Ahmed Sobhy Darwish | Analytical Chemistry | Best Researcher Award

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Dr. Ahmed Sobhy Darwish | Analytical Chemistry | Best Researcher Award

PhD student at Zagazig University, Egypt

Ahmed Sobhy Abdelrahim Abdallah Darwish is an accomplished analytical chemist and Laboratories Development Deputy Manager at Egyptian International Pharmaceutical Industries (EIPICO), also affiliated with Zagazig University. He holds a B.Sc. in Chemistry‑Physics, a diploma (Analytical Chemistry, excellent), pre-master, and a Master’s degree, all from Zagazig University. Currently pursuing a Ph.D. He began his career in QC laboratories at Delta Pharma, then progressed through section head roles at Grand Pharma, Averroes, Al‑Debeiky, and Copad Pharma. He leads a team of ten at EIPICO, overseeing method development, stress stability studies, and comparative in vitro investigations. He actively contributes to regulatory harmonization by engaging with USP, BP, SFDA, and other pharmacopoeias. A Best Researcher Award recipient, he has submitted case studies to BP and participated in USP pilot programs. He also serves as a peer reviewer for international journals.

Professional Profile

Google Scholar | ORCID

Education

Ahmed Sobhy Darwish’s academic background showcases a steady commitment to excellence in analytical chemistry. He began his studies with a Bachelor’s degree in Chemistry‑Physics from Zagazig University, graduating with high distinction. He further pursued a diploma in Analytical Chemistry with top honors, followed by a pre‑master qualification marked by outstanding academic achievement. His educational journey culminated in a Master’s degree in Analytical Chemistry, and he is currently engaged in doctoral studies in the same field. His English proficiency is evidenced by a TOEFL score that surpasses common requirements for doctoral programs. This well-structured academic progression illustrates his deepening expertise, strong theoretical foundation, and dedication to advanced analytical techniques.

Professional Experience

Ahmed Sobhy Darwish has built an extensive career in pharmaceutical quality control and analytical method development. He began with a foundational role as a quality control chemist, where he developed essential technical skills. He progressed through leadership roles in various pharmaceutical companies, overseeing stability studies and analytical methodology. His responsibilities included managing laboratory operations, validating stability-indicating methods, and leading teams in analytical research. Currently, he holds a senior position where he directs lab development initiatives, supervises a professional team, and leads innovative projects such as stress stability testing and in vitro comparative studies. He also liaises with pharmacopoeial bodies, reflecting his authority in aligning practices with regulatory standards. His career demonstrates a trajectory of growing leadership, technical depth, and strategic contribution to pharmaceutical innovation.

Research Focus

Dr. Darwish’s research centers on developing eco-friendly, stability-indicating HPLC and liquid chromatography methods for pharmaceutical analysis. His work prioritizes environmental sustainability while ensuring robustness and regulatory compliance. Key areas include quantifying drugs such as piracetam, vincamine, levomenol, netilmicin, colchicine, khellin, valsartan, sacubitril, simvastatin, and fenofibrate in bulk and finished dosage forms. He emphasizes certified reference materials, green solvent systems, and minimal waste generation. By submitting two eco-analytical case studies to the British Pharmacopoeia sustainability guidance, he directly impacts regulatory practice. Participation in the USP Quality Assist Beta Pilot Program and BP Beta Site studies further reinforces his focus on method validation in real-world settings. His research bridges analytical precision with environmental responsibility, positioning him at the forefront of sustainable pharmaceutical quality control.

Publication Top Notes

“A Simple Eco‑Friendly Stability‑Indicating HPLC Method for Determination of NETILMICIN in Bulk and Ophthalmic Solution”, Biomedical Chromatography (August 2025), DOI: 10.1002/bmc.70152.
A validated HPLC approach using green solvents to quantify netilmicin in bulk and ophthalmic solutions, offering reduced environmental impact while maintaining assay accuracy.

“Environmental sustainability profiles assessment of HPLC stability indicating method for quantitation of piracetam and vincamine in pharmaceutical medications”, Talanta Open (August 2025), DOI: 10.1016/j.talo.2025.100407.
Evaluates environmental metrics (e.g., solvent consumption, waste) for HPLC methods analyzing piracetam and vincamine, demonstrating greener alternatives without sacrificing sensitivity.

“Developing a sensitive, ecological, and economic HPLC method for the concurrent quantification of KOLCHICINE and KHELLIN”, Microchemical Journal (July 30, 2025), DOI: 10.1016/j.microc.2025.114716.
Introduces a dual-analyte HPLC method for colchicine and khellin in bulk and sachets, optimized for sensitivity and cost-effectiveness using eco-friendly solvents.

“Simple validated approach to quantify valsartan and sacubitril in medications using liquid chromatography”, Bulletin of Faculty of Science, Zagazig University (July 1, 2025).
Presents a streamlined LC protocol for simultaneous determination of valsartan and sacubitril, validated for pharmaceutical formulations with robust linearity and accuracy.

“DEVELOPMENT AND VALIDATION OF STABILITY INDICATING RP‑HPLC METHOD FOR SIMULTANEOUS DETERMINATION OF SIMVASTATIN AND FENOFIBRATE IN BULK AND DOSAGE FORM”, Bulletin of Faculty of Science, Zagazig University (July 1, 2025).
Reports a reversed‑phase HPLC technique validated for concurrent analysis of simvastatin and fenofibrate, incorporating stress degradation studies to ensure specificity.

“An ecologically sound HPLC determination of LEVOMENOL in topical therapies using a certified reference material with green properties”, Results in Chemistry (May 8, 2025).
Describes a certified‑reference based HPLC method for levomenol quantification in topical products, optimizing green solvent usage while achieving regulatory-grade precision.

Conclusion

Dr. Darwish’s deep integration of sustainability, innovation, and leadership in pharmaceutical analytics makes him an exceptional nominee for the Best Researcher Award. His profile aligns well with the award’s objectives of recognizing impactful, regulatory-aligned, and environmentally responsible scientific contributions.

Raouf Hassan | Environmental Engineering | Best Academic Researcher Award

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Assoc. Prof. Dr. Raouf Hassan | Environmental Engineering | Best Academic Researcher Award 

Associate professor at Imam Mohammad Ibn Saud Islamic University ,Saudi Arabia

Dr. Raouf Ahmed Mohamed Hassan is an Associate Professor of Civil and at Imam Mohammad Ibn Saud Islamic University in Riyadh, Saudi Arabia. With a Ph.D. from Nantes University, France, he specializes in environmental engineering, particularly wastewater treatment, greywater recycling, and sustainable waste management. He began his academic journey in Egypt, earning his B.Sc. from South Valley University, and later pursued advanced studies in France. Dr. Hassan has contributed significantly to academia through his teaching, supervision of numerous undergraduate projects, and active participation in international conferences. His research integrates environmental sustainability with modern engineering solutions, using both experimental and AI-based methodologies. A recognized figure in his field, he has received several university awards for scientific publications and served as a reviewer for top-tier international journals. Multilingual and globally engaged, Dr. Hassan continues to promote eco-friendly solutions for water and waste challenges in arid and urban environments.

👨‍🔬 Professional Profile

✅ Strengths for the Award

  1. Robust Academic Foundation

    • Trained in both Egypt and France, Dr. Hassan brings an international academic background rooted in civil and environmental engineering.

    • His Ph.D. from Nantes University under a renowned lab (GEPEA) gives added credibility to his scientific formation.

  2. High-Impact Research Contributions

    • Over 40 peer-reviewed publications, many in reputable journals like Scientific Reports and Desalination and Water Treatment.

    • Research integrates AI, machine learning, and experimental design, showcasing innovation in predictive environmental modeling.

  3. Award-Winning Excellence

    • Multiple University Awards for Scientific Publications (both in Egypt and Saudi Arabia).

    • Recipient of Best Article Award (2024)—a recognition of the novelty and utility of his work.

  4. Applied Focus on Sustainable Solutions

    • Projects on greywater reuse, biochar-based CO₂ adsorption, and zero-liquid discharge show real-world applicability.

    • Research supports environmental sustainability in urban and arid zones, an urgent global priority.

  5. Academic Leadership and Teaching

    • 20+ years of academic service across leading institutions.

    • Extensive teaching in environmental impact assessment, wastewater engineering, and sustainability.

    • Mentored numerous student projects, showcasing commitment to future generations of engineers.

  6. Global Perspective

    • Multilingual (Arabic, English, French), internationally educated and active in collaborative research.

    • Participates in European research networks and funded projects, widening his scholarly impact.

🎓 Education

Dr. Raouf Hassan earned his B.Sc. in Civil Engineering from South Valley University, Egypt, where he developed a strong foundation in infrastructure and environmental systems. He pursued his M.Sc. and Ph.D. at Nantes University, France, specializing under the GEPEA Laboratory. His academic training in France equipped him with advanced knowledge in wastewater treatment technologies, anaerobic digestion, and gas-liquid mass transfer. During his postgraduate studies, Dr. Hassan was involved in European collaborative projects focused on sludge valorization and sustainable energy. His education provided interdisciplinary exposure to both engineering principles and practical environmental applications. Additionally, he has completed several professional development courses covering scientific research methodologies, teaching strategies, academic ethics, and educational technologies. Fluent in Arabic, English, and French, Dr. Hassan’s educational journey reflects a blend of local insight and international expertise, empowering him to address environmental challenges in both developing and developed contexts through innovative civil engineering solutions.

🧑‍🏫 Experience

Dr. Raouf Hassan has over two decades of academic and research experience in civil and environmental engineering. He currently serves as Associate Professor at Imam Mohammad Ibn Saud Islamic University, Saudi Arabia, a position he has held since 2025 after serving as Assistant Professor there since 2017. Earlier, he worked as a faculty member and department head at Aswan University and the Arab Academy for Science, Technology & Maritime Transport in Egypt. His teaching portfolio includes undergraduate and postgraduate courses such as water and wastewater treatment, environmental impact assessment, and hydraulic systems. Dr. Hassan has supervised numerous student projects addressing urban water infrastructure, air pollution, and waste management in Saudi Arabia and Egypt. Beyond teaching, he has led and participated in several research projects funded by the Saudi Ministry of Education. His experience also spans administrative leadership, curriculum development, and student advising, making him a vital contributor to engineering education and environmental innovation.

🏅 Awards and Honors

Dr. Raouf Hassan has received multiple accolades in recognition of his research excellence and academic contributions. He has been awarded the University Award for Scientific Publication by Aswan University for four consecutive years (2019–2022) and received the same recognition from Imam Mohammad Ibn Saud Islamic University in 2021 and 2022. In 2024, he was honored with the Best Article Award by the Desalination and Water Treatment journal, highlighting his impactful contributions to sustainable water management. He also held a postdoctoral fellowship in 2013 at Nantes University, supported by the Egyptian Ministry of Higher Education. In addition to these achievements, Dr. Hassan is a senior member of APCBEES and an active reviewer for prominent international journals and conferences in environmental engineering. His consistent recognition reflects both the quality and relevance of his research, which spans water treatment, greywater reuse, and waste-to-energy systems across regional and international contexts.

🔬 Research Focus on Environmental Engineering

Dr. Raouf Hassan’s research is centered on sustainable environmental engineering, particularly focusing on wastewater treatment, anaerobic digestion, sludge valorization, and solid waste management. He integrates conventional and advanced techniques such as biogas production, membrane filtration, and eco-friendly materials to address water and waste challenges in urban and arid environments. His recent projects have explored sustainable greywater management in mosques, techno-economic assessments of water purification systems, and AI-based models for predicting environmental parameters. Dr. Hassan is also deeply involved in developing zero-liquid discharge systems and reusing agricultural residues for water filtration. With over 40 peer-reviewed publications and participation in global research initiatives, his work blends experimental rigor with practical application, often involving interdisciplinary collaboration. His research is funded by major bodies like the Deanship for Research & Innovation and the Ministry of Education in Saudi Arabia. Dr. Hassan’s scientific endeavors aim to create resource-efficient, climate-resilient, and cost-effective environmental solutions for future-ready cities.

📚 Publication Top Notes

Predicting CO₂ adsorption in KOH-activated biochar using advanced machine learning techniques

Journal: Scientific Reports, 2025
Authors: [Author names not provided]
Summary:
This study develops advanced machine learning models to predict the CO₂ adsorption capacity of KOH-activated biochar. The researchers utilized various algorithms to analyze experimental data, enabling precise modeling of adsorption behavior. The results reveal key parameters influencing performance and demonstrate that machine learning can significantly enhance the accuracy and speed of material screening for carbon capture technologies.

Machine learning frameworks to accurately estimate the adsorption of organic materials onto resin and biochar

Journal: Scientific Reports, 2025
Authors: [Author names not provided]
Summary:
This research investigates the use of machine learning techniques to estimate the adsorption of organic compounds onto resin and biochar materials. The study employs several regression models trained on experimental data to predict adsorption efficiency. Findings show that machine learning offers a reliable and efficient alternative to traditional methods in evaluating adsorbent materials for applications in environmental remediation and water purification.

🧾 Conclusion

In conclusion, Dr. Raouf Ahmed Mohamed Hassan stands out as a distinguished scholar and practitioner in the realm of civil and environmental engineering. His academic qualifications, international training, and extensive teaching experience position him as a leader in both educational and research domains. His multidisciplinary approach bridges environmental sustainability with engineering innovation, addressing pressing issues such as wastewater treatment, solid waste management, and air quality assessment. Recognized with multiple university-level awards and international journal accolades, Dr. Hassan continues to contribute meaningfully to science and society. His dedication to student mentorship, administrative service, and global collaboration reflects his commitment to holistic academic excellence. Through his research, he not only addresses critical environmental challenges but also provides scalable, real-world solutions tailored to urban and arid environments. As the world grapples with climate change and resource scarcity, Dr. Hassan’s vision, expertise, and innovative thinking offer valuable pathways toward sustainable development and environmental resilience.

Jinxiang Li | Nanotechnology | Best Researcher Award

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Assoc. Prof. Dr. Jinxiang Li | Nanotechnology | Best Researcher Award

Associate Professor, Nanjing University of Science and Technology, China

Dr. Jinxiang Li is an accomplished Associate Professor at the School of Environmental and Biological Engineering, Nanjing University of Science and Technology, China. With a strong foundation in municipal engineering and environmental science, Dr. Li has been advancing cutting-edge research in nanotechnology applications for environmental remediation. His expertise lies in enhancing the performance of zero-valent iron (ZVI) for the selective and reactive removal of metalloids, particularly through magnetic field coupling and reactive species manipulation. He earned his Ph.D. in Municipal Engineering from Tongji University in 2016, following his Master’s and Bachelor’s degrees from Shandong Jianzhu University. Dr. Li’s postdoctoral work at Tongji University further solidified his innovative approaches in contaminant sequestration. He has published impactful articles in top-tier journals, contributed to interdisciplinary research, and remains at the forefront of sustainable engineering. His research continues to shape modern strategies for groundwater treatment using nanomaterials and reactive interfaces.

Professional Profile

Scopus Profile

🎓 Education

Dr. Jinxiang Li’s academic journey reflects a strong interdisciplinary foundation in engineering and environmental sciences. He earned his Bachelor’s degree in Water Supply and Drainage in 2010 from Shandong Jianzhu University, followed by a Master’s degree in Municipal Engineering in 2013 from the same institution. Building upon this, Dr. Li pursued his Ph.D. in Municipal Engineering from Tongji University, graduating in 2016. His doctoral studies focused on the application of engineered materials in municipal and environmental systems. From 2017 to 2019, he conducted postdoctoral research in Environmental Science at Tongji University, where he advanced studies on reactive materials for pollutant removal. In 2019, Dr. Li joined Nanjing University of Science and Technology as an Associate Professor, where he has continued his academic and research contributions. His educational path highlights a seamless integration of civil, environmental, and materials engineering with a specialization in nanotechnology-enhanced remediation techniques.

💼 Experience

Dr. Jinxiang Li has built a robust professional trajectory in academia and research since earning his Ph.D. His current role as an Associate Professor at the School of Environmental and Biological Engineering, Nanjing University of Science and Technology (2019–present), places him at the nexus of environmental remediation and nanomaterials development. Prior to this, Dr. Li completed a Postdoctoral Fellowship in Environmental Science at Tongji University (2017–2019), where he conducted high-impact research on zero-valent iron and its enhanced reactivity in environmental applications. His early career was shaped by his doctoral and master’s research in municipal engineering, giving him critical insights into applied environmental systems. Dr. Li has led and participated in several national and institutional research projects, focusing on pollution control, groundwater treatment, and nano-iron modifications. With a strong record of mentoring graduate students and publishing in renowned journals, his experience spans fundamental science and applied engineering.

🏆 Awards and Honors

Dr. Jinxiang Li’s innovative contributions to environmental nanotechnology have been recognized through numerous honors. He has been a recipient of research project funding from provincial and national science foundations in China, including support from environmental remediation-focused programs. His articles published in journals such as the Journal of Hazardous Materials and Environmental Research have received commendable citations, reflecting their impact in academia and environmental engineering practice. As a rising researcher in advanced materials, Dr. Li has also been invited to present at national conferences on zero-valent iron reactivity and metalloid sequestration techniques. Though a detailed list of formal honors is not fully disclosed here, his role as a principal investigator on multiple funded projects, peer-review contributions, and regular scholarly publications position him as a promising awardee for international recognitions such as the Nanotechnology Award.

🔍 Research Focus

Dr. Jinxiang Li’s research centers on nanotechnology for environmental remediation, particularly through the modification and application of zero-valent iron (ZVI). His work explores the coupling of reactive iron species to enhance the efficiency, reactivity, and selectivity of ZVI in removing contaminants like selenium and chromium from groundwater. He investigates innovative strategies such as ball milling with Fe₃O₄, application of weak magnetic fields, and green rust coupling with iron nanoparticles. These approaches are designed to boost the electron efficiency and longevity of reactive iron-based materials, making them suitable for scalable water treatment applications. Dr. Li’s interdisciplinary research bridges environmental science, chemistry, and nanotechnology, focusing on reducing ecological toxicity and improving remediation sustainability. His findings contribute to the global movement toward advanced pollutant control technologies, and his work continues to influence both theoretical advancements and practical solutions in the field of nano-enabled environmental engineering.

📚 Publication Top Notes

  1. Reaction mechanism for the enhanced removal of selenite in water by ball-milling of zero-valent iron with Fe₃O₄
    Authors: Jinxiang Li, et al.
    Journal: Huagong Xuebao (Journal of Chemical Industry and Engineering – China), 2025
    Summary: This article investigates how ball-milling ZVI with Fe₃O₄ enhances selenite removal from water. The study reveals improved surface reactivity, enabling faster and more selective contaminant reduction.

  2. Relationships of ternary activities for the enhanced Cr(VI) removal by coupling nanoscale zerovalent iron with sulfidation and carboxymethyl cellulose
    Authors: Jinxiang Li, et al.
    Journal: Environmental Research, 2024
    Summary: This study explores the synergy between sulfidation and polymer stabilization of nZVI, leading to enhanced removal of hexavalent chromium. Ternary interactions were found critical in pollutant binding and electron transfer.

  3. Enhanced Reactivity and Electron Efficiency of Zerovalent Iron with Various Methods (Review Article)
    Authors: Jinxiang Li, et al.
    Summary: A comprehensive review covering advanced modification techniques to improve ZVI’s electron utilization efficiency, including doping, surface treatment, and hybrid material formation.

  4. Regulating the interlayer SO₄²⁻-induced rebound of SeO₄²⁻ in green rust coupled with iron nanoparticles for groundwater remediation
    Authors: Jinxiang Li, et al.
    Journal: Journal of Hazardous Materials, 2024
    Summary: The article delves into the unique rebound effect of selenium oxyanions and how SO₄²⁻ regulation in green rust–Fe systems offers new remediation possibilities.

Conclusion

Dr. Jinxiang Li is a strong candidate for the Best Researcher Award, especially for categories focusing on early- to mid-career researchers in environmental remediation and material-based solutions. His recent contributions are timely, scientifically sound, and aligned with pressing environmental challenges. While further outreach and higher citation metrics would strengthen his profile, the originality and technical excellence of his research make him deserving of recognition.

 

 

 

Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

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Dr. Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

Assistant Professor, Central Institute of Petrochemicals Engineering and Technology, India

Dr. Manish Choudhary is an Assistant Professor in Chemical Engineering at CIPET: IPT Lucknow, with a Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University. He also holds an M.Tech. from IIT Roorkee. Dr. Choudhary’s career is marked by a strong passion for teaching, research, and academic administration. He has published seven papers in SCI & Scopus indexed journals, focusing on topics such as polymer composites, recycling, and biomass thermodynamics. He has delivered invited talks at international conferences and mentors students for higher education and industry collaboration. Dr. Choudhary’s contributions to improving educational programs, such as hybrid classrooms and industry-academic ties, showcase his dedication to fostering student growth and innovation. His recognition spans across various academic and professional milestones, making him a noteworthy figure in the field of chemical engineering and environmental sustainability.

Profile

Education

Dr. Manish Choudhary completed his Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University (2019-2023). He earned his M.Tech. in Chemical Engineering from IIT Roorkee (2010-2012), a prestigious institute known for its excellence in engineering education and research. Prior to that, he obtained his B.Tech. in Chemical Engineering from UPTU (2005-2009). Dr. Choudhary’s academic journey reflects a solid foundation in chemical engineering principles, focusing on sustainable growth and innovative solutions in various sectors, including polymer composites and waste management. His advanced studies have equipped him with the expertise to conduct high-impact research, contribute to educational reforms, and engage in global academic discussions. His education from these esteemed institutions has been instrumental in shaping his career as a researcher and educator dedicated to both academic and professional excellence.

Experience

Dr. Manish Choudhary has accumulated extensive teaching and administrative experience at CIPET: IPT Lucknow. As an Assistant Professor since 2017, he has been instrumental in teaching both undergraduate and postgraduate students, with a focus on Chemical Engineering topics such as Thermodynamics, Heat and Mass Transfer, and Polymer Composites. Dr. Choudhary has played a pivotal role in academic and accreditation work, including NBA, NAAC, and NIRF-related activities. He is also a coordinator for ATAL FDPs and has introduced hybrid classroom learning to adapt to modern educational trends. Furthermore, Dr. Choudhary has been a mentor for student startups like SNOWFLAKE, facilitating innovation and industry collaboration. Previously, he served as a Lecturer (2012-2017), where he contributed to student development, extracurricular activities, and accreditation processes. His leadership has enhanced the overall quality of education and student engagement at CIPET, making him a valuable asset to the institution.

Research Focus

Dr. Manish Choudhary’s research primarily revolves around sustainable technologies, focusing on thermodynamics, biomass recycling, and polymer composites. His work in thermal degradation and kinetics of various biomass materials, such as rice husk and sun hemp, aims to improve waste management processes and environmental sustainability. He has conducted in-depth studies on the modification and characterization of agricultural waste for its use in polymer composites, with a strong emphasis on mechanical, thermal, and morphological properties. Dr. Choudhary also explores eco-friendly solutions for industrial safety and hazard management, contributing to safer manufacturing processes. His publications in SCI & Scopus indexed journals underline his contribution to advancing knowledge in chemical engineering and sustainable development. He is committed to applying his research to practical solutions for waste valorization, recycling, and the development of renewable materials. His future research trajectory is focused on improving sustainability practices and enhancing the circular economy in various industries.

Publication Top Notes

  1. Thermal kinetics and morphological investigation of alkaline treated rice husk biomass 🌾🔥
    Journal of the Indian Chemical Society, 2022

  2. Determination of thermal degradation behavior and kinetics parameters of chemically modified sun hemp biomass 🌿⚗️
    Bioresource Technology, 2023

  3. Impact of various surface modifications on agro waste rice husk and its reinforced polymer composites ♻️🔬
    Materials Today: Proceedings, 2021

  4. Study on mechanical, thermal and morphological properties of RHA filled PVC composite 🏗️🔍
    International Journal of Scientific Engineering and Applied Science, 2015

  5. Thermal and mechanical investigation of chemically treated hybrid biomass epoxy bio-composite: an approach of pyrolysis kinetics 🔬🔥
    Bioresource Technology Reports, 2023

  6. Kinetics modeling & comparative examine on thermal degradation of alkali treated Crotalaria juncea fiber using model fitting method 🔥🧬
    Journal of the Indian Chemical Society, 2023

  7. Sustainable valorization of rice husk: thermal behavior and kinetics after chemical treatments ♻️🌾
    Biomass Conversion and Biorefinery, 2023

  8. Phyto-Pharmacognostical and Hypocholesterolemic Activity of Morus alba L. 🌱🧪
    European Chemical Bulletin, 2023

 

 

 

 

Dr. SERGEY NIKITENKO | Sonochemistry | Chemical Engineering Award

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Dr. SERGEY NIKITENKO | Sonochemistry | Chemical Engineering Award

Director of research, CNRS, France

Sergey I. Nikitenko is a distinguished Director of Research at CNRS and leads the Laboratory of Sonochemistry (LSFC) at the Marcoule Institute for Separation Chemistry (ICSM), France. With a Ph.D. in Chemistry from Moscow State University, he has published over 145 peer-reviewed papers, 4 book chapters, and holds 4 patents. His scientific contributions have focused on sonochemistry, sonoluminescence, nanomaterials, actinide chemistry, and catalysis. Sergey is an editorial board member of leading journals such as Ultrasonics Sonochemistry, Heliyon, Catalysts, and Frontiers of Chemistry. He is also a board member of the European Society of Sonochemistry and has held numerous research positions, securing multiple national and international grants. His work has influenced both academia and industry, particularly in the fields of carbon-free energy and remediation technologies.

Profile

Google Scholar

Orcid

Education

Sergey I. Nikitenko received his Ph.D. in Chemistry from Moscow State University, Russia, where his research laid the foundation for his future groundbreaking work in sonochemistry and materials science. Throughout his academic career, Nikitenko’s research has consistently bridged theoretical chemistry with practical, industrial applications. After completing his Ph.D., he continued his research journey at various institutions before joining the French CNRS in 2005. Nikitenko’s vast experience and passion for scientific advancement have led him to contribute significantly to the development of innovative technologies in the fields of sonochemistry, catalysis, and nanomaterials. He has collaborated extensively with prominent research institutions across Europe and internationally, building a solid reputation as a leading figure in his field. His commitment to advancing scientific knowledge continues to shape the landscape of research in chemistry and materials science today.

Experience

Sergey I. Nikitenko has an extensive career in research and academia, serving as the Director of Research at CNRS and head of the Laboratory of Sonochemistry (LSFC) at ICSM. His expertise spans sonochemistry, actinide chemistry, catalysis, and the development of carbon-free energy technologies. Nikitenko has successfully coordinated and participated in several large-scale research projects, including the ANR-2010-BLAN-0810 NEQSON project, and the PEPR ECOCHEM project, among others. With over 145 peer-reviewed publications and multiple patents, his work focuses on understanding the mechanisms of sonochemical reactions and their applications in various fields, including energy production and environmental remediation. Nikitenko also holds editorial roles in several high-impact journals, helping guide the future of sonochemistry and catalysis research. As a collaborative leader, he has built strong ties with research groups and industry partners, contributing to numerous innovations in his field.

Research Focus

Sergey I. Nikitenko’s research is centered around sonochemistry, sonoluminescence, nanomaterials, and actinide chemistry. He is particularly known for his pioneering work on the mechanisms of sonochemical reactions, employing tools such as sonoluminescence spectroscopy to study cavitation and plasma formation in liquid environments. His research has led to the development of novel methods for the synthesis of functional nanomaterials, including Ti@TiO2 and NiTi@TiO2/Ni nanoparticles, which exhibit strong photothermal activity. Nikitenko’s work in actinide chemistry has also made significant strides, especially with the first-ever synthesis of salt-free nanocolloids of PuO2. His interest in photocatalysis and green hydrogen production further solidifies his position as a leader in sustainable energy research. Additionally, he has been involved in cutting-edge collaborations to advance sonochemical technologies for PFAS remediation and theranostic applications in oncology, positioning his research as both innovative and highly impactful in multiple scientific domains.

Publication Top Notes

  1. Speciation of rare-earth metal complexes in ionic liquids: a multiple-technique approach 🔬
  2. PET/MRI in head and neck cancer: initial experience 🧠
  3. Influence of gamma irradiation on hydrophobic room-temperature ionic liquids [BuMeIm] PF6 and BuMeIm2N 💡
  4. Spectroscopic and Electrochemical Studies of U(IV)−Hexachloro Complexes in Hydrophobic Room-Temperature Ionic Liquids ⚛️
  5. Effect of operational conditions on sonoluminescence and kinetics of H2O2 formation during the sonolysis of water 🌊
  6. Photothermal Hydrogen Production Using Noble-Metal-Free Ti@TiO2 Core–Shell Nanoparticles 🌞
  7. Comparative study of sonochemical reactors with different geometry using thermal and chemical probes 🔬
  8. Acoustic cavitation at the water− glass interface 🌐
  9. Effect of ultrasonic frequency on the mechanism of formic acid sonolysis 🧪
  10. Formation of higher chloride complexes of Np (IV) and Pu (IV) in water-stable room-temperature ionic liquid 💧

 

 

 

Edson Rodrigues-Filho | Environmental sciences | Excellence in Research

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Prof. Edson Rodrigues-Filho | Environmental sciences | Excellence in Research

Prof, Federal University of São Carlos, Brazil

Edson Rodrigues-Filho is a distinguished Professor of Organic Chemistry at the Federal University of São Carlos (UFSCAR) in Brazil, where he has been a faculty member since 1992. Holding a degree in Chemistry from the University of Uberlândia (1986), followed by a Master’s (1989) and Doctorate (1992) in Chemistry from UFSCAR, Rodrigues-Filho also completed a postdoctoral fellowship in Plant Pathology at the University of Minnesota. He is a Productivity Scholar at CNPq and has made significant contributions in the field of natural product chemistry, focusing on microbial biosynthesis, biotransformation, and the synthesis of bioactive molecules. His extensive expertise is recognized through his work with fungal microorganisms, especially in antibiotic and insecticide production.

Profile

Education

Edson Rodrigues-Filho’s academic journey began with a Bachelor’s degree in Chemistry from the University of Uberlândia (1986). He continued at UFSCAR, completing his Master’s (1989) and Doctorate (1992) in Chemistry, specializing in the phytochemical analysis of species from the Simaroubaceae family. His doctoral research was funded by the National Council for Scientific and Technological Development (CNPq), exploring natural compounds with potential anticancer properties. After earning his Ph.D., Rodrigues-Filho enhanced his expertise with a postdoctoral research position at the University of Minnesota, focusing on plant pathology and microbial interactions. Over the years, he has expanded his academic and professional expertise, contributing to the scientific community through both teaching and research in organic chemistry, with a particular emphasis on natural products and microbial chemistry.

Experience

Edson Rodrigues-Filho has dedicated over three decades to academia, primarily at UFSCAR, where he has been a tenured professor since 1992. He has taught a variety of undergraduate and graduate courses in organic chemistry, including subjects such as Organic Chemistry, Analytical Chemistry, and Mass Spectrometry. Throughout his career, he has also held leadership roles within the university, including serving as Vice-Chair of the Chemistry Department and representing his faculty at various academic committees. His extensive research work has focused on the chemical properties of microorganisms, biotransformation processes, and the synthesis of bioactive natural products. Additionally, Rodrigues-Filho has worked on research projects with applications in biotechnology, health, and agriculture, contributing to the development of new antimicrobial agents and biocatalysts. He has also guided numerous graduate students, helping shape the next generation of scientists in his field.

Awards and Honors

Throughout his esteemed career, Edson Rodrigues-Filho has been recognized for his contributions to organic chemistry and natural product research. His work has been supported by prestigious research grants, including funding from the CNPq, Brazil’s National Council for Scientific and Technological Development. He has been a recipient of multiple academic honors, such as research scholarships in various fields related to chemistry and microbial sciences. His postdoctoral research at the University of Minnesota in plant pathology further expanded his international academic stature. Rodrigues-Filho’s impact extends to mentoring students and advancing research in the chemical sciences, which has earned him recognition at both the national and international levels. His involvement in major scientific projects in Brazil has helped advance research on microbial chemistry, biosynthesis, and biotransformation, underscoring his standing as a leading figure in the field of natural products.

Research Focus

Edson Rodrigues-Filho’s research focuses on natural product chemistry, with a particular emphasis on microbial biosynthesis, biotransformation, and the development of bioactive molecules. His work explores how microorganisms, particularly fungi and actinomycetes, produce compounds with potential applications in medicine, agriculture, and biotechnology. Rodrigues-Filho is deeply involved in studying the synthesis of natural products, such as antibiotics and insecticides, from microbial sources. He also investigates the chemical processes involved in the production of biologically active molecules and their subsequent modifications via biotransformation. His research further delves into the application of techniques such as mass spectrometry, chromatography, and nuclear magnetic resonance (NMR) spectroscopy to analyze and understand these complex compounds. Additionally, his interest in designing new synthetic routes for bioactive molecules has made significant contributions to the development of novel pharmaceutical and agricultural chemicals.

Publication Top Notes

  1. Antimicrobial Potential of Soil/Sediment Mangrove Associated Fungi: A Review 📚
  2. Perylenequinones production induced by co-culturing Setophoma sp. and Penicillium brasilianum 🌱
  3. Computational and pharmacological investigation of novel 1,5-diaryl-1,4-pentadien-3-one derivatives for analgesic, antiinflammatory and anticancer potential 💊
  4. Synthesis, characterization, molecular docking, analgesic, antiplatelet, and anticoagulant effects of dibenzylidene ketone derivatives 🧬
  5. Photolysis of parabens using medium-pressure mercury lamps: Toxicity effects in MCF7, Balb/c 3T3 cells and Ceriodaphnia dubia ⚡
  6. Differential metabolism of diastereoisomeric diterpenes by Preussia minima, found as endophytic fungus in Cupressus lusitanica 🌿
  7. Antiplasmodial properties and cytotoxicity of endophytic fungi from symphonia globulifera (Clusiaceae) 🌍
  8. Heterogeneous microtubules of self-assembled silver and gold nanoparticles using alive biotemplates ⚙️
  9. Nanostructured assemblies of gold and silver nanoparticles for plasmon enhanced spectroscopy using living biotemplates 💎
  10. Biosynthesis and mass spectral fragmentation pathways of 13C and 15N labeled cytochalasin D produced by Xylaria arbuscula 🔬

 

Md. Jahidul Islam | Chemistry Awards | Best Researcher Award

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Dr Md. Jahidul Islam | Chemistry Awards | Best Researcher Award

Assistant professor, IUBAT – International University of Business Agriculture and Technology, Bangladesh

Dr. Md. Jahidul Islam is an accomplished chemist and educator with a robust background in scientific research and teaching. He has dedicated his career to advancing knowledge in chemistry and materials science. Dr. Islam earned his PhD from Hokkaido University, Japan, through the prestigious MEXT scholarship. He is currently an Assistant Professor at IUBAT – International University of Business Agriculture and Technology, where he imparts knowledge to students across various engineering disciplines. With a passion for research, he has contributed significantly to the field of photonics and material synthesis, earning multiple citations for his work. His vision is to further enhance academic and research initiatives, bridging the gap between theoretical knowledge and practical applications.

Profile

Google Scholar

Strengths for the Award

  1. Academic Credentials:
    • Dr. Islam holds a PhD from Hokkaido University, Japan, a reputable institution, and has a solid academic background in Chemistry with both MSc and BSc from the University of Dhaka.
  2. Diverse Research Experience:
    • His research history includes roles as a Postdoc Researcher and Fellow at prominent institutions in Japan and Bangladesh, showcasing a strong commitment to advancing his field.
  3. Significant Contributions to Research:
    • Dr. Islam has published numerous papers in high-impact journals, demonstrating his active engagement in cutting-edge research. Notably, his work on perovskites and lanthanides has been recognized and cited multiple times, indicating the relevance and impact of his research.
  4. Expertise in Various Scientific Techniques:
    • His proficiency in techniques like NMR, XRD, and laser trapping is indicative of his advanced skill set in materials science and photonics, making him a valuable asset in these areas.
  5. Teaching Experience:
    • His experience as an assistant professor and part-time faculty member shows his ability to impart knowledge and mentor students, further contributing to the academic community.
  6. Interdisciplinary Collaboration:
    • The variety of institutions and roles he has engaged with highlights his ability to collaborate across disciplines, an essential trait for a researcher in today’s interconnected scientific landscape.

Areas for Improvement

  1. Broader Impact on Community:
    • While Dr. Islam has made significant academic contributions, increasing his engagement in community outreach or public understanding of science could enhance his profile.
  2. Grant Writing and Funding Acquisition:
    • Developing skills in securing research funding through grants can further bolster his research capabilities and allow for larger-scale projects.
  3. Networking and Collaborations:
    • Actively seeking interdisciplinary collaborations and participating in international conferences could help expand his professional network and foster new research opportunities.

Education 

Dr. Jahidul Islam holds a PhD in Chemistry from Hokkaido University, Japan (2019), obtained through the MEXT scholarship, which emphasizes his strong academic credentials. He earned his MSc in Chemistry from the University of Dhaka in 2012, achieving First Class Second with a score of 71%. He completed his BSc in Chemistry from the same university in 2010, securing First Class honors with 61%. Prior to his higher education, Dr. Islam excelled in his secondary education, achieving a CGPA of 4.0/5 in HSC (2003) and 4.25/5 in SSC (2001), both from the Dhaka Board. His solid academic foundation underpins his research and teaching, equipping him with the skills needed to excel in the dynamic field of chemistry and materials science.

Experience 

Dr. Md. Jahidul Islam has a diverse professional background in academia and research. He began his career as a Lecturer at Bangladesh International School and College in 2012, where he taught chemistry to high school students. Following this, he worked as an Assistant Chemist at DAPFCL, contributing to industrial chemical processes from 2013 to 2016. Dr. Islam then pursued postdoctoral research at ICReDD, Hokkaido University, before returning to Bangladesh as a Postdoc Fellow at BCSIR. He has also served as a part-time faculty member at Ahsanullah University of Science and Technology and as a research consultant at Bangladesh Forest Research Institute. Currently, he is an Assistant Professor at IUBAT, where he teaches various chemistry courses and mentors students. His extensive teaching and research experience positions him as a key contributor to the academic community and the field of chemistry.

Research Focus 

Dr. Md. Jahidul Islam’s research primarily focuses on the synthesis and characterization of organic and inorganic materials, with particular emphasis on photonics and luminescent materials. His work involves the preparation of photo-luminescent perovskites and lanthanide complexes, exploring their applications in optoelectronics and light-emitting devices. He employs advanced techniques such as NMR, XRD, and laser trapping to manipulate nanostructures and single crystals, enhancing their photophysical properties. His research also delves into circularly polarized luminescence and the development of innovative materials for security devices and photonic applications. Dr. Islam’s interdisciplinary approach combines principles of chemistry, physics, and engineering, aiming to bridge the gap between fundamental research and practical applications. His contributions are poised to advance the field of materials science and foster technological innovations in photonics.

Publication Top Notes

  • Chiral lanthanide lumino-glass for a circularly polarized light security device 🌈🔒
  • Crystallization of methylammonium lead halide perovskites by optical trapping 🔍🌌
  • Remote tuning of bandgap and emission of lead perovskites by spatially controlled halide exchange reactions 🎨🔄
  • Mixed-halide perovskite synthesis by chemical reaction and crystal nucleation under an optical potential ⚗️✨
  • Strong circularly polarized luminescence of mixed lanthanide coordination polymers with control of 4f electronic structures 🔬🔗
  • Threshold Bandgap of Lead Halide Hybrid Perovskites for Making Stable Single Crystal by NIR Laser Trapping 🔆🔎
  • Analysis of the properties of ZnO nanoparticle for emerging applications in nanoscale domains 📊⚛️
  • Hybrid EuIII Coordination Luminophore Standing on Two Legs on Silica Nanoparticles for Enhanced Luminescence 🧪💡
  • Global advances and smart innovations in supramolecular polymers 🌍🔗
  • Optical maneuvering of photofunctioning hybrid perovskite for future photonics potential application 🔮💻
  • Spatio-temporally-controlled synthesis of lead halide perovskite crystals by laser trapping 🎯💎
  • Spatially-and temporally-controlled synthesis and modification of lead halide perovskites by laser trapping ⏱️💡
  • Trapping Light, Revealing Properties: Laser Trapping as a Powerful Tool for Photoluminescence Spectroscopy 🔦📚
  • Structure-changeable luminescent Eu(III) complex as a human cancer grade probing system for brain tumor diagnosis 🧬🩺
  • Water Dispersible Colloidal Metal and Metal Oxide Nanoparticles Synthesis for Agarwood Inoculation: A Review 🌊🌱

Conclusion

Dr. Md. Jahidul Islam is highly deserving of the Best Researcher Award due to his strong academic background, extensive research contributions, and proven teaching capabilities. His work has not only advanced the field of Chemistry but also contributed to significant scientific discussions in materials science and photonics. By addressing areas such as community engagement and grant writing, he could further enhance his impact as a researcher. Overall, Dr. Islam exemplifies the qualities of an outstanding researcher and is a commendable candidate for this recognition.

 

 

Timothy Amangdam Anemana | Environmental Chemistry | Best Researcher Award

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Dr Timothy Amangdam Anemana | Environmental Chemistry | Best Researcher Award

Dr Timothy Amangdam Anemana, Council for Scientific and Industrial Research, Soil Research Institute, Ghana

Dr. Timothy Amangdam Anemana is an accomplished Environmental Chemist with a deep passion for soil and water remediation. Holding a Ph.D. in Environmental Science from Eötvös Loránd University, Hungary, he specializes in reducing arsenate and inorganic chromium mobility in soils. With a strong academic foundation and extensive experience in research and environmental consulting, Dr. Anemana has contributed significantly to the fields of biochar production, environmental risk assessment, and soil nutrient mapping. Currently serving as a Research Scientist at the CSIR-Soil Research Institute in Ghana, he leads projects aimed at developing sustainable agricultural practices and environmental conservation methods. Dr. Anemana is known for his dedication to advancing environmental science through innovative research, technical expertise, and community engagement.

Publication Profile

Google Scholar

Strengths for the Award

  • Extensive Research Background: Dr. Anemana holds a Ph.D. in Environmental Science, with a focus on Environmental Chemistry. His research spans critical areas such as soil remediation, biochar production, and environmental impact assessments. This demonstrates a solid foundation in both theoretical and applied environmental research.
  • Diverse Employment Experience: His roles as a Research Scientist, Environmental Chemist, and Ph.D. Research Fellow have equipped him with a broad skill set, including laboratory management, fieldwork, and the application of modern analytical techniques (e.g., ICP-MS, FTIR, LC-MS). His experience with the CSIR-Soil Research Institute and the Environmental Protection Agency in Ghana underlines his practical contributions to both academia and industry.
  • Publications and Academic Contributions: Dr. Anemana has published research in reputable journals, showcasing his ability to contribute original research to the scientific community. His work on biochar and soil nutrient mapping highlights his expertise in sustainable agricultural practices.
  • Mentorship and Teaching: His role as a lecturer and supervisor at the CSIR College of Science and Technology demonstrates his commitment to education and mentorship, further contributing to his suitability for the award.

Areas for Improvement

  • Broader Impact of Research: While Dr. Anemana’s research is highly specialized, expanding the application and impact of his findings to address global environmental challenges could enhance his profile. A stronger emphasis on how his work influences policy, industry standards, or large-scale environmental solutions could be beneficial.
  • Increased Publication and Citation: Although he has published several papers, increasing the volume of high-impact publications and ensuring they are widely cited would strengthen his candidacy. Collaborations with international researchers could also broaden the scope and impact of his research.
  • Leadership in Large-Scale Projects: Taking on leadership roles in larger, multidisciplinary research projects could further demonstrate his ability to lead and innovate in the environmental sciences.

Education 

Dr. Timothy Amangdam Anemana has a diverse and rigorous academic background that laid the foundation for his expertise in Environmental Chemistry. He earned his Ph.D. in Environmental Science (with a major in Environmental Chemistry) from Eötvös Loránd University, Budapest, Hungary, in 2020, where he conducted groundbreaking research on reducing arsenate and inorganic trivalent chromium mobility in soils. Prior to this, he obtained an MSc. in Chemistry (Environmental Chemistry major) from Patrice Lumumba Peoples’ Friendship University of Russia in 2013, focusing on the complex formation of azo derivatives with metal salts. He also holds a Diploma in Education from the University of Education, Winneba-Kumasi, and an Advanced Certificate in Energy Policy and Planning from Kwame Nkrumah University of Science and Technology. His academic journey began with a BSc. in Agriculture Technology from the University for Development Studies, Tamale, Ghana, where he investigated water and land use quality assessment.

Experience 

Dr. Timothy Amangdam Anemana has a rich professional history in environmental research, consulting, and education. He currently serves as a Research Scientist at the CSIR-Soil Research Institute in Ghana, where he is involved in cutting-edge projects on soil nutrient mapping, biochar production, and environmental risk assessments. His previous role as an Environmental Chemist at the Environmental Protection Agency, Ghana, honed his skills in environmental impact assessments, biochar application for remediation, and air quality monitoring. Dr. Anemana’s experience also includes a Ph.D. Research Fellowship at Eötvös Loránd University, Hungary, where he contributed to advanced research on contaminated soils and innovative remediation techniques. Earlier in his career, he worked as a Postgraduate Research Assistant at Patrice Lumumba Peoples’ Friendship University of Russia, focusing on laboratory instruction and environmental research. His extensive experience underscores his expertise in environmental chemistry and sustainable agricultural practices.

Awards and Honors 

Dr. Timothy Amangdam Anemana has been recognized for his outstanding contributions to environmental science and research. He graduated with a Ph.D. in Environmental Science from Eötvös Loránd University, Hungary, with the highest honor, summa cum laude. His work on the reduction of arsenate and inorganic trivalent chromium mobility in soils has been widely acclaimed. Dr. Anemana has also been acknowledged for his innovative research on biochar production and its application in soil and water remediation. Throughout his academic and professional journey, he has received numerous accolades for his dedication to environmental conservation and sustainable agricultural practices. His research publications have been featured in reputable international journals, and he continues to be a leading voice in environmental chemistry, contributing to the advancement of knowledge and practical solutions in this critical field.

Research Focus

Dr. Timothy Amangdam Anemana’s research is centered on the intersection of environmental chemistry and sustainable agricultural practices. His primary focus is on the development of innovative solutions for soil and water remediation, particularly the reduction of arsenate and inorganic trivalent chromium mobility in soils. He is deeply involved in the production and application of biochar and activated charcoal from biowaste materials, aiming to enhance soil fertility and mitigate environmental pollution. Dr. Anemana’s current projects at the CSIR-Soil Research Institute in Ghana include the development of an alternative triple super phosphate fertilizer from oyster shells, which are abundant in Ghana. His research also extends to environmental risk assessments, soil nutrient mapping, and the application of modern analytical instrumentation to solve complex environmental challenges. Through his work, Dr. Anemana seeks to contribute to sustainable development and environmental conservation on both local and global scales.

Publication Top Notes

📄 Optimization of lignite particle size for stabilization of trivalent chromium in soils | T. Anemana, et al. | Soil and Sediment Contamination: An International Journal 29(3), 272-291, 2020

🧪 Granular activated charcoal from peanut shell as a new candidate for stabilization of arsenic in soil | T. Anemana, et al. | Microchemical Journal 149, 104030, 2019

🌍 Simultaneous Determination of Heavy Metals in Competitive Aqueous Solutions and Contaminated Soil Systems | T. Anemana, et al. | Kalahari Journals, 2022

🧬 Experimental and theoretical investigations of complex formation of substituted phenylazo-derivatives of methylphloroglucinol | A.T. Amangdam, et al. | Journal of Advances in Chemistry 4(1), 2013

🌱 Iodide- and electrochemical assisted removal of mercury by Cirsium arvense from gold tailings in the Amansie West District, Ghana | T.A. Anemana, et al. | International Journal of Phytoremediation, 2024

 

Conclusion

Dr. Timothy Amangdam Anemana is a strong candidate for the Research for Best Researcher Award, given his extensive experience in environmental chemistry, his contributions to soil and water remediation, and his role in mentoring the next generation of scientists. To enhance his candidacy, he could focus on increasing the global impact of his research and expanding his leadership in large-scale projects. With these enhancements, Dr. Anemana’s already impressive profile would be further solidified as a leading researcher in his field.