher | Ufa Institute of Chemistry | Russia

Faizullina L. Kh is a distinguished researcher in synthetic organic chemistry, recognized for her sustained contributions to the development of chiral building blocks, advanced reaction methodologies, and structurally intricate organic frameworks. With a scholarly record comprising 48 publications, 180 citations, and an h-index of 6, she has established a solid research footprint in asymmetric synthesis and the strategic transformation of bio-derived molecular precursors. Her work extensively explores the reactivity and synthetic versatility of levoglucosenone-based intermediates, including Michael adducts, Diels Alder products, and spirocyclic derivatives, which serve as crucial synthons for the construction of stereochemically rich and biologically relevant molecules. Notable recent studies include the preparation of chiral spirocyclobutanones, investigations into Cyrene as a chiral synthon, synthetic approaches toward acetogenin-type structures, and the design of key intermediates used in the assembly of loganin-related frameworks. These contributions reflect her strong command over stereochemical control, mechanistic interpretation, and multi-step synthetic planning, positioning her as an influential figure in the field. Beyond structural synthesis, her research frequently incorporates the evaluation of the biological activity of synthesized compounds, highlighting a multidisciplinary perspective that bridges organic chemistry with potential pharmacological applications. With collaborations involving more than 40 co-authors, her work demonstrates a commitment to interdisciplinary advancement and collective scientific inquiry. Her research also emphasizes sustainability through the adoption of bio-based starting materials and greener synthetic approaches, contributing to environmentally responsible chemical development. By enhancing access to complex chiral molecules and enabling new directions in medicinally relevant scaffold design, her work carries both scientific and societal significance. Faizullina L. Kh continues to expand the frontiers of modern synthetic organic chemistry through rigorous scholarship, collaborative engagement, and a sustained dedication to innovation in molecular synthesis.

Khalilova, Y. A., & Faizullina, L. Kh. (2025). Recent applications of Cyrene as a chiral synthon. Organic & Biomolecular Chemistry.

Akhmetdinova, N., Biktagirov, I., & Faizullina, L. Kh. (2025, November 6). Transformation of the cyclohexane ring to the cyclopentane fragment of biologically active compounds. Beilstein Journal of Organic Chemistry.

Galimova, Y. S., Salikhov, Sh. M., & Faizullina, L. Kh. (2025, September). Michael adduct of levoglucosenone and α-carboethoxycyclododecanone in the synthesis of a chiral spirocyclobutanone. Russian Journal of General Chemistry.

Galimova, Y. S., Kupova, O. Yu., Salikhov, Sh. M., & Faizullina, L. Kh. (2025, April). Approaches to the synthesis of acetogenins based on the Michael adducts of levoglucosenone and α-carboethoxycyclododecanone and analysis of their biological activity. Russian Journal of General Chemistry.

Khalilova, Y. A., Karamisheva, L. Sh., Salikhov, Sh. M., Galimova, Y. S., & Faizullina, L. Kh. (2024, August 13). Synthesis of N-alkyl-substituted aziridines and oxazolidine based on levoglucosenone derivatives.

 

Moussa Ouakki | Electrochemistry | Best Researcher Award

Published on by Chemical Scientist

Prof. Moussa Ouakki | Electrochemistry | Best Researcher Award

Ibn Tofail University| Morocco

Prof. Moussa Ouakki is a distinguished Moroccan chemist and academic scholar serving as Maître de Conférence en Chimie at the École Nationale Supérieure de Chimie, Université Ibn Tofaïl, Kénitra, Maroc. He holds a doctorate in Fundamental and Applied Chemistry with a specialization in the valorization of imidazole compounds for corrosion inhibition of steel in acidic media through theoretical, electrochemical, and spectroscopic studies. His academic background also includes advanced training in physicochemical materials, organic and environmental chemistry, and life sciences. In addition, he has pursued professional development in chemical education, patent systems, and chemical safety in collaboration with the Organisation for the Prohibition of Chemical Weapons (OPCW). Throughout his academic career, Prof. Ouakki has contributed extensively to teaching, research supervision, and curriculum design across undergraduate, engineering, and doctoral programs. His teaching expertise spans electrochemical kinetics, materials science, corrosion mechanisms, and electrolyte chemistry. His research interests focus on corrosion inhibition, green chemistry, electrochemical analysis, materials development, and theoretical modeling of corrosion systems. His research skills include density functional theory (DFT), electrochemical impedance spectroscopy, electrodeposition, dielectric characterization, and molecular dynamics simulations. He has co-supervised several doctoral candidates, published more than a hundred international research papers, contributed multiple book chapters, and secured a patent for novel imidazole-based corrosion inhibitors. As a respected member of editorial boards and a reviewer for leading scientific journals, Prof. Ouakki continues to make remarkable contributions to advancing sustainable chemistry and materials protection. His academic impact is further reflected in his growing recognition with 3,836 citations, 125 documents, and an h-index of 41.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

Ouakki, M., Galai, M., Rbaa, M., Abousalem, A. S., Lakhrissi, B., Rifi, E. H., & Ebn Touhami, M. (2019). Quantum chemical and experimental evaluation of the inhibitory action of two imidazole derivatives on mild steel corrosion in sulphuric acid medium. Heliyon, 5(11), e02716. Cited by: 147

Rbaa, M., Ouakki, M., Galai, M., Berisha, A., Lakhrissi, B., Jama, C., Warad, I., & Touhami, M. E. (2020). Simple preparation and characterization of novel 8-hydroxyquinoline derivatives as effective acid corrosion inhibitor for mild steel: Experimental and theoretical studies. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 602, 125094. Cited by: 144

Ouakki, M., Galai, M., Rbaa, M., Abousalem, A. S., Lakhrissi, B., Touhami, M. E., & Cherkaoui, M. (2020). Electrochemical, thermodynamic and theoretical studies of some imidazole derivatives compounds as acid corrosion inhibitors for mild steel. Journal of Molecular Liquids, 319, 114063. Cited by: 140

Ouakki, M., Galai, M., & Cherkaoui, M. (2022). Imidazole derivatives as efficient and potential class of corrosion inhibitors for metals and alloys in aqueous electrolytes: A review. Journal of Molecular Liquids, 345, 117815. Cited by: 123

Oubaaqa, M., Ouakki, M., Rbaa, M., Abousalem, A. S., Maatallah, M., Benhiba, F., & Touhami, M. E. (2021). Insight into the corrosion inhibition of new amino acids as efficient inhibitors for mild steel in HCl solution: Experimental studies and theoretical calculations. Journal of Molecular Liquids, 334, 116520.

 

Hui Li | Materials Chemistry | Chemical Scientist Award

Published on by Chemical Scientist

Dr. Hui Li | Materials Chemistry | Chemical Scientist Award

Senior Engineer | Beijing Institute of Smart Energy | China

Dr. Hui Li is a Senior Engineer at the Beijing Institute of Smart Energy, specializing in electrochemical energy storage systems. With a strong foundation in lithium-ion and sodium-ion battery research, Dr. Li has established himself as an influential figure in advancing next-generation energy technologies. He has contributed extensively to both academic research and industrial applications, bridging the gap between fundamental science and real-world energy solutions. Over the years, he has participated in more than 11 major research projects, authored two books, published over 36 scientific papers, and filed 27 patents, of which eight have been authorized. His collaborations extend internationally, including research with the University of California, San Diego, and domestic partnerships with major enterprises to develop large-scale sodium-ion battery systems. Recognized for academic excellence and professional contributions, Dr. Hui Li is a driving force in the development of safe, reliable, and sustainable energy storage technologies.

Professional Profile 

Hui Li’s academic journey reflects a strong commitment to interdisciplinary research and excellence in engineering. He obtained his Bachelor’s degree in Environmental Science from Qingdao Agricultural University , where he laid the foundation for his scientific career. Pursuing higher studies, he joined the Beijing Institute of Technology (BIT) and earned a Ph.D. in Environmental Engineering. During his doctoral training, Hui Li was selected for an international joint research program at the University of California, San Diego , where he studied NanoEngineering with a focus on electrochemical energy materials under leading experts. His academic performance was distinguished with a National Ph.D. Scholarship (2016) and the Excellent Doctoral Dissertation Award from BIT . Through this education, he gained deep expertise in materials science, nanotechnology, and energy engineering, equipping him with the skills to contribute meaningfully to the rapidly evolving field of advanced energy storage technologies.

Experience 

Dr. Hui Li’s professional career spans cutting-edge research, project leadership, and industrial collaboration in the energy sector. He began with an internship at the State Grid Smart Grid Research Institute , working on energy storage projects. Later, as an R&D Engineer at the State Grid Smart Grid Research Institute , he led and contributed to seven major projects, including sodium-ion and liquid metal battery technologies funded by the National Key R&D Program and National Natural Science Foundation. He joined the Beijing Institute of Smart Energy, where he continues as a Senior Engineer, contributing to lithium-ion and sodium-ion battery development, particularly for extreme environments. His work spans research management, scenario analysis, and technology evaluation for grid-scale applications. To date, he has completed nine projects and is actively involved in two ongoing ones, establishing himself as a leading researcher integrating academic innovation with industry-based solutions.

Professional Development

Hui Li has consistently pursued professional development through academic, industrial, and collaborative engagements. He has authored two professional books on electrochemical energy storage and LiDAR applications, reflecting his ability to link theory with practice. He serves as a peer reviewer for multiple journals, including Shandong Electric Power Technology, Battery, and Mining and Metallurgy, ensuring he remains actively involved in evaluating and shaping research in his field. As a mentor at the Beijing Institute of Technology, he contributes to training the next generation of researchers. His editorial and reviewing roles have honed his analytical and critical skills, while his collaborations with top universities and companies, such as the University of California, San Diego and China Enli Co., Ltd., have expanded his expertise in global research networks. Membership in the China Chemical Society further complements his development, keeping him connected to evolving innovations and policy directions in chemical engineering and energy storage.

Skills & Expertise

Hui Li’s expertise spans electrochemical energy storage, battery materials engineering, and system integration. He has advanced knowledge of lithium-ion and sodium-ion battery electrode materials, particularly in aqueous sodium-ion systems and Prussian blue-based compounds. His skills extend across multi-scale design, nanomaterial synthesis, and material genome engineering, enabling him to translate fundamental science into scalable technologies. With 36 peer-reviewed publications and extensive patent contributions, he demonstrates a balance of theoretical insight and practical innovation. His technical competencies include electrochemical performance testing, TEER evaluation, and computational modeling for material optimization. Hui Li also excels in project leadership, having managed large-scale national and corporate-funded projects. His professional versatility allows him to work across academic, industrial, and collaborative research environments, contributing both as a lead investigator and as a team collaborator. His multidisciplinary expertise positions him as a key contributor to the advancement of high-performance, reliable, and sustainable energy storage technologies.

Resarch Focus

Dr. Hui Li’s research focuses on next-generation electrochemical energy storage systems, especially lithium-ion and sodium-ion batteries. His work emphasizes the design, synthesis, and performance optimization of cathode and anode materials, with a strong interest in environmentally friendly, high-safety, and high-capacity systems. He has investigated Prussian blue analogs, Na3V2(PO4)3-based materials, and layered oxides, contributing significantly to the advancement of aqueous sodium-ion batteries. A core aspect of his research is bridging fundamental material mechanisms with device-level applications, including Ah-level battery cells and full system integration for grid storage. Through collaborations with universities and enterprises, he has contributed to the development of a 102.96 kWh water-based sodium-ion battery energy storage system, demonstrating practical scalability. His current research explores material genome engineering, doping strategies, and advanced coatings to enhance battery stability, safety, and electrochemical performance. This integrated approach aims to accelerate the deployment of sustainable energy storage for renewable electricity and smart grid applications.

Awards & Recognitions

Hui Li’s outstanding academic and professional contributions have earned him several prestigious awards and recognitions. During his doctoral studies, he was honored with the National Ph.D. Scholarship , a distinction awarded to top-performing doctoral candidates across China. His doctoral thesis was further recognized with the Excellent Doctoral Dissertation Award  from the Beijing Institute of Technology, an accolade given to only 25 scholars university-wide. He also received the Beijing Institute of Technology Seedling Fund, awarded to only 20 individuals, highlighting his research potential in innovative energy storage materials. Beyond academic honors, Hui Li was recognized as an Outstanding Individual during the State Grid New Employee Induction Training, reflecting his dedication and leadership in professional settings. These achievements underscore his commitment to excellence in research, education, and practical innovation, marking him as a leading scientist contributing to the advancement of sustainable energy storage and smart grid technologies.

Publication Top Notes

Title: Effects of Mg doping on the remarkably enhanced electrochemical performance of Na₃V₂(PO₄)₃ cathode materials for sodium-ion batteries
Authors: H. Li, X.Q. Yu, Y. Bai, F. Wu, C. Wu, L.Y. Liu, X.Q. Yang
Year: 2015

Title: Understanding the electrochemical mechanisms induced by gradient Mg²⁺ distribution of Na-rich Na₃₊ₓV₂₋ₓMgₓ(PO₄)₃/C for sodium-ion batteries
Authors: H. Li, H.M. Tang, C.Z. Ma, Y. Bai, J. Alvarado, B. Radhakrishnan, S.P. Ong, F. Wu, Y.S. Meng, C. Wu
Year: 2018

Title: Na-Rich Na₃₊ₓV₂₋ₓNiₓ(PO₄)₃/C for Sodium Ion Batteries: Controlling the Doping Site and Improving the Electrochemical Performances
Authors: H. Li, Y. Bai, C. Wu, F. Wu, X.F. Li
Year: 2016

Title: Budding willow branches shaped Na₃V₂(PO₄)₃/C nanofibers synthesized via an electrospinning technique and used as cathode material for sodium-ion batteries
Authors: H. Li, Y. Bai, F. Wu, Y. Li, C. Wu
Year: 2015

Title:  Controllable synthesis of high-rate and long cycle-life Na₃V₂(PO₄)₃ for sodium-ion batteries
Authors: H. Li, C. Wu, Y. Bai, F. Wu, M.Z. Wang
Year: 2016

Hui Li is a highly suitable candidate for the Research for Chemical Scientist Award. His research demonstrates a rare balance of fundamental innovation and applied outcomes, particularly in advancing sodium-ion and lithium-ion battery technologies for sustainable energy storage. His track record of publications, patents, and leadership in major funded projects positions him as an impactful researcher at the intersection of chemistry, materials science, and energy engineering.

While greater emphasis on independent international leadership and broader engagement could strengthen his profile, his achievements already place him among the promising chemical scientists driving forward solutions for global energy challenges. He is well-deserving of recognition through this award.

Kyunsylu Khatmullina | Electrochemistry | Best Paper Award

Published on by Chemical Scientist

Assoc. Prof. Dr. Kyunsylu Khatmullina | Electrochemistry | Best Paper Award

Researcher in Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS/Moscow Power Engineering Institute, National Research University , Russia.

Dr. Kyunsylu G. Khatmullina is a dedicated researcher in the field of chemistry, affiliated with the Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS and the Institute of Energy Efficiency and Hydrogen Technologies (IEEHT), Moscow. 🧪 She earned her PhD focusing on polymer electrolytes and cathode materials for lithium batteries. ⚡ With over 19 years of experience, she has contributed to more than 30 journal publications, authored books 📚, and participated in over 60 international and Russian conferences 🌍. Her expertise in nanocomposite materials supports innovations in energy storage technologies 🔋.

PROFILE 

SCOPUS

ORCID 

 

🔍 Summary of Suitability:

Dr. Khatmullina has demonstrated outstanding scientific merit, with a strong publication record in the area of polymer electrolytes and nanocomposite cathode materials for lithium polymer batteries 🔋. Her papers are grounded in experimental rigor, supported by advanced synthesis techniques, and offer innovative solutions for improving energy storage systems—an urgent need in modern energy technology 🌱. Her work contributes to both academic research and practical industrial applications, showcasing a blend of theory and applied science 🔬⚙️.

📘 Education & Experience 

  • 🎓 PhD in Chemistry – Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS

  • 🧑‍🔬 Postgraduate thesis: “New polymer electrolytes and cathode materials for lithium polymer sources”

  • 🧪 Researcher at the Russian Academy of Sciences

  • 🏫 Lecturer – Invited speaker at Tangshan University, China (April 2024, June 2025)

  • 🧭 19+ years of research experience in energy storage systems

  • 📚 Published over 30 peer-reviewed articles and multiple book chapters

Professional Development 🚀📖

Dr. Khatmullina has made outstanding professional strides through her participation in both national and international scientific forums 🌐. She has represented Russia in conferences across France, the Czech Republic, Estonia, and Belarus, presenting innovative research on polymer electrolytes and battery materials 🔬. Her membership on expert councils for youth energy research competitions and contributions to international collaborations exemplify her commitment to the scientific community 💡. She has authored scientific books 📖, contributed chapters to nanomaterials literature, and participated in consultancy projects, enriching her multidisciplinary expertise and impact in the field of chemical sciences 🚀.

Research Focus 🔍🤖

Dr. Khatmullina’s research centers on the development of nanocomposite polymer electrolytes and cathode materials for lithium polymer batteries 🔋. Her work contributes to advancing energy storage systems, crucial for sustainable energy technologies and portable electronics ⚙️. She explores the synthesis and characterization of novel materials that improve the safety, conductivity, and efficiency of batteries ⚗️. Through her interdisciplinary approach combining chemistry, material science, and electrochemistry, she aims to solve real-world energy problems 🌍. Her research outcomes not only contribute to academic knowledge but also support industrial applications and innovations in renewable energy storage solutions ☀️.

Awards and Honors 🏆🎖️

  • 🏅 Winner – All-Russian Competition “Energy of Youth 2010”, Global Energy Foundation

  • 🏆 Winner – UMNIK Competition, Innovation Promotion Foundation

  • 👩‍⚖️ Expert – “Energy of Youth” Research Projects (2011–2013)

  • 🧠 Expert – “Russian Business Appeal” Journalism Competition (2011–2012)

Publications & Citations 📚

  • 🧪 “New Polymer Electrolytes and Cathode Materials for Lithium Polymer Current Sources”PhD Thesis, Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS.

  • 📘 “Nanocomposite Polymer Electrolytes for Energy Storage Systems”Book Chapter in Organic and Hybrid Nanomaterials.

  • 📄 “Advancements in Lithium Polymer Batteries”

  • 📖 “Innovations in Cathode Materials for High-Energy Batteries”

  • 📝 “Electrochemical Dynamics in Polymer Electrolytes”

 

Conclusion

Dr. Khatmullina’s work exemplifies the qualities recognized by Best Paper Awards—originality, impact, and practical relevance. Her extensive contributions to material science and battery technology mark her as a strong candidate whose work not only advances the field but also addresses real-world challenges in sustainable energy. Her papers deserve recognition for their scientific depth, innovation, and relevance to contemporary global needs. 🏅

 

 

Mohamed Khitouni | Inorganic Chemistry | Best Researcher Award

Published on by Chemical Scientist

Prof. Dr. Mohamed Khitouni | Inorganic Chemistry | Best Researcher Award

Professor at Qassim University, college of Science, Department of chemistry , Saudi Arabia.

Dr. Mohamed Achour Khitouni 🇹🇳 is a seasoned professor of inorganic chemistry with a rich academic and research background. Currently teaching at Qassim University 🇸🇦, he previously held various academic ranks at Sfax University 🇹🇳. With a Ph.D. and HDR in inorganic chemistry, his work bridges nanotechnology, metallurgy, and environmental chemistry 🔬🌍. Dr. Khitouni has actively participated in numerous scientific conferences and led collaborative research projects internationally 🌐. He is a prolific author with publications in top-tier journals 📚 and a committed contributor to academic development, showcasing a vibrant career dedicated to science and innovation 🚀.

PROFILE 

ORCID 

SCOPUS 

GOOGLE SCHOLAR 

🔍 Summary of Suitability:

Dr. Mohamed Achour Khitouni exemplifies the qualities of a leading researcher in the field of inorganic chemistry and nanotechnology. With over two decades of academic and research excellence, he has consistently demonstrated innovation, collaboration, and scientific impact. His academic journey from Tunisia to Saudi Arabia reflects a dedication to knowledge transfer and international research cooperation 🌍📚. His multidisciplinary work contributes significantly to sustainable solutions, especially in environmental and materials chemistry 🔬🌱.

🎓 Education & Experience 

📘 Education:

  • 🎓 HDR in Inorganic Chemistry, University of Sfax – Tunisia, 2009

  • 🎓 Ph.D. in Inorganic Chemistry, University of Sfax – Tunisia, 2003

  • 🎓 M.Sc. in Inorganic Chemistry, University of Sfax – Tunisia, 1998

  • 🎓 B.Sc. in Physical Chemistry, University of Sfax – Tunisia, 1996

💼 Experience:

  • 👨‍🏫 Professor, Qassim University, Saudi Arabia (2022–Present)

  • 👨‍🏫 Professor, Faculty of Science, Sfax University, Tunisia (2016–2022)

  • 👨‍🏫 Associate Professor, Sfax University (2011–2016)

  • 👨‍🏫 Assistant Professor, Sfax University (2004–2011)

Professional Development 🚀📖

Dr. Khitouni has actively enhanced his professional capacity through impactful training and leadership programs. He participated in workshops such as “Performance Indicators for Data Analysts” 📊 in Saudi Arabia and “Crisis Management” 🧭 hosted by GIZ in Tunisia. He has also contributed significantly to academic governance, including membership in the Scientific Council and various recruitment committees ⚖️. His involvement in the Tunisian Chemical Society, both as vice president and a long-term member, underscores his leadership and dedication to the chemical sciences 👥. These experiences reflect his commitment to lifelong learning and fostering excellence in the scientific community 🧠🌟.

Research Focus 🔍🤖

Dr. Khitouni’s research lies at the intersection of inorganic chemistry and advanced materials 🧪. His primary interests include nanotechnology, metallurgy, and the synthesis of nano mixed oxides 🌐🔩. He investigates their applications in environmental chemistry, particularly in water treatment and pollutant removal 💧🌿. His studies on nanostructured alloys and magnetic materials aim to innovate in both environmental sustainability and industrial processes 🧲🔧. With extensive publications, Dr. Khitouni has contributed to developing functional materials with improved structural, thermal, and magnetic properties, bridging fundamental science and real-world application 🌍🛠️.

Awards and Honors 🏆🎖️

  • 🥇 Vice President, Tunisian Chemical Society (2014–2016)

  • 🏅 Scientific Council Member, Faculty of Science, Sfax University (2012–2018)

  • 🌟 Member, National and Branch Committees of Tunisian Chemical Society (2006–2022)

  • 🧪 Recipient, PHC-MAGHREB Inter-University Research Grant (2014)

  • 📜 Recipient, Tunisia-Spain Inter-University Research Grant (2011–2012)

Publications & Citations 📚

  • 📄 Nanofibrillated cellulose as nanoreinforcement in Portland cement – R Mejdoub, H Hammi, JJ Suñol, M Khitouni, A M’nif, S Boufi – Journal of Composite Materials – Cited by: 135 – Year: 2017 🧱

  • 🧪 Characterization of mechanical properties in an Al–Zn–Mg alloy after two-step ageing – M Chemingui, M Khitouni, et al. – Materials & Design – Cited by: 104 – Year: 2010 🧯

  • ⚙️ NiMn-based Heusler magnetic shape memory alloys: A review – T Bachaga, J Zhang, M Khitouni, JJ Sunol – Int. J. of Adv. Manuf. Tech. – Cited by: 92 – Year: 2019 🧲

  • 🔬 Nanocrystalline Fe (Al): Crystallite size and dislocation density – M Mhadhbi, M Khitouni, et al. – Journal of Nanomaterials – Cited by: 72 – Year: 2010 🧼

  • 🛠️ Microstructure and strengthening in Al-Mg-Si alloy by ECAP – T Khelfa, MA Rekik, M Khitouni, et al. – Int. J. of Adv. Manuf. Tech. – Cited by: 60 – Year: 2018 🏋️

  • ⚛️ Characterization of Al and Fe nanosized powders by high energy milling – M Mhadhbi, M Khitouni, et al. – Materials Characterization – Cited by: 52 – Year: 2008 🧨

  • 🧲 Magnetocaloric properties of Pr0.5Sr0.5MnO3 manganite – M Bourouina, A Krichene, M Khitouni, et al. – Ceramics International – Cited by: 50 – Year: 2017 🌡️

  • 💧 Rapid azo-dye degradation using Mn–Al powders – WB Mbarek, M Azabou, M Khitouni, et al. – RSC Advances – Cited by: 50 – Year: 2017 🧪

  • 🔧 Microstructure and mechanical properties of AA6082-T6 by warm ECAP – T Khelfa, M Khitouni, et al. – Metals and Materials International – Cited by: 45 – Year: 2020 🔩

  • 🔩 Nanocrystalline FeAl by mechanical alloying and consolidation – M Mhadhbi, M Khitouni, et al. – J. of Alloys and Compounds – Cited by: 41 – Year: 2011 ⚒️

  • 🌬️ Mechanochemical reactions in Cu–Fe system by mechanical alloying – M Azabou, M Khitouni, et al. – Powder Technology – Cited by: 38 – Year: 2012 💥

🔍 Conclusion:

Dr. Khitouni’s research output, collaborative spirit, and commitment to real-world applications through science make him a strong candidate for the Best Researcher Award 🏅. His work not only pushes the boundaries of inorganic and environmental chemistry but also reflects the global impact needed in modern science. His outstanding academic portfolio and innovative contributions mark him as a leader in his field, truly deserving of recognition. 🌟

 

 

Jiming Bian | Physical Chemistry | Best Researcher Award

Published on by Chemical Scientist

Prof. Jiming Bian | Physical Chemistry | Best Researcher Award

Professor at Dalian University of Technology in China.

Prof. Jiming Bian 🧑‍🔬, a leading researcher at Dalian University of Technology 🇨🇳, earned his Ph.D. from the Shanghai Institute of Ceramics in 2005. Specializing in emerging semiconductors ⚛️, he has spearheaded major projects on perovskite LEDs and optoelectronic devices. With over 200 publications 📚 and an impressive H-index of 39, his work is globally recognized, including four ESI hot/highly cited papers 🔬. A recipient of multiple science and technology awards 🏆, he also holds 10 patents and collaborates internationally 🌍. His innovation in carbon-based PSCs achieved record-breaking performance ⚡, pushing boundaries in solar technology ☀️.

Professional Profile

ORCID

🔍 Summary of Suitability:

Prof. Jiming Bian is an outstanding candidate for the Best Researcher Award due to his exceptional contributions to the field of materials science and optoelectronic devices ⚛️. With a Ph.D. from the prestigious Shanghai Institute of Ceramics and his role as Professor at Dalian University of Technology 👨‍🏫, he has consistently delivered impactful research with real-world applications. His work demonstrates innovation, scientific excellence, and international recognition 🌍.

🎓 Education

📍 Ph.D. in Materials Science (2005)
Shanghai Institute of Ceramics, Chinese Academy of Sciences, China 🇨🇳

💼 Professional Experience

  • 👨‍🏫 Professor & Ph.D. Supervisor
    Dalian University of Technology, China 🇨🇳

  • 🔬 Research Specialization:
    Growth, electro-optical conversion, and device application of emerging semiconductors ⚛️

  • 📈 Research Achievements:

    • Published over 200 peer-reviewed articles in top journals like Joule, ACS Energy Letters, and Energy & Environmental Science 📚

    • Holds 10 published patents 🧾

    • H-index of 39 (Scopus) 📊

    • 4 papers recognized as ESI hot or highly cited 🔥

  • 🤝 Global Collaborations:

    • UCLA (USA) 🇺🇸

    • Sungkyunkwan University (South Korea) 🇰🇷

    • EPFL (Switzerland) 🇨🇭

  • 🏆 Honors & Awards:

    • Liaoning Province Excellent Postgraduate Tutor 🧑‍🎓

    • Multiple provincial & ministerial science and tech awards 🥇

Professional Development 🚀📖

Prof. Jiming Bian has steadily advanced in the field of materials science and semiconductor research ⚛️. After earning his Ph.D. 🎓 in 2005, he has become a prominent professor and Ph.D. supervisor 👨‍🏫 at Dalian University of Technology. His journey includes leading several national and provincial research projects 🔬, publishing over 200 articles 📚, and securing 10 patents 🧾. With an H-index of 39 📊 and international collaborations 🌍, he contributes to pioneering technologies like perovskite LEDs and solar cells ☀️. His editorial and scientific roles further establish him as a respected leader in electro-optical innovation 🏅.

Research Focus 🔍🤖

Prof. Jiming Bian’s research focuses on emerging semiconductors and their applications in optoelectronic devices ⚡. He specializes in the growth, charge transport, and electro-optical conversion of materials like perovskites 🧪. His innovative work on carbon-based perovskite solar cells (C-PSCs) ☀️ addresses major stability issues and has achieved world-record power conversion efficiency 📈. Additionally, his modular configurations improve device flexibility 🔁 and longevity. His expertise spans the fields of materials science, photovoltaics, and flexible electronics, contributing to green energy technologies 🌱 and next-gen semiconductor devices 🧠. His cutting-edge approach continues to push boundaries in sustainable and high-performance electronics 🔬.

Awards and Honors 🏆🎖️

  • 🏆 Liaoning Province Excellent Postgraduate Tutor

  • 🥇 Recipient of three provincial and ministerial science and technology awards

  • 🔥 Four papers selected as ESI Hot or Highly Cited Papers

  • 📈 Recognized for achieving world-record efficiency (22.65%) in modular carbon-based perovskite solar cells

  • 🌍 Editorial board member of Journal of Inorganic Materials – an SCI journal with international influence

Publications & Citations 📚

  • 📘 Piezo-phototronic effect improved performance… (2017) — Cited by: 223 📈 | [DOI: 10.1016/J.NANOEN.2016.12.028]

  • 💡 Electroluminescence from perovskite LEDs… (2016) — Cited by: 130 ✨ | [DOI: 10.1016/J.CPLETT.2016.09.041]

  • 🔋 Branched ZnO nanotrees on flexible fiber-paper… (2015) — Cited by: 98 ⚡ | [DOI: 10.1039/C4RA09163A]

  • 🔬 Controllable end shape modification of ZnO nano-arrays… (2015) — Cited by: 55 🧪 | [DOI: 10.1088/0022-3727/48/36/365303]

  • ⚙️ Enhanced performance of wearable piezoelectric nanogenerator… (2014) — Cited by: 190 🔧 | [DOI: 10.1063/1.4869118]

 🔍 Conclusion:

Prof. Jiming Bian’s prolific publication record, technological innovations, and global collaborations mark him as a leading scientist in semiconductor and energy materials research 🌟. His pioneering work in perovskite-based technologies not only advances academic understanding but also offers transformative solutions for sustainable energy ⚡🌱. These achievements make him an ideal and deserving recipient of the Best Researcher Award 🏅.

 

 

Mordechai Kremer | Chemical Kinetics | International Chemistry Award

Published on by Chemical Scientist

Assoc. Prof. Dr. Mordechai Kremer | Chemical Kinetics | International Chemistry Award

Associate Professor at Hebrew University Institute of Chemistry in Israel.

Born in Budapest 🇭🇺 in 1930, he survived the horrors of WWII thanks to the Jewish underground ✡️. He pursued chemistry at the University of Graz 🇦🇹 with support from the American Joint Distribution Committee. After beginning his Ph.D. at the Hebrew University 🇮🇱 in 1953, he later became an instructor and earned his doctorate in 1959 🎓. His academic journey included research at Yale University 🇺🇸 and the University of Pennsylvania. Over the decades, he rose through academic ranks, becoming an Associate Professor in 1976 and achieving emeritus status in 2001 🧪📘—leaving a legacy of resilience and scholarship.

Professional Profile

ORCID 

🔍 Summary of Suitability:

This distinguished chemist, born in 1930 in Budapest, has made significant and sustained contributions to the field of Physical Chemistry ⚛️. With over five decades in academia and research, including international collaborations and a steady academic rise at the Hebrew University 🇮🇱, he exemplifies excellence in chemical science, education, and mentorship. His resilience, global academic footprint, and scientific dedication make him a worthy candidate for international recognition 🌍.

🎓 Education

  • 🏫 1949–1953: Studied Chemistry at the University of Graz, Austria (supported by the American Joint Distribution Committee)

  • 📚 1953: Began Ph.D. studies in Physical Chemistry at the Hebrew University, Jerusalem

  • 🎓 1959: Earned Ph.D. degree from the Hebrew University

💼 Professional Experience

  • 👨‍🏫 1955: Instructor at the Hebrew University

  • 🔬 1960–1961: Research Assistant, Department of Chemistry, Yale University, USA

  • 📖 1962: Appointed Lecturer, Hebrew University

  • 📈 1967: Promoted to Senior Lecturer

  • 🧪 1968–1969: Research Associate, Johnson Foundation, University of Pennsylvania

  • 👨‍🔬 1976: Promoted to Associate Professor, Hebrew University

  • 🧓 2001: Retired as Emeritus Associate Professor

Professional Development 🚀📖

His professional journey reflects a lifelong dedication to science and education 🔬📚. Starting as an instructor at the Hebrew University 👨‍🏫, he steadily advanced through academic ranks, becoming a lecturer in 1962 and a senior lecturer by 1967 📈. His international research roles at Yale University 🇺🇸 and the University of Pennsylvania enriched his expertise in physical chemistry 🧪. Promoted to associate professor in 1976, he contributed significantly to academia and research. In 2001, he was honored with emeritus status 🎓, marking the culmination of a distinguished career filled with intellectual growth, mentorship, and scientific contribution 🌍📖.

Research Focus 🔍🤖

Based on his academic path and affiliations, this individual’s research focus lies in the field of Physical Chemistry 🧪⚛️. His Ph.D. work at the Hebrew University and later research roles at Yale University and the University of Pennsylvania suggest a strong emphasis on the molecular and theoretical aspects of chemistry 🔬📊. His involvement with renowned institutions highlights his contribution to advancing chemical understanding, possibly in areas like thermodynamics, reaction kinetics, or biochemical processes 🔍🧠. As a physical chemist, his work likely bridged fundamental chemistry and its applications in biology, materials science, and academia 🌡️📘—making lasting scientific impact globally 🌍.

Publications & Citations 📚

📘 Changes in the Mechanism of the Fenton Reaction (2025) – Mordechai Kremer | 📰 Reactions | 📅 2025 | 🔗 DOI: 10.3390/reactions6010006 | 📚 Cited by: [Fetching…] 🔍

🔍 Conclusion:

With a career grounded in scientific rigor, international impact, and educational excellence, this individual stands out as an exemplary figure in the global chemistry community 🧪. His lifelong dedication and resilience through historical and scientific challenges position him as a highly deserving recipient of the International Chemistry Award 🏅.

 

Jiang xiaowei | Surface Chemistry | Best Researcher Award

Published on by Chemical Scientist

Prof. Jiang xiaowei | Surface Chemistry | Best Researcher Award

team leader at jiangsu university of science and technology in China.

Jiang Xiaowei 🎓 is a professor at Jiangsu University of Science and Technology and a leading talent in Jiangsu Province’s “333 Project” and Deep Blue initiative. 🌊 With expertise in intelligent welding 🤖, industrial robots, and digital factory technology 🏭, he led the development of China’s first intelligent ship pipe welding production line and wall-climbing painting robots 🎨. His work was recognized as one of China’s top ten technological advances in intelligent manufacturing (2019) 🏆. A distinguished expert, he has won multiple national science awards 🏅, holds 10 invention patents 📜, and actively contributes to international engineering organizations. 🌍

Professional Profile
Suitability for the Best Researcher Award

Jiang Xiaowei is a highly accomplished researcher in intelligent welding, industrial robotics, and smart manufacturing 🤖🏭. His groundbreaking contributions in these fields, combined with multiple prestigious awards, patents, and leadership in national and international organizations, make him a strong candidate for the Best Researcher Award. His innovations have significantly impacted shipbuilding and manufacturing technologies, demonstrating both scientific excellence and real-world application.

Education 🎓

  • Jiangsu University of Science and Technology – Professor at the university.

Experience 🏆

  • Leading Talent in Jiangsu Province – Recognized under the “333 Project” and Deep Blue initiative. 🌊
  • Expert in Intelligent Welding & Robotics 🤖 – Specializes in industrial robot applications, digital factory technology, and equipment integration.
  • Project Leader 🚀 – Led the development of China’s first intelligent pipe welding production line for ships and wall-climbing painting robots. 🎨
  • Award-Winning Innovator 🏅 – Won multiple national and industry-specific science and technology awards.
  • Patent Holder 📜 – First inventor of 10 patents, including 9 domestic and 1 European invention patent.
  • Editorial & Committee Memberships 🏛️ – Serves on international journal editorial boards and national standardization committees in marine machinery and shipbuilding.

Professional Development 🚀📖

Jiang Xiaowei has made significant contributions to intelligent welding 🤖, industrial robotics, and digital manufacturing 🏭. As a key figure in Jiangsu Province’s “333 Project” and Deep Blue initiative 🌊, he has led groundbreaking projects, including China’s first intelligent pipe welding production line for ships and wall-climbing painting robots 🎨. His achievements earned multiple prestigious awards 🏆, and he holds 10 invention patents 📜. Actively engaged in professional organizations 🌍, he serves on editorial boards and national standardization committees, shaping the future of shipbuilding and mechanical engineering. His work continues to drive innovation in smart manufacturing. 🔬

Research Focus 🔍🤖

Jiang Xiaowei specializes in intelligent welding systems 🤖, industrial robotics 🚀, and digital manufacturing 🏭. His research focuses on developing automated welding technologies 🔥, smart robotic applications 🤝, and intelligent factories ⚙️ to enhance efficiency in shipbuilding and industrial production. He played a key role in creating China’s first intelligent pipe welding production line for ships 🚢 and wall-climbing painting robots 🎨. His work integrates AI-driven automation 🧠 and precision engineering 🛠️ to advance next-generation manufacturing technologies 🌍. Jiang’s innovations contribute to making smart factories and robotics more adaptive, efficient, and intelligent. 🔄

Awards & Honors 🏆

  • National Defense Science and Technology Progress Award – Second Prize (2nd place) 🏅
  • Science and Technology Progress Award (China Shipbuilding Industry Corporation) – Two First Prizes (2nd & 4th place) 🥇🥇
  • Science and Technology Progress Award (China Shipbuilding Engineering Society) – One First Prize (2nd place) and One Second Prize (1st place) 🥇🥈
  • Top Ten Technological Advances in China’s Intelligent Manufacturing (2019) 🚀
  • Excellent Expert in Standardization (China Shipbuilding Industry, 2024) 👨‍🏫
  • Editorial Board MemberInternational Journal of Science and Engineering 📖
  • Senior Member – China Society of Shipbuilding Engineers & China Society of Mechanical Engineers ⚙️
  • Professional Member – American Society of Mechanical Engineers 🌍
Publication Top Notes:

📌 Evolutionary origins of the SARS-CoV-2 sarbecovirus lineage responsible for the COVID-19 pandemic – MF Boni, P Lemey, X Jiang, TTY Lam, BW Perry, TA Castoe, A Rambaut, … – Nature Microbiology (2020) – 📑 1120 citations

📌 The origins of SARS-CoV-2: A critical review – EC Holmes, SA Goldstein, AL Rasmussen, DL Robertson, … – Cell (2021) – 📑 640 citations

📌 Exploring the natural origins of SARS-CoV-2 in the light of recombination – S Lytras, J Hughes, D Martin, P Swanepoel, A de Klerk, R Lourens, … – Genome Biology and Evolution (2022) – 📑 171 citations

📌 The animal origin of SARS-CoV-2 – S Lytras, W Xia, J Hughes, X Jiang, DL Robertson – Science (2021) – 📑 160 citations

📌 The evolutionary landscape of colorectal tumorigenesis – W Cross, M Kovac, V Mustonen, D Temko, H Davis, AM Baker, S Biswas, … – Nature Ecology & Evolution (2018) – 📑 130 citations

📌 Characterizing the diverse mutational pathways associated with R5-tropic maraviroc resistance: HIV-1 that uses the drug-bound CCR5 coreceptor – X Jiang, F Feyertag, CJ Meehan, GP McCormack, SA Travers, C Craig, … – Journal of Virology (2015) – 📑 43 citations

📌 Ebolavirus is evolving but not changing: No evidence for functional change in EBOV from 1976 to the 2014 outbreak – AS Olabode, X Jiang, DL Robertson, SC Lovell – Virology (2015) – 📑 41 citations

📌 Wildlife trade is likely the source of SARS-CoV-2 – X Jiang, R Wang – Science (2022) – 📑 26 citations

📌 How One Pandemic Led To Another: Was African Swine Fever Virus (ASFV) The Disruption Contributing To Severe Acute Respiratory Syndrome Coronavirus 2 (SARS‑CoV‑2) Emergence? – W Xia, J Hughes, D Robertson, X Jiang – Preprints (2021) – 📑 23 citations

📌 Conclusion:

Jiang Xiaowei’s pioneering research, technological innovations, and global impact make him an ideal candidate for the Best Researcher Award. His scientific excellence, leadership, and industry-changing contributions position him as a leading figure in intelligent manufacturing, making his work invaluable for future advancements in robotics, welding, and automation. 🚀

 

 

 

 

 

 

 

 

 

 

 

Shama Firdaus | Coordination Chemistry | Best Researcher Award

Published on by Chemical Scientist

 

Ms. Shama Firdaus | Coordination Chemistry | Best Researcher Award

Ph.D at Aligarh Muslim University in India.

Shama Firdaus 🎓 is a dedicated Research Scholar in the Department of Applied Chemistry at Aligarh Muslim University, India 🇮🇳. With a strong academic background, including an M.Sc. in Polymer Science & Technology (89.5%) and a B.Sc. (Hons.) in Chemistry, she is currently pursuing her Ph.D., focusing on metal-organic frameworks and oxide nanoparticles. Her research contributions include publications on biomolecular interactions, coordination polymers, and dye adsorption. She has presented at national and international conferences 🏆 and has hands-on experience in synthesis, characterization, and polymer technology. Passionate about scientific advancements 🔬, she embodies teamwork, leadership, and a commitment to research excellence.

Professional Profile
Suitability for the Researcher Award

Shama Firdaus is a highly dedicated and accomplished research scholar in Applied Chemistry at Aligarh Muslim University. Her research focuses on Metal-Organic Frameworks (MOFs), Nanocomposites, and Polymer Science, making significant contributions to material chemistry and nanotechnology 🔬. She has a strong academic record, multiple scientific publications, and active participation in national and international conferences 🎤.

Education 🎓

  • Ph.D. in Applied Chemistry (2021-Present) – Aligarh Muslim University, India 🇮🇳
    • Research Focus: Metal-Organic Frameworks (MOFs) & Oxide Nanoparticles
  • M.Sc. in Polymer Science & Technology (2019) – Aligarh Muslim University 🏅
    • Achieved 89.5%
  • B.Sc. (Hons.) in Chemistry (2017) – Aligarh Muslim University 🧪
    • Achieved 73.21%
  • Intermediate (12th Grade) (2013) – Rani Laxmi Bai Public School 📖
    • ISC Board, 83%
  • High School (10th Grade) (2011) – Sacred Heart Convent School 🏫
    • ICSE Board, 75.86%

Experience & Research 🔬

  • Ph.D. Research (Ongoing) 📚
    • Project: Inspire DST Funded Research on MOFs & Composite Materials
    • Expertise: Synthesis, Characterization & Applications in Adsorption
  • M.Sc. Research 🏗️
    • Project: Synthesis & Characterization of PANI-Ag Nanocomposite
  • Internship at Indian Rubber Manufacturer Research Association, Mumbai (2018) 🏭
    • Training: Mixing, Molding & Characterization of Rubber Products
  • Internship at Parichha Thermal Power Project, Jhansi (2018) ⚡
    • Training: River Water Treatment & Corrosion Prevention in Power Plants
  • Conference Presentations 🎤
    • Oral & Poster Presentations at National & International Conferences
    • Best Poster Award at ICSD 2023 🏆

Professional Development 🚀📖

Shama Firdaus is committed to continuous professional growth through research, training, and academic contributions 📚. She has actively participated in national and international conferences 🎤, earning recognition, including the Best Poster Award at ICSD 2023 🏆. Her hands-on experience includes polymer science, nanocomposites, and metal-organic frameworks (MOFs) 🔬. She has undergone specialized training in rubber product characterization 🏭 and water treatment for corrosion prevention ⚡. With expertise in synthesis and characterization techniques, she collaborates on cutting-edge research, contributing to multiple scientific publications 📝. Passionate about innovation, she continues to expand her knowledge and impact in applied chemistry 🚀

Research Focus 🔍🤖

Shama Firdaus focuses her research on Material Chemistry and Nanotechnology 🔬, specializing in Metal-Organic Frameworks (MOFs), Nanocomposites, and Polymer Science 🏗️. Her work explores biomolecular interactions, adsorption studies, and advanced materials for environmental applications 🌍. She is actively engaged in the synthesis, characterization, and application of MOFs and oxide nanoparticles for pollutant removal and sustainable chemistry ⚡. Her expertise extends to coordination polymers, biological interactions, and functional materials for industrial advancements 🏭. With a passion for cutting-edge material science, she contributes to innovations in chemical sustainability and nanomaterials for real-world applications 🚀.

Awards & Honors 🏆

  • Best Poster Presentation Award 🥇 at ICSD 2023 – 1st International Conference on New Vistas in Industrial Chemistry for Sustainable Development.
  • Oral Presentation Recognition 🎤 at National Conference on Interdisciplinary Approaches in Chemical Sciences 2023, Jamia Millia Islamia, New Delhi.
  • Poster Presentation 🖼️ at 2nd International Conference on Chemistry, Industry & Environment (ICCIE 2019), Aligarh Muslim University.
  • Poster Presentation 📊 at National Conference on Recent Advances in Material Sciences & Engineering (RAMSE 2019), Lingaya’s Vidyapeeth, Faridabad.
Publication Top Notes:

1️⃣ Juxtaposing consumption poverty and multidimensional poverty: A study in Indian context – P Das, B Paria, S Firdaush | 📅 2021 | 📑 Social Indicators Research 153 (2), 469-501 | 🔢 Cited by: 34

2️⃣ Intimate partner violence and its associated factors: a multidimensional analysis in the context of India – S Firdaush, P Das | 📅 2025 | 📑 Journal of Asian and African Studies 60 (2), 661-676 | 🔢 Cited by: 5

3️⃣ Status of Women Empowerment: A Comparative Study among the SAARC Countries – P Das, S Firdaush | 📅 2022 | 📑 Environmental Sustainability, Growth Trajectory and Gender: Contemporary … | 🔢 Cited by: 4

4️⃣ Status of Child Health Deprivation in West Bengal during 2005-06 to 2015-16: A Multidimensional Analysis – S Kumbhakar, S Firdaush, P Das | 📅 2022 | 📑 Productivity 62 (4) | 🔢 Cited by: 4

5️⃣ Child Immunizations: A Comparative Study Across States in India – K Maity, P Das, S Firdaush | 📅 2019 | 📑 Economic Affairs 64 (1), 207-215 | 🔢 Cited by: 3

6️⃣ Health Status of Muslim Women Across States in India: A Comparative Analysis – S Firdaush, P Das | 📅 2018 | 📑 International Journal of Inclusive Development 4 (2), 39-45 | 🔢 Cited by: 3

7️⃣ ICDS and the Status of Child Health: Does Good Governance Matter? – S Kumbhakar, S Firdaush, P Das | 📅 2023 | 📑 Social Sector Development and Governance, 61-76 | 🔢 Cited by: 1

8️⃣ Multidimensional poverty in India: a regional level analysis in the context of Sustainable Development Goals – P Das, B Paria, S Firdaush | 📅 2023 | 📑 Research Handbook on Poverty and Inequality, 205-223 | 🔢 Cited by: 1

9️⃣ Domestic violence on married women in India: a multidimensional analysis – S Firdaush, P Das | 📅 2022 | 📑 Registrar, Vidyasagar University on behalf of Vidyasagar University … | 🔢 Cited by: 1

🔟 Status of child health in India: a state level analysis – P Das, S Firdaush, SD Sarkar | 📅 2017 | 📑 Vidyasagar University, Midnapore, West Bengal, India | 🔢 Cited by: 1

1️⃣1️⃣ Green Growth Through Micro-Entrepreneurship: Empowering Women for Sustainable Development in West Bengal – S Firdaush, S Baidya, U Bera, S Kumbhakar | 📅 2024 | 📑 Informal Manufacturing and Environmental Sustainability: A Global … | 🔢 Cited by: N/A

1️⃣2️⃣ ICDS and Child Malnutrition: A Comparative Assessment of Policy Outcomes across Indian States – S Kumbhakar, S Firdaush, P Das | 📅 2024 | 📑 Good Governance and Economic Development, 199-214 | 🔢 Cited by: N/A

1️⃣3️⃣ Status of Child Health Care: A State Level Analysis – S Firdaush, P Das | 📅 2019 | 📑 Unspecified Source | 🔢 Cited by: N/A

📌 Conclusion:

Given her exceptional research output, innovation in applied chemistry, and recognized contributions to nanotechnology and material science, Shama Firdaus is highly suitable for the Best Researcher Award 🏆. Her dedication, technical expertise, and commitment to advancing chemical sciences make her a strong contender for this prestigious recognition 🚀.