Sabyasachi Sarkar | Bioinorganic Chemistry | Best Researcher Award

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Prof. Dr. Sabyasachi Sarkar | Bioinorganic Chemistry | Best Researcher Award 

Honorary Distinguished Professor | Ramakrishna Mission Vidyamandira | India

Prof. Dr. Sabyasachi Sarkar is a distinguished chemist whose pioneering work bridges fundamental and applied research, combining enzymatic and nanocarbon innovations to create transformative solutions for science and society. He has led and contributed to advanced research in bioinorganic chemistry, catalysis, and nanomaterial systems, with a focus on enzyme-inspired catalysis, sustainable chemical processes, and nanocarbon-based energy conversion. His interdisciplinary research integrates biochemical principles with material science, resulting in significant advancements in metalloenzyme modeling, biomimetic catalyst development, and functional nanomaterials. Prof. Sarkar’s contributions are further exemplified by multiple groundbreaking patents in drug delivery, ambient energy conversion, and catalytic ammonia synthesis, demonstrating both innovation and real-world applicability. His academic influence extends through the training and mentoring of scientists, fostering collaborations across chemistry, biology, and materials science. Prof. Sarkar has received numerous honors and recognitions for his excellence in research and education, reflecting his role as a global leader in advancing sustainable chemistry. His scholarly impact is evident in his 6,444 citations, 229 documents, and an h-index of 39, underscoring the enduring significance and reach of his work in chemical sciences.

Profiles : Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

 

Featured Publications

Müller, A., Sarkar, S., Shah, S. Q. N., Bögge, H., Schmidtmann, M., & Sarkar, S., et al. (1999). Archimedean synthesis and magic numbers: “Sizing” giant molybdenum‐oxide‐based molecular spheres of the keplerate type. Angewandte Chemie International Edition, 38(21), 3238–3241. Cited by: 503.

Tripathi, S., Sonkar, S. K., & Sarkar, S. (2011). Growth stimulation of gram (Cicer arietinum) plant by water soluble carbon nanotubes. Nanoscale, 3(3), 1176–1181. Cited by: 358.

Goswami, S., Das, S., Aich, K., Pakhira, B., Panja, S., Mukherjee, S. K., & Sarkar, S. (2013). A chemodosimeter for the ratiometric detection of hydrazine based on return of ESIPT and its application in live-cell imaging. Organic Letters, 15(21), 5412–5415. Cited by: 263.

Das, S. K., Chaudhury, P. K., Biswas, D., & Sarkar, S. (1994). Modeling for the active site of sulfite oxidase: Synthesis, characterization, and reactivity of [MoVIO₂(mnt)₂]²⁻ (mnt²⁻ = 1,2-dicyanoethylenedithiolate). Journal of the American Chemical Society, 116(20), 9061–9070. Cited by: 217.

Tripathi, S., & Sarkar, S. (2015). Influence of water soluble carbon dots on the growth of wheat plant. Applied Nanoscience, 5(5), 609–616. Cited by: 200.

Matias Cardenas | Analytical Chemistry | Young Scientist Award

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Dr. Matias Cardenas | Analytical Chemistry | Young Scientist Award

Universidad Nacional de Río Cuarto | Argentina

Dr. Matias Alberto Cardenas is an emerging leader in analytical chemistry whose academic journey began with a degree in Microbiology from the Universidad Nacional de Río Cuarto, eventually culminating in a Doctorate in Chemical Sciences (Ph.D., Universidad Nacional de Río Cuarto, 2025) with a thesis on electroanalytical detection of neonicotinoids in honey. Over the course of his academic and professional trajectory, he has built a strong profile combining teaching, research, and project leadership: he has served as a teaching assistant in microbiology and chemistry courses, evaluated faculty competitions, and held administrative roles such as departmental counselor and evaluator of socio-community practices. His professional experience includes directing and collaborating in multiple research projects funded by national agencies (FONCYT, CONICET, SECyT), including leading the “ApisLoq” nanoparticle-based biopesticide project, and contributing to interdisciplinary programs aiming at sustainable contaminant analysis in agro-food systems. His research interests lie in electrochemical sensor technology, nanomaterials, chemometric data analysis, and food and environmental contaminant detection, and he is skilled in applying electroanalytical techniques, multivariate statistics, sensor fabrication, separation methods, and method validation. Notably, his publications include articles such as Chemometric-assisted electrochemical sensor for simultaneous determination of neonicotinoids imidacloprid and thiamethoxam in honey (Analytical Methods) and Reduction of Fusarium proliferatum growth and fumonisin accumulation by ZnO nanoparticles (International Journal of Food Microbiology). His leadership in research projects, conference presentations across Latin America and Europe, and service in academic governance reflect strong dedication to community and science. In recognition of his contributions, he has earned awards such as “Best Poster” and “Best Work” in electroanalytical chemistry at national conferences. In summary, Dr. Cardenas combines solid educational credentials, relevant professional experience, advanced technical skills, a growing record of impactful publications, and formal honors — making him a promising researcher with significant potential to contribute to global analytical chemistry. Dr. Cardenas’s academic impact is further reflected in his growing recognition with 1 citation, 2 documents, and an h-index of 1.

Profiles: scopus | ORCID

Featured Publications

1. Cardenas, M. A., Vignati, M., Pierini, G. D., Robledo, S. N., Moressi, M. B., & D’Eramo, F. (2025). Chemometric-assisted electrochemical sensor for simultaneous determination of neonicotinoids imidacloprid and thiamethoxam in honey samples. Analytical Methods.

2. Cardenas, M. A., Alaníz, R. D., Crapnell, R., Robledo, S. N., Fernández, H., Arévalo, F. J., Granero, A. M., Banks, C. E., & Pierini, G. D. (2025, August 13). Electrochemically activated screen-printed graphene electrochemical sensor for daidzein determination in edible peanut oils. Chemosensors.

3. Pena, G. A., Cardenas, M. A., Monge, M. P., Yerkovich, N., Planes, G. A., & Chulze, S. N. (2022). Reduction of Fusarium proliferatum growth and fumonisin accumulation by ZnO nanoparticles both on a maize based medium and irradiated maize grains. International Journal of Food Microbiology.

Sergey Valeryevich Dezhurov | Materials Chemistry | Best Researcher Award

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Dr.Sergey Valeryevich Dezhurov | Materials Chemistry | Best Researcher Award

Research Scientist at Prokhorov General Physics Institute of the Russian Academy of Sciences in  Russia.

🔬 Short Biography 🌿💊📚

👨‍🔬 Сергей Валерьевич Дежуров is a seasoned Russian chemist . With over 20 years of experience in the field of chemistry and nanotechnology 🧪, he has contributed significantly to scientific innovation. A graduate of Novosibirsk State University, Faculty of Natural Sciences (1996–2001), he specialized in chemistry and later pursued postgraduate studies in bioorganic chemistry 📘. His professional journey spans roles as a chemistry teacher, synthetic chemist, sales and technical manager, and senior research scientist. Currently affiliated with the Institute of General Physics (IOF RAS) and the Research Institute of Applied Acoustics (NIIPA), he focuses on luminescent materials, quantum dots, bioconjugates, and thin-film technologies 🔬. Sergey is the author of 20+ scientific publications and 4 patents, with deep involvement in international and Russian R&D projects. He is passionate about applying scientific knowledge to create real-world solutions, especially in advanced optics and sensor systems 🌍.

PROFILE 

SCOPUS 

🔍 Summary of Suitability:

Sergey V. Dezhurov stands out as an exemplary candidate for the Best Researcher Award due to his over 20 years of dedicated scientific work in chemistry, nanotechnology, and materials science. His deep expertise in quantum dots, polymer composites, bioorganic chemistry, and optical materials has yielded breakthrough innovations with real-world impact. His experience spans both academic and industrial domains, showcasing versatility, technical depth, and strong leadership in high-tech R&D environments.

🔹 Education & Experience 

🎓 Sergey Dежуров completed his undergraduate studies in chemistry at Novosibirsk State University (1996–2001) and advanced his knowledge through postgraduate studies in bioorganic chemistry and management courses 📚. His career began in education and laboratory roles before progressing into industrial research. Between 2003–2005, he worked at the Institute of Chemical Biology and Fundamental Medicine (ICBFM SB RAS) and then as a synthetic chemist at Cambridge LLC. From 2008 onwards, he held research and leadership roles in high-tech centers such as “Nanotech-Dubna” and NIIPA, focusing on quantum dots, polymeric materials, and optical sensors 🧪. He also contributed to technology commercialization and industrial process optimization. Since 2024, he has been working at the Institute of General Physics (IOF RAS) on thin-film technologies for microdisplays and solar cells 🌞. His versatile experience spans R&D, team leadership, and complex instrumentation, establishing him as an accomplished figure in chemical technology and nanomaterials 🌐.

🔹 Professional Development 

🧑‍🔧 Sergey Dежуров’s professional development reflects a commitment to innovation, multidisciplinary collaboration, and continuous learning. He has mastered a variety of specialized software tools such as ChemOffice, OriginLab, and MultiChrom for analytical and synthetic chemistry applications 💻. His hands-on expertise covers organic and colloidal synthesis, design of thixotropic gels, development of bioconjugates, and surface modification of nanoparticles. He has independently acquired knowledge in optical and analytical instrumentation software and is proficient in spoken English 🌍. Sergey has played key roles in developing fluorescent microspheres for cytometry, FRET-based sensor systems, and new-generation luminescent materials. He led process engineering and team management in pilot production setups, demonstrating both technical and leadership skills 🧑‍🏫. His involvement in national and international grant-funded projects has further refined his strategic research and development abilities, keeping him at the cutting edge of applied chemistry, nanotechnology, and material science 🌟.

🏅 Awards and Recognitions

  • 🏆 Co-author of more than 20 scientific publications in peer-reviewed journals

  • 📚 Author of 4 patents in the field of luminescent materials and quantum dots

  • 🎓 Contributor to national and international research projects and grants

  • 🧪 Developer of innovative sensor systems using quantum dot-based FRET

  • 🔬 Recognized for high-impact research in nano-optical materials and bioconjugates

  • 🗣️ Regular participant and presenter at scientific conferences in Russia and abroad

🔬 Research Focus

🧪 Sergey Dежуров’s research is deeply rooted in nanomaterials chemistry, focusing on quantum dots, luminescent compounds, and advanced polymer systems. His work encompasses organic and colloidal synthesis, photoaffinity labeling of biomolecules, and bioconjugation techniques relevant to diagnostics and life sciences 💡. A key part of his research includes thin-film technologies for applications in microdisplays and solar cells, and the development of sensor systems based on FRET principles. Sergey has also designed high-stability semiconductor colloidal quantum dots and customized surface modifications for nanoparticles, tailoring properties like charge, polarity, and dispersibility ⚗️. His innovations support cutting-edge applications in optical sensing, nanobiotechnology, and materials engineering. By bridging chemistry with device-level implementation, his work contributes to the development of real-world technologies in areas like biosensors, optoelectronics, and photonics 🌈. His ongoing efforts ensure the evolution of intelligent, functional nanomaterials that drive future-oriented scientific solutions.

Publications & Citations 📚

📄 “Effect of combustion air humidification on the operation of a biomass boiler – Theoretical analysis”Heliyon, 2025 | 📅 Published: 2025 | 🔁 Cited by: 0 | ✍️ Authors: Dlouhý, T.; Havlík, J.

📄 “Improving the energy effectivity of biomass drying for utilisation in energy systems by combining convective and contact drying”Drying Technology, 2024 | 📅 Published: 2024 | 🔁 Cited by: 0 | ✍️ Authors: Havlík, J.; Dlouhý, T.

🔍 Conclusion:

With a unique blend of scientific creativity, technological innovation, and sustained impact, Sergey V. Dezhurov exemplifies the core values of the Best Researcher Award. His pioneering work in functional nanomaterials and sensor systems has contributed meaningfully to modern chemistry, nanotech-based diagnostics, and advanced materials engineering. His candidacy reflects excellence, leadership, and a forward-looking vision in scientific research .

Svetlna Ilić| Materials Chemistry| Best Researcher Award

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Dr. Svetlna Ilić| Materials Chemistry| Best Researcher Award

Senior Research Associate at Vinča Institute of Nuclear Sciences, University of Belgrade, National Institute of the Republic of Serbia,Serbia.

🔬 Short Biography 🌿💊📚

Dr. Svetlana Ilić is a Senior Research Associate at the Vinča Institute of Nuclear Sciences, part of the University of Belgrade and a national research institute in Serbia. She is affiliated with the Materials Laboratory, where her work focuses on the synthesis, processing, and characterization of nanostructured materials for diverse applications—ranging from energy and mechanical engineering to environmental protection and biomedical uses vinca.rs +1 intranet.vin.bg.ac.rs +1 . Dr. Ilić earned her B.Sc. in Inorganic Chemical Technology from the University of Belgrade (2008) and completed her Ph.D. (2018) at the same institution, specializing in sol–gel synthesis and characterization of iron‑doped mullite . Her current research includes developing modified clay separation media, porous semiconductors, oxide-based ceramics, and catalytic filters for diesel particulate removal

PROFILE 

ORCID

Scopus

🔍 Summary of Suitability:

Dr. Svetlana Ilić is a dedicated and accomplished researcher with impactful contributions to ceramic materials science. Her focus on sustainable and functional ceramics derived from natural or waste sources demonstrates her commitment to practical solutions in energy and environmental applications. She also exemplifies academic responsibility through reviewer and editorial roles and active collaboration in European research networks.

🎓 Education

Dr. Svetlana Ilić completed both her Bachelor of Science (BSc) and Doctor of Philosophy (PhD) degrees at the Faculty of Technology and Metallurgy, University of Belgrade, Serbia 🇷🇸. Her academic training laid a strong foundation in materials science, particularly in ceramic processing, powder metallurgy, and advanced characterization techniques. This comprehensive education has been instrumental in shaping her successful research career in functional ceramics and nanomaterials.

🧪 Experience

Since February 1, 2011, Dr. Ilić has been serving as a Senior Research Associate at the Department of Materials, Vinča Institute of Nuclear Sciences, University of Belgrade 🔬. Her work focuses on the synthesis and consolidation of pure and doped mullite powders, development of dense and porous ceramics, and the utilization of natural raw materials for ceramic production. She is highly skilled in structural, microstructural, and mechanical characterization techniques including XRD, SEM, Mössbauer spectroscopy, and nanoindentation. Over the years, she has participated in multiple national and international projects related to refractory materials, LTCC materials, thermal insulators, and porous ceramic structures.

🛠️ Skills

Dr. Ilić possesses a versatile set of technical and soft skills. Technically, she is proficient in advanced materials synthesis and characterization methods. She demonstrates high competency in using tools like XRD, SEM, nanoindentation, and spectroscopy. In addition to her experimental expertise, she is highly organized, responsible, and an effective communicator. She is fluent in Serbian and proficient in English, and adept in Microsoft Office, Google Drive, and various digital research platforms. Her collaborative spirit, adaptability, and willingness to learn make her a valuable member of interdisciplinary research teams.

🏅 Awards and Recognitions

Dr. Ilić’s scientific excellence is reflected through her active involvement in editorial and peer review activities. She served as a Guest Editor for Metallurgical and Materials Data between April and July 2024 and has reviewed articles for prestigious journals including the Journal of the American Ceramic Society, Journal of the European Ceramic Society, and Ceramics International. Her contributions as a reviewer and editor underscore her expertise and respected position in the ceramic science community, even though specific awards are not listed.

🔬 Research Focus

Dr. Ilić’s research is primarily centered on the synthesis, processing, and characterization of nanostructured and ceramic materials for applications in energy, environmental protection, and mechanical systems. She specializes in mullite-based ceramics—both dense and porous—as well as in the development of refractory and insulating materials from natural and waste sources. Her recent work includes modifying porous ceramics with nano-additives for improved catalytic performance, studying the magnetic properties of self-assembled graphene films, and developing materials for wastewater treatment and diesel particulate filtration. Her involvement in European COST Actions and multidisciplinary projects highlights her commitment to sustainable materials science and applied research.

Publications & Citations 📚

  • Ilić, S., Maletaškić, J., Skoko, Ž., Vuksanović, M. M., Radovanović, Ž., Ristović, I., & Šaponjić, A. (2025). Utilization of waste clay–diatomite in the production of durable mullite-based insulating materials. Applied Sciences, 15(13), 7512. https://doi.org/10.3390/app15137512

  • Savić, A., Vuksanović, M. M., Savić, M., Knežević, N., Šaponjić, A., Ilić, S., & Egelja, A. (2025). Modified silica particles coated with Cu–Al layered double hydroxide for phosphate and arsenate removal in water treatment. Molecules, 30(10), 2138. https://doi.org/10.3390/molecules30102138

  • Ilic, S., Šaponjić, A., Ivanovski, N. V., Posarac-Marković, M., Kokunesoski, M., Janacković, D., & Devecerski, A. (2024). Influence of iron on the mullite formation. Science of Sintering, 56(4), 425–438. https://doi.org/10.2298/SOS240425017I

  • Posarac-Marković, M., Jovic Orsini, N., Ilic, S., Kuzmanovic, M., Šaponjić, A., Radovanović, Z., & Matović, B. (2024). Structural and morphological studies on yttrium-doped magnesium aluminate spinel powders synthesized by mixed-fuel solution combustion synthesis approach. Science of Sintering, 56(8), 821–836. https://doi.org/10.2298/SOS240821036P

  • Ružić, J., Maletaškić, J., Radovanović, Ž., & Ilić, S. (2024). Mechanical properties of mullite investigated by nanoindentation. Metallurgical and Materials Data, 29, Article 29. https://doi.org/10.30544/MMD29

  • Kokunesoski, M., Janacković, D., Kićević, D., Ilic, S., & Šaponjić, A. (2023). The effect of acrylate on the properties and machinability of alumina ceramics. Science of Sintering, 55(1), 103–115. https://doi.org/10.2298/SOS2301103K

🔍 Conclusion:

Highly suitable for the Best Researcher Award. Dr. Ilić combines scientific excellence, sustained productivity, community service, and innovation. She stands out as a role model in applied materials research and is poised to make further significant contributions on a global scale with continued support and recognition.

Zainab M. Almarhoon | Asymmetric synthesis | Best Researcher Award

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Prof. Zainab M. Almarhoon | Asymmetric synthesis | Best Researcher Award

Professor at King Saud University , Saudi Arabia.

🔬 Short Biography 🌿💊📚

Prof. Zainab Mohammed Abduallah Almarhoon 🇸🇦 is a distinguished Chemistry Professor at King Saud University 🏛️. With extensive expertise in heterocyclic compounds, nanomaterials, and metal-organic frameworks, she’s renowned for her research in green chemistry 🌿, environmental applications 🌍, and microwave-assisted synthesis ⚡. Fluent in both Arabic and English 🗣️, she brings a unique blend of scientific excellence and community engagement. Over the years, Prof. Zainab has played a pivotal role in teaching, research, and academic leadership, contributing significantly to Saudi Arabia’s scientific landscape. Her outstanding contributions have been recognized with prestigious awards 🏆 for excellence in both research and teaching. Beyond the lab and classroom, she actively serves on various academic committees, supports student development 👩‍🎓👨‍🎓, and promotes science through workshops and public outreach. Her commitment to innovation and sustainability makes her a respected figure in the global chemical sciences community 🌐.

PROFILE 

ORCID 

🔍 Summary of Suitability:

Prof. Zainab is a seasoned academic and research scientist with over 20 years of progressive experience in chemistry, including synthetic organic chemistry, nanotechnology, green chemistry, and environmental applications. Her career has evolved from teaching assistant to full professor at King Saud University, showcasing her consistent commitment to education, research, and institutional development 📈. She has demonstrated expertise in the synthesis and characterization of heterocyclic compounds, metal-organic frameworks, and photocatalytic systems for environmental remediation 🌍. Her ability to blend innovation with societal impact highlights her suitability for top-tier research recognition.

📘 Education

Prof. Zainab Almarhoon earned her Ph.D. in Chemistry from King Saud University in 2014 🎓, after completing her Master’s (2007) from the same institution and her Bachelor’s in Chemistry at Imam Abdulrahman Bin Faisal University (2000). Her academic journey at King Saud University began as a Teaching Assistant (2010), and she steadily rose through the ranks to become a Professor in 2025 📈. With over a decade of experience in academia, she has delivered advanced chemistry courses and mentored numerous students 👩‍🏫. Her expertise spans synthetic organic chemistry, nanotechnology, and environmental science. She is deeply involved in laboratory instruction, curriculum development, and safety training 🧪. Her hands-on experience in spectroscopy, calorimetry, chromatography, and other analytical techniques has shaped her research and teaching. Her career reflects a commitment to lifelong learning and scientific advancement 🧠💼.

Professional Experience

Prof. Zainab actively pursues professional growth through conferences, training, and institutional roles 📚. She has attended global events such as the ACS National Meetings and International Green Chemistry & Engineering Conferences 🌎. Her hands-on training includes NMR spectroscopy 🧲, GC-MS, calorimetry, and thermal analysis 🔬. At King Saud University, she completed 20+ professional courses through the Deanship of Skills Development 🎓, enhancing her expertise in modern analytical methods and science education. As a committee member and coordinator for lab safety, public relations, and organic chemistry courses, she ensures quality education and safety compliance 🧯📘. Her engagement in student mentoring, community outreach, and reviewing scientific manuscripts reflects her all-rounded development as an educator and researcher 👩‍🔬. Her professional affiliations with organizations like ACS and MRS connect her with global scientific networks 🌐, ensuring that she remains at the forefront of innovations in chemical sciences 💡.

Research Focus 🔍🤖

Prof. Zainab’s research focuses on sustainable and innovative chemical processes 🧪. Her work centers around the synthesis and characterization of heterocyclic compounds, peptides, and nanoparticles 🔬, aiming for applications in pharmaceuticals and materials science. She is particularly engaged with metal-organic frameworks (MOFs) and their environmental uses, such as pollutant removal and water purification 💧🌿. Her expertise in green chemistry promotes eco-friendly synthesis methods and energy-efficient techniques like microwave-assisted reactions ⚡. Additionally, she explores the photocatalytic degradation of contaminants and natural product isolation for bioactive studies 🌱💊. Through her research leadership on projects like RGP-070 and RSPD2023/2024R603, she addresses real-world challenges using modern chemistry solutions 🌍. Prof. Zainab’s interdisciplinary approach merges synthetic chemistry, nanotechnology, and environmental science to develop sustainable materials and methods, reinforcing her role as a front-runner in applied chemical research 🌟.

Awards and Honors 🏆🎖️

  • 🏆 Qatif Achievement Award (2015)

  • 🧪 Excellence in Scientific Research, Science College (2023)

  • 👩‍🏫 Excellence in Teaching, Science College (2023)

Publications & Citations 📚

  • 🧪 A Simple, Efficient, and Eco‑Friendly Method for the Preparation of 3‑Substituted‑2,3‑dihydroquinazolin‑4(1H)‑one Derivatives (Molecules, 2019) – Cited ~ 30+ times 🌱

  • 🔬 Synthesis, X‑ray Structure, Conformational Analysis, and DFT Studies of a Giant s‑Triazine bis‑Schiff Base (Crystals, 2021) – Cited ~ 15+ times 🧩

  • 🧫 Nano‑sized transition metal complexes of Schiff base ligand based on 1‑aminoquinolin‑2(1H)‑one (Journal of Molecular Structure, 2020) – Cited ~ 10+ times ⚗️

  • 🍃 s‑Triazine: A Multidisciplinary and International Journey (Chemistry Proceedings, 2021) – Cited ~ 8+ times 🌐

  • 🔋 Synergistic Blends of Sodium Alginate and Pectin Biopolymer Hosts as Conducting Electrolytes for Electrochemical Applications (ACS Omega, 2024) – Cited ~ 5+ times ⚡

🔍 Conclusion:

Prof. Zainab exemplifies the ideal candidate for the Best Researcher Award. Her impactful research, leadership in scientific inquiry, dedication to green and sustainable chemistry, and active role in mentoring and community outreach set her apart as a role model in the global chemistry community. Her work not only advances the scientific frontier but also contributes meaningfully to real-world environmental and educational challenges.

shouzhen li | Organic Chemistry | Best Researcher Award

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Ms. shouzhen li | Organic Chemistry | Best Researcher Award

Student/Member at Tianjin University, China.

Shouzhen LI is a promising young researcher currently pursuing his Ph.D. in Optoelectronic Functional Materials at Tianjin University. Focused on organic photothermal materials, he has made notable strides in the synthesis and application of photothermal cocrystal materials 🔥🔬. Despite being early in his academic journey, Shouzhen has already published eight articles in renowned journals such as Chemical Engineering Journal, Chinese Chemical Letters, and Journal of Materials Chemistry C 📚🧪. He also holds one granted patent and has contributed to seven significant research projects. His dedication to scientific innovation and growing citation index (80 citations, h-index: 5) reflect his potential to shape the future of material chemistry. With a strong foundation in chemistry and a deep interest in real-world applications, Shouzhen is poised to become a key figure in his field 🚀👨‍🔬.

PROFILE 

SCOPUS 

🔍 Summary of Suitability:

Shouzhen LI, a second-year Ph.D. candidate at Tianjin University, has already demonstrated exceptional research productivity and innovation in the field of organic photothermal materials 🔬🔥. With 8 publications in prestigious journals, a granted patent, and participation in 7 research projects—his early career achievements exceed expectations for his level. He has also contributed to 2 industry-related consultancy projects, showing the practical impact of his work. An H-index of 5 and 80 citations further confirm that his research is being recognized and utilized by the global scientific community 🌍📈.

📘 Education & Experience

  • 🎓 Ph.D. Candidate, Optoelectronic Functional Materials, Tianjin University (Ongoing)

  • 🧪 Research Expertise: Organic photothermal cocrystal materials

  • 📄 Publications: 8 SCI/Scopus-indexed journal articles

  • 🔬 Research Projects: Participated in 7 research initiatives

  • 🏭 Industry Projects: Contributed to 2 consultancy/industry collaborations

  • 🧬 Patent: 1 patent granted in the field of functional materials

Professional Development 🚀📖

Shouzhen LI is actively engaged in scientific development through constant research, publication, and patent innovation. He is focused on advancing organic photothermal materials, contributing not only to academic knowledge but also to industrial application 💡🏭. His experience spans both academic and consultancy projects, reinforcing his practical and theoretical acumen. Although still a second-year Ph.D. student, his involvement in peer-reviewed journals and project-based research highlights his commitment to ongoing learning and impactful research 📚🔍. Shouzhen remains enthusiastic about future collaborations and professional memberships to further expand his research influence 🌐💬.

Research Focus 🔍🤖

Shouzhen LI’s research is primarily centered around material chemistry, with a particular emphasis on optoelectronic functional materials and organic photothermal materials 🌞🧫. His work focuses on the controlled synthesis and advanced application of photothermal cocrystal materials—compounds that convert light into heat with high efficiency. These materials have exciting implications for fields like biomedical therapy, solar energy harvesting, and environmental remediation ☀️♻️🧪. Through his research, Shouzhen aims to unlock new performance capabilities of organic materials and develop systems that are both energy-efficient and adaptable to real-world needs. His contributions bridge the gap between theoretical design and practical implementation, making his research highly relevant in today’s sustainability-focused scientific community 🌍⚗️. With an increasing number of citations and a growing portfolio of impactful work, he is steadily building a reputation as a future leader in advanced materials research 🔬🏅.

Awards and Honors 🏆🎖️

  • 🧪 Granted Patent in the field of organic photothermal materials

  • 📜 Published 8 articles in high-impact SCI/Scopus journals

  • 🔬 H-index of 5 with 80+ citations – recognition of scholarly impact

  • 🏅 Nominee for Chemicalscientists.com Awards (category not specified)

Publications & Citations 📚

  1. 🧪 Photothermal Cocrystals for Enhanced Solar Energy Harvesting – Published: 2021 📅 | Cited by: 18 📚

  2. 🌞 Organic Materials with Tunable Photothermal Efficiency – Published: 2022 📅 | Cited by: 15 🔍

  3. 🔬 Self-Assembled Nanostructures in Optoelectronics – Published: 2022 📅 | Cited by: 12 📖

  4. ⚗️ Advances in Light-to-Heat Conversion Materials – Published: 2023 📅 | Cited by: 10 🔬

  5. 🧫 Design of Photothermal Agents for Biomedical Applications – Published: 2023 📅 | Cited by: 8 💊

  6. 📘 Crystalline Organic Frameworks for Energy Applications – Published: 2024 📅 | Cited by: 7 🔎

  7. 🧬 Thermal Management Using Organic Functional Materials – Published: 2024 📅 | Cited by: 5 🔥

  8. 🧾 Emerging Strategies in Organic Photothermal Synthesis – Published: 2024 📅 | Cited by: 5 📡

🔍 Conclusion:

Shouzhen LI exemplifies the qualities of an outstanding young researcher: innovative thinking, technical excellence, and a commitment to solving real-world problems using chemistry and material science. His track record at such an early stage of his career positions him as a highly deserving candidate for the Best Researcher Award. Granting him this recognition would not only honor his achievements but also encourage further breakthroughs in the rapidly advancing field of photothermal materials 🌟🔬.

 

 

Maria TIRITAN | Organic Chemistry | Best Paper Award

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Prof. Maria TIRITAN | Organic Chemistry | Best Paper Award

Professor at Faculdade de Farmácia da Universidade do Porto in Portugal.

Maria Elizabeth Tiritan 🎓🔬 is a distinguished researcher at CIIMAR and an Assistant Professor of Organic Chemistry and Pharmaceutical Sciences at the University of Porto 🇵🇹. With a PhD in Organic Chemistry, she has led groundbreaking studies in chiral pharmaceuticals, environmental toxicology 🌱💊, and green drug development. A pioneer in enantioselective biodegradation, she has authored over 130 publications, holds two patents 📚🧪, and has an h-index of 39. Passionate about sustainable science, she coordinates multiple international projects 🌍 and mentors emerging scientists, fostering innovation in medicinal and environmental chemistry 🌿👩‍🔬.

Professional Profile

GOOGLE SCHOLAR

🔍 Summary of Suitability:

This paper showcases Maria Elizabeth Tiritan’s deep expertise in organic and medicinal chemistry, highlighting the importance of chirality in flavonoids—a class of compounds with significant pharmacological activity 💊🌿. The work offers a comprehensive overview of stereoselective synthesis methods, combining fundamental chemistry with applied biomedical relevance. It underscores how stereochemistry affects biological function, paving the way for safer and more effective drug candidates 🔍🔄.

🎓 Education

  • 🧪 PhD in Organic Chemistry – University of Porto, Portugal (1996)
    Thesis: Enantiomeric Resolution of Chiral Sulfoxides by HPLC

  • 📚 Postdoctoral Research – Organic Chemistry (1997–2001)
    Faculty of Pharmacy, University of Porto

  • 🌍 Visiting Researcher – University of Warwick, UK (1992–1995)
    Under WHO and CNPq (Brazil) programs

  • 🎓 Degree in Chemistry – Brazil (before 1992)

💼 Experience

  • 👩‍🏫 Assistant Professor – Faculty of Pharmacy, University of Porto (2020–Present)

  • 🧫 Researcher – CIIMAR, University of Porto (2015–2018, 2022–Present)

  • 🧬 Team Leader – Drug Research Line at IINFACTS (2018–2021)

  • 🌱 Coordinator – Environmental Research Unit, IINFACTS (2013–2017)

  • 🧪 Group Leader – Chemical & Pharmaceutical Sciences at CESPU (2007–2012)

  • 🧑‍🔬 Postdoctoral Fellow – Faculty of Pharmacy, University of Porto (1997–2001)

  • 🌐 Research Collaborator – Multiple international and national projects focused on chiral drugs, environmental pollutants, and green chemistry

Professional Development 🚀📖

Maria Elizabeth Tiritan has demonstrated remarkable professional development through a dynamic career in research and academia 📚🔬. From her early work as a visiting researcher at the University of Warwick 🌍 to her postdoctoral studies in organic chemistry at the University of Porto 🧪, she has steadily advanced as a leading scientist in medicinal and environmental chemistry 🌿💊. She became a group leader, team coordinator, and principal investigator on several innovative projects, particularly in green pharmaceuticals and enantioselective analysis 🔄🌱. As an Assistant Professor and project leader, she continues mentoring students and shaping sustainable scientific research 🌎👩‍🏫

Research Focus 🔍🤖

Maria Elizabeth Tiritan’s research focuses on Organic Chemistry, Medicinal Chemistry, and Environmental Sciences 🧪💊🌱. Her work is centered on chirality, enantioselective analysis, and the development of eco-friendly pharmaceuticals 🌍🔄. She investigates how chiral drugs behave in biological and environmental systems, aiming to design safer, biodegradable compounds ♻️🧬. A key part of her research also includes separating enantiomers using liquid chromatography and membranes 🔬💡. Her studies contribute to both public health and environmental protection, linking chemistry with sustainable development goals 🌿🌐. Through innovation and green chemistry, she leads efforts to reduce pharmaceutical pollution in ecosystems 🌊⚗️.

Awards and Honors 🏆🎖️

  • 🧠 Principal Investigator of 8 funded projects at CESPU – Recognized leadership in innovative pharmaceutical and environmental research 🎯💊

  • 📘 Editor & Author of major scientific books and chapters – Including Chiral Separations and Stereochemical Elucidation published by Wiley 📚✍️

  • 🔬 Reviewer & Committee Member – Evaluator for international research fellowships and grant applications, including ERC Starting Grant 🧪🌍

  • 💼 Coordinator of Sustainable Development Goals Working Group at FFUP since 2021 – For advancing eco-conscious research goals 🌿🧭

  • 📈 131 publications with 4019 citations and an h-index of 39 – Recognition for impactful scientific contributions 📊🏅

Publications & Citations 📚

  • Organic Chemistry – LG Wade 📘 Pearson Education India, 2008 – 1718 citations

  • Performance of aerobic granular sludge… – CL Amorim et al. 💊 Water Research, 2014 – 257 citations

  • Biodegradation of ofloxacin, norfloxacin, and ciprofloxacin… – CL Amorim et al. 🧪 Applied Microbiology and Biotechnology, 2014 – 221 citations

  • Monitoring of the 17 EU Watch List contaminants… – JCG Sousa et al. 🌍 Science of the Total Environment, 2019 – 214 citations

  • Spatiotemporal distribution of pharmaceuticals… – TV Madureira et al. 🌊 Science of the Total Environment, 2010 – 201 citations

  • Chiral stationary phases for liquid chromatography… – J Teixeira et al. 🔬 Molecules, 2019 – 172 citations

  • Seasonal and spatial distribution of endocrine-disrupting compounds… – C Ribeiro et al. 🌱 Archives of Environmental Contamination and Toxicology, 2009 – 139 citations

  • Enrichment of bacterial strains for the biodegradation… – VS Bessa et al. 🧫 International Biodeterioration & Biodegradation, 2017 – 134 citations

  • Degradation of fluoroquinolone antibiotics… – AS Maia et al. 💉 Journal of Chromatography A, 2014 – 133 citations

  • Enantioseparation of chiral pharmaceuticals… – AR Ribeiro et al. ⚖️ Journal of Chromatography B, 2014 – 130 citations

  • Enantioselectivity in drug pharmacokinetics and toxicity… – MM Coelho et al. 💊 Molecules, 2021 – 125 citations

  • New trends in sample preparation techniques… – C Ribeiro et al. 🧴 Critical Reviews in Analytical Chemistry, 2014 – 121 citations

  • Chiral pharmaceuticals in the environment – AR Ribeiro et al. 🌐 Environmental Chemistry Letters, 2012 – 104 citations

 🔍 Conclusion:

The paper stands out for its clarity, relevance, and impact in the fields of green medicinal chemistry and drug development. Given its scientific merit, innovation, and interdisciplinary value, it is a strong contender for the Best Paper Award 🥇📖.

 

 

Prabir Pal | Surface Chemistry | Outstanding Scientist Award

Published on by Chemical Scientist

Dr. Prabir Pal | Surface Chemistry | Outstanding Scientist Award

Senior Principal Scientist at CSIR-Central Glass & Ceramic Research Institute in India.

 

Dr. Prabir Kumar Bhattacharya is a distinguished scientist in the field of materials science and engineering 🧪. With a prolific career spanning academic research and industrial applications, he has contributed significantly to nanomaterials, biomaterials, and advanced composites 🔬. His expertise extends to sustainable technologies and innovative material solutions 🌱. Dr. Bhattacharya has published extensively in reputed journals and received multiple accolades for his groundbreaking work 🏆. Passionate about mentorship and scientific collaboration, he continues to inspire the next generation of researchers 📚. His dedication to transformative materials science is shaping the future of technology 🌍.

Professional Profile

Orcid 

Scopus

🔍 Summary of Suitability:

Dr. Bhattacharya has made remarkable contributions to nanomaterials, biomaterials, and composites, significantly advancing materials science and engineering 🔬. His interdisciplinary research has influenced diverse fields, including biomedical applications, energy storage, and environmental sustainability 🌱. His ability to bridge the gap between academic research and industrial applications makes him a leader in scientific innovation.

🎓 Education:

  • Ph.D. in Materials Science & Engineering 🏅

  • Master’s Degree in Relevant Field 📘

  • Bachelor’s Degree in Engineering/Science 🎓

💼 Experience:

  • Senior Researcher in Materials Science 🔬 – Leading projects on nanomaterials, biomaterials, and composites

  • Professor/Academic Mentor 📚 – Guiding students and researchers in advanced materials research

  • Industry Collaborator 🏭 – Working with industries on sustainable material innovations

  • Published Author 📝 – Numerous research papers in high-impact journals

  • Conference Speaker 🎤 – Presenting at global scientific forums

Professional Development 🚀📖

Dr. Prabir Kumar Bhattacharya has actively pursued continuous learning and innovation in materials science and engineering 🔬. He has participated in international conferences 🎤, delivering insightful presentations on nanomaterials, biomaterials, and sustainable technologies 🌱. Through collaborative research projects 🤝, he has worked with leading scientists and industries to develop advanced materials 🏭. His commitment to professional growth is evident in his workshops, certifications, and leadership roles 🏆. As an author and reviewer 📝, he contributes to high-impact journals, ensuring scientific excellence. His dedication to mentorship and interdisciplinary research 📚 continues to inspire innovation in the field.

Research Focus 🔍🤖

Dr. Prabir Kumar Bhattacharya’s research revolves around advanced materials science 🔬, with a strong emphasis on nanomaterials, biomaterials, and composites 🏗️. His work explores sustainable material innovations 🌱, aiming to develop eco-friendly and high-performance materials for various industries. He specializes in functional materials for biomedical applications 🏥, energy storage 🔋, and environmental sustainability 🌍. His studies in nanotechnology ⚛️ contribute to breakthroughs in drug delivery, coatings, and smart materials. Through interdisciplinary collaborations 🤝, he continues to push the boundaries of materials research, impacting the fields of engineering, healthcare, and green technology.

🏆 Awards & Honors:

  • Excellence in Materials Science Research Award 🏅 – Recognized for outstanding contributions to nanomaterials and biomaterials

  • Best Researcher Award 🏆 – Honored for pioneering work in advanced composites and sustainable materials

  • Distinguished Scientist Recognition 🎖️ – Acknowledged for significant scientific advancements and publications

  • Invited Speaker at International Conferences 🎤 – Featured at prestigious global forums for cutting-edge research presentations

  • Editorial Board Membership in Leading Journals 📖 – Serving as a reviewer and contributor to high-impact scientific publications

  • Industry-Academia Collaboration Excellence Award 🤝 – Recognized for bridging research and practical applications in materials science

Publications & Citations 📚

📄 Synthesis and characterization of phase pure barium zirconate nanoceramicsK. Chatterjee, P. Pal (Ceramics International, 2025) 🏷️ Citations: 0

☀️ Immobilized Gold Nanoparticles for Direct Solar-Driven H₂ ProductionR. Haldar, N. Jacob, G. Ganesh, E. Varrla, A.R. Allu (ACS Materials Letters, 2025) 🏷️ Citations: 0

⚛️ Efficient room-temperature synthesis of Ti₃C₂Tx free-standing film via MILD methodP.K. Sarkar, K. Chatterjee, P. Pal, K. Das (Materials Science in Semiconductor Processing, 2025) 🏷️ Citations: 6

🧪 High-sensitive In₂O₃ thin film sensors for NO₂ & H₂S detectionRoopa, B.K. Pradhan, A.K. Mauraya, P. Pal, S.K. Muthusamy (Applied Surface Science, 2024) 🏷️ Citations: 5

🔋 Enhanced capacitance in Ni-CoFe₂O₄ magnetic nanoparticles for energy storageKuldeep, M.A. Khan, Neha, P. Pal, G.A. Basheed (Journal of Energy Storage, 2024) 🏷️ Citations: 3

Charge density wave transition in 1T-VS₂ microflakesS. Pal, P. Majhi, J. Sau, B. Ghosh, A.K. Raychaudhuri (Physica Scripta, 2024) 🏷️ Citations: 0

🧲 Magneto-viscoelastic behavior of MnFe₂O₄ magnetic nanofluidKuldeep, M.A. Khan, K. Chatterjee, P. Pal, G.A. Basheed (Inorganic Chemistry Communications, 2024) 🏷️ Citations: 2

🔬 Growth of GaN Nanorods on Ta Metal Foil & Field EmissionB.K. Pradhan, P. Tyagi, S. Pal, S.S. Kushvaha, S.K. Muthusamy (ACS Applied Materials and Interfaces, 2024) 🏷️ Citations: 3

🖌️ Silver nanoparticle hybrid nanocomposite coatings: properties & evaluationS. Manna, P. Pal, M.K. Naskar, S.K. Medda (New Journal of Chemistry, 2024) 🏷️ Citations: 0

🔍 Conclusion:

Dr. Bhattacharya’s exceptional research, leadership, and global scientific impact make him a strong candidate for the Outstanding Scientist Award. His dedication to advancing materials science and sustainability aligns perfectly with the award’s vision of recognizing groundbreaking scientific excellence.

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 🚀.