Souhaila MENECEUR | Analytical Chemistry | Best Researcher Award

Published on 06/05/202506/05/2025 by Nano Technology

Prof. Dr. Souhaila MENECEUR | Analytical Chemistry | Best Researcher Award

Researcher at University of Eloued, university of El Oued Algeria,

Algeria

Souhaila Daoudi née Meneceur 👩‍🏫 is an Associate Professor at El Oued University 🇩🇿 with a strong background in analytical and environmental chemistry 🔬. Born on November 2, 1982 🎂 in El Oued, Algeria, she is passionate about research, education, and scientific innovation 📘. With advanced degrees including a Ph.D. in Analytical Chemistry and Environment 🎓, she has contributed to academia through both teaching and research 📊. She is an active member of the scientific community on platforms like Google Scholar 🔍 and ResearchGate 🌐. Married and based in Debila, she continues to inspire future chemists and researchers

Professional Profile:

SCHOLAR

Suitability for Best Researcher Award – Prof. Dr. Souhaila MENECEUR

✅ Strengths

👩‍🔬 Holds a Ph.D. in Analytical Chemistry and Environment with a consistent research trajectory in green nanotechnology, photocatalysis, and environmental remediation.
📊 Published in high-impact journals like Sustainability, Scientific Reports, and Frontiers in Chemistry, with several articles achieving high citation counts (up to 88).
🧠 Proven expertise in QSAR modeling, nanomaterial synthesis, and pollution control, tackling real-world environmental issues.
🌐 Maintains active presence in the global research community through Google Scholar and ResearchGate platforms.

🎓 Education & Experience

🎓 Baccalaureate in Chemistry – Technical High School of Debila, 1999/2000
🧪 D.E.U.A. in Analytical Chemistry – Badji Mokhtar University, Annaba, 2002/2003
🧫 State Engineer in Chemistry – Badji Mokhtar University, Annaba, 2005/2006
📖 Magister in Analytical Chemistry and Environment – Badji Mokhtar University, 2008/2009
🧬 Ph.D. in Analytical Chemistry and Environment – University of El Oued, 2020/2021
👩‍🏫 Associate Professor – El Oued University, currently employed

🌐 Professional Development

Souhaila Daoudi has consistently expanded her academic and professional skills 📈 through advanced education and research involvement 🧠. Her academic journey reflects her dedication to chemistry, particularly analytical techniques and environmental applications 🌍. With a focus on QSAR modeling and venom analysis from scorpion species 🦂, she blends theoretical knowledge with practical exploration. She actively participates in scientific networks and conferences 🎤, staying current with innovations in chemical analysis and environmental impact research 🔍. Her teaching role allows her to mentor students and foster scientific curiosity 🎓, while her research efforts contribute to regional and international scientific progress 🌐.

🔬 Research Focus Category

Souhaila Daoudi’s research primarily focuses on analytical chemistry 🧪 with strong applications in environmental studies 🌱. She is especially interested in QSAR methodologies 📊 (Quantitative Structure-Activity Relationships), which help predict molecular behavior and toxicity. Her doctoral research explored the toxic composition of scorpion venoms 🦂, contributing to toxinology and environmental toxicology. Her scientific contributions aim to address public health, environmental safety, and chemical risk assessment ⚠️. By combining chemistry with biology and environmental science, she advances multidisciplinary research that supports both academic growth and real-world impact 🌍🧬.

🏅 Awards and Honors

🎖️ Doctorate Degree Award – Recognized for excellence in research, 2021
📜 Magister Degree Achievement – Honored for contributions to analytical chemistry, 2009
🏅 Associate Professorship – Earned academic rank at El Oued University
🌐 Research Platform Recognition – Active contributor on Google Scholar and ResearchGate

Publication Top Notes

- Title: Effect of pH value on the bandgap energy and particles size for biosynthesis of ZnO nanoparticles: Efficiency for photocatalytic adsorption of methyl orange
  Authors: B. Gherbi, S.E. Laouini, S. Meneceur, A. Bouafia, H. Hemmami, M.L. Tedjani, …
  Journal: Sustainability
  Volume/Issue: 14 (18), Article No. 11300
  Year: 2022
  Citations: 88
  🔬 Focus: Photocatalysis, green synthesis of ZnO nanoparticles
- Title: Biosynthesis and characterization of novel nanocomposite ZnO/BaMg₂ efficiency for high-speed adsorption of AZO dye
  Authors: I. Kir, S.E. Laouini, S. Meneceur, A. Bouafia, H.A.M. Mohammed
  Journal: Biomass Conversion and Biorefinery
  Volume/Issue: 14 (16), pp. 19045–19054
  Year: 2024
  Citations: 53
  ⚗️ Focus: Nanocomposites, dye removal, biosynthesis
- Title: Removal of hydrocarbons and heavy metals from petroleum water by modern green nanotechnology methods
  Authors: A. Bouafia, S. Meneceur, S. Chami, S.E. Laouini, H. Daoudi, S. Legmairi, …
  Journal: Scientific Reports
  Volume/Issue: 13 (1), Article No. 5637
  Year: 2023
  Citations: 53
  🌿 Focus: Environmental remediation, green nanotech
- Title: Green synthesis of multifunctional MgO@AgO/Ag₂O nanocomposite for photocatalytic degradation of methylene blue and toluidine blue
  Authors: Y. Zidane, S.E. Laouini, A. Bouafia, S. Meneceur, M.L. Tedjani, S.A. Alshareef, …
  Journal: Frontiers in Chemistry
  Volume: 10, Article ID: 1083596
  Year: 2022
  Citations: 46
  🧪 Focus: Nanocomposites, pollutant degradation
- Title: A novel biosynthesis of MgO/PEG nanocomposite for organic pollutant removal from aqueous solutions under sunlight irradiation
  Authors: H.A. Mohammed Mohammed, M. Souhaila, L.S. Eddine, G.G. Hasan, I. Kir, …
  Journal: Environmental Science and Pollution Research
  Volume/Issue: 30 (19), pp. 57076–57085
  Year: 2023
  Citations: 45
  ☀️ Focus: Sunlight-driven photocatalysis, water treatment

Conclusion

Souhaila Daoudi demonstrates excellence in research innovation, environmental impact, and scientific collaboration. Her strong publication record, interdisciplinary approach, and commitment to solving environmental problems through sustainable chemistry make her highly deserving of a Best Researcher Award in the fields of environmental chemistry and nanotechnology 🌍🏅.

Ms. Sania Ikram | Microbial Genomics | Best Researcher Award

Published on 03/05/202503/05/2025 by Nano Technology

Ms. Sania Ikram | Microbial Genomics | Best Researcher Award

Ms. Sania Ikram, National University of Medical Sciences (NUMS), Pakistan

Sania Ikram 🇵🇰 (born 02 February 2000) is a passionate Microbiologist and Geneticist 🧫🧬 from Pakistan, currently pursuing her MS in Microbiology and Immunology at NUMS 🎓. With hands-on experience in microbial genomics, antimicrobial resistance, and genetic engineering, she’s dedicated to exploring gut microbiome functionality through whole genome sequencing 💡🔍. Sania has worked with medical institutions and global organizations, contributing to public health awareness and ecological research 🌍❤️. An avid learner of modern research tools and bioinformatics platforms 💻📊, she actively engages in conferences and workshops, aiming to transform microbiological insights into therapeutic solutions for a healthier future 🌱🧠.

Professional Profile:

Google Scholar

✅ Suitability Summary for Best Researcher Award

Sania Ikram stands out as a dynamic and passionate microbiologist and geneticist whose work bridges fundamental microbial research with translational health applications 🌱🧬. Her contributions in microbial genomics, especially gut microbiota profiling using whole genome sequencing, directly address global health challenges like antimicrobial resistance and probiotic therapies 🦠💡. She demonstrates consistent academic excellence, interdisciplinary research, and a strong commitment to skill development through workshops and certifications 🎓📈. Her ability to communicate science, innovate with modern bioinformatics tools, and contribute to public and environmental health sets her apart as a young leader in microbiological sciences 🌍🧠.

🎓 Education & Experience

🎓 MS Microbiology & Immunology – National University of Medical Sciences, ongoing
📜 Thesis: Genome-based Perspectives of Aerobic Bacteria from Human Gut
🎓 B.Sc. (Hons) Genetics – Kinnaird College for Women University (2019–2022)
📜 Thesis: Lipase-Producing Bacteria from Contaminated Soil
🧪 Intern – Al-Sheikh Welfare Medical Complex (July–Aug 2021)
🌿 Intern – WWF Digital Eco Internship (Jan 2021)
🏫 Intermediate – Army Burn Hall College for Girls, Abbottabad (2017–2018)
🏫 Matriculation – Army Public School and College, Rawalpindi (2015–2016)

🛠️ Professional Development

Sania Ikram is committed to continuous growth through professional certifications and workshops 💼🎓. She has completed several Coursera-certified courses including project management 📋, antimicrobial resistance 🦠, scientific writing ✍️, infographics design 🎨, and AI in life sciences 🤖. Participating in events like the International Conference on Science, Technology and Innovation and CME-accredited workshops on hematology and cellular renewal 🔬🌙, she stays at the forefront of innovation. Her proactive approach to skill development in bioinformatics, R programming, and genomics tools positions her as a forward-thinking scientist ready to contribute significantly to modern microbiology and genomics research 📈🧬.

🔍 Research Focus

Sania’s primary research focus lies in microbial genomics, gut microbiota 🦠, and antimicrobial resistance 🔬🧬. Her MS work explores the genetic profiles of aerobic bacteria from the human gut through whole genome sequencing, emphasizing genes involved in metabolism, SCFA production, and probiotics 🌿💊. She investigates host-microbiome interactions, resistome profiling, and microbial competition with the goal of therapeutic development 🌡️🧫. Sania also contributes to environmental microbiology through studies on lipase-producing bacteria from contaminated soils, aiming to link microbial diversity with industrial and clinical applications 🏭🧪. Her work is deeply rooted in advancing microbiome-based health interventions 🌱🧠.

🏆 Awards and Honors

🥇 Best Researcher Award (2025) – Biological Sciences
📚 Recent Publications (2025):
- 3D Printing of Biocompatible Polymers 🖨️
- Aerobes in the Gut Microbiota 💊
- Biodegradable Masks for Skincare 😷
- Drug-Coated Balloon PCI in STEMI ❤️‍🩹

Publication Top Notes:

1. Recent Trends and Future Directions in 3D Printing of Biocompatible Polymers

Citation:
Aftab, M., Ikram, S., Ullah, M., Khan, N., Naeem, M., Khan, M.A., … (2025). Recent Trends and Future Directions in 3D Printing of Biocompatible Polymers. Journal of Manufacturing and Materials Processing, 9(4), 129.
Cited by: Not specified yet (recent publication)

Summary:
This review highlights recent advancements in the use of 3D printing for biocompatible polymers, emphasizing their growing role in biomedical applications such as tissue engineering, prosthetics, and drug delivery systems. The paper outlines current challenges in polymer design, mechanical performance, and degradation rates while proposing innovative directions, including smart polymers and hybrid material systems.

2. Mini-Review: Nanofiber and Nanoparticle-Based Biodegradable Masks for Skincare

Citation:
Abbasi, Z.W., Ikram, S., Aroosa, F.A., Kulsoom, J., & Naeem, M. (2025). Mini-Review: Nanofiber and Nanoparticle-Based Biodegradable Masks for Skincare. International Journal of Basic Medical Sciences and Pharmacy (IJBMSP), 11(2).

Summary:
This mini-review explores emerging trends in the cosmetic and dermatological applications of biodegradable face masks made from nanofibers and nanoparticles. The authors discuss how these innovative materials offer enhanced skin absorption, biocompatibility, and reduced environmental impact, positioning them as promising tools in sustainable skincare.

3. Aerobes in the Gut Microbiota–Roles, Interactions, and Implications for Host Health

Citation:
Ikram, S., Abbasi, Z.W., Khan, A.I., Kulsoom, J., Khan, M.A., & Khan, S.U. (2025). Aerobes in the Gut Microbiota–Roles, Interactions, and Implications for Host Health. International Journal of Basic Medical Sciences and Pharmacy (IJBMSP), 11(2).

Summary:
This article focuses on the aerobic microbial species within the human gut microbiome, a less explored area compared to anaerobes. The paper discusses their symbiotic roles, potential benefits in immune modulation, and contributions to metabolic pathways, while also evaluating how aerobic imbalance may impact disease development.

4. Drug-Coated Balloon Percutaneous Coronary Intervention in ST-Elevation Myocardial Infarction (STEMI): A Novel Therapeutic Approach

Citation:
Hamayun, S., Ikram, S., Khan, A.I., Amjad, H.A.F., Abbasi, Z.W., Kulsoom, J., … (2025). Drug-Coated Balloon Percutaneous Coronary Intervention in ST-Elevation Myocardial Infarction (STEMI): A Novel Therapeutic Approach. International Journal of Basic Medical Sciences and Pharmacy (IJBMSP), 11(2).

Summary:
This clinical study evaluates the effectiveness of drug-coated balloon (DCB) angioplasty as a new intervention for patients with STEMI. Compared to traditional stenting, DCB offers potential advantages such as lower restenosis rates, reduced long-term medication needs, and improved healing. The paper presents early clinical outcomes and sets the stage for larger randomized trials.

🏁 Conclusion

Sania Ikram exemplifies the qualities of a Best Researcher Award recipient: scientific curiosity, methodological strength, and impactful research. Her work promises to shape future innovations in microbiome therapy and genetic diagnostics, making her a compelling choice for recognition in the research community 🌟📚.

Mr. Naushad Khan | Plasmonic Nanostructures | Best Researcher Award

Published on 03/05/202503/05/2025 by Nano Technology

Mr. Naushad Khan | Plasmonic Nanostructures | Best Researcher Award

Mr. Naushad Khan , Chang Gung University, Taiwan

🔬 Naushad Ahmad Khan is a nanotechnology researcher specializing in plasmonic nanostructures and laser-assisted nanomaterial synthesis. Currently pursuing a Ph.D. in Mechanical Engineering at Chang Gung University, Taiwan 🇹🇼, he has contributed significantly to the field of SERS (Surface-Enhanced Raman Spectroscopy) through innovative techniques like photoreduction of silver ions on gold nanostructures. 🧪 With a robust academic background and multiple publications 📝, he combines his research with teaching experiences in calculus and dynamics 📘. Naushad is proficient in high-end instrumentation and data analysis tools, making him a promising contributor to nanoscale optics and sensing technologies. 🌟

Professional Profile:

Google Scholar

✅ Summary of Suitability:

Naushad Ahmad Khan is a highly suitable candidate for the Best Researcher Award in the field of Nanotechnology, Plasmonics, and Nanophotonics. His work demonstrates originality, technical depth, and interdisciplinary application—qualities essential for impactful scientific contributions. With his advanced work on Surface-Enhanced Raman Spectroscopy (SERS) and laser-assisted nanofabrication, he stands out as a promising leader in next-generation optical sensing technologies.

🎓 Education & Experience

🎓 Education:

📚 Ph.D. in Mechanical Engineering, Chang Gung University, Taiwan (2020–Present)
Thesis: Photoreduction of Silver Ions on Gold Nanostructures
📘 Master’s in Mechanical Engineering, Chang Gung University, Taiwan (2018–2020)
Thesis: Light-Assisted Synthesis of Gold Nanostructures
🏫 B.Tech in Mechanical Engineering, MAKAUT, India (2016)

🧪 Research Experience:

👨‍🔬 Research Assistant, Plasma Lab, Chang Gung University (2020–Present)
🔬 Research Assistant, Plasma Lab, Chang Gung University (2018–2020)

👨‍🏫 Teaching Experience:

✏️ Teaching Assistant, Chang Gung University (2020–Present)
Courses: Calculus & Dynamics

🌱 Professional Development

💡 Naushad Ahmad Khan has actively advanced his research skills through diverse nanofabrication projects using laser-assisted synthesis, self-assembly, and photoreduction techniques. 📈 He has developed optimized SERS substrates and contributed to improving plasmonic efficiency in gold-silver hybrid nanostructures. 🧫 His training spans advanced characterization tools such as FE-SEM, HR-TEM, and UV-Vis spectroscopy. 🧠 Beyond research, he has mentored students and enhanced academic course content through TA roles 📚. With exposure to international conferences 🌐 and hands-on projects, Naushad continues to push the boundaries of nanoscale material engineering. 🔍

🔍 Research Focus Category

🔬 Naushad Ahmad Khan’s research is centered in the Nanophotonics and Plasmonics category, with a focus on Surface-Enhanced Raman Spectroscopy (SERS) 🧪, plasmonic nanostructures, and laser-material interactions 💡. He specializes in creating bimetallic nanostructures and studying their optical properties for enhanced sensing applications 🎯. His innovative methods involve photochemical reduction and laser-assisted synthesis, contributing to the development of highly sensitive and reproducible SERS substrates. 📊 His work bridges materials science and photonics, playing a vital role in chemical and biological sensing technologies 🌍, advancing applications in diagnostics, environmental monitoring, and nanomedicine. 🌱

🏆 Awards & Honors

🧪 Developed a novel SERS substrate with enhanced sensitivity using gold-silver hybrid nanostructures
🔬 Designed a reproducible laser-assisted fabrication method for nanostructures
📈 Achieved 30% enhancement in SERS signal through optimized experimental design
🎤 Presented research at multiple international conferences (OPTIC 2022, 2023, 2024)

Publication Top Notes:

Laser-induced photochemical reduction for the production of gold and silver nanoparticles on gold nanostructures

📚 Journal:
Results in Physics

📅 Year:
2025

🔍 Authors:
NA Khan, YH Kuo, SY Yu, YC Ku, KY Hung, JW Liaw

📑 DOI/Article ID:
108152

🔬 Summary:

This study presents a laser-induced photochemical method for fabricating gold and silver nanoparticles (AuNPs and AgNPs) on pre-existing gold nanostructures. The authors explore the photoreduction mechanism enabled by targeted laser irradiation, which allows precise spatial control over nanoparticle formation. The technique is green, fast, and additive-free, using only light to trigger localized nanoparticle deposition.
Key benefits of this approach include:

Selective nanoparticle growth
High spatial resolution
Potential applications in plasmonics, biosensing, and nanophotonics

The authors used a combination of scanning electron microscopy (SEM) and UV-Vis spectroscopy to analyze the morphology and optical properties of the produced nanostructures.

🏁 Conclusion:

Naushad Ahmad Khan exemplifies the qualities of a forward-looking researcher in the nanotechnology domain. His technical innovations, hands-on instrumentation skills, and cross-disciplinary applications make his contributions both timely and impactful. His work has clear relevance for real-world applications in diagnostics, environmental sensing, and nanomedicine, positioning him as an ideal recipient of a Best Researcher Award in the nanomaterials or sensing technology categories.

Rama Talat Rashad | Environmental | Best Researcher Award

Published on 03/05/202503/05/2025 by Nano Technology

Prof. Rama Talat Rashad | Environmental | Best Researcher Award

Head Researcher at Soils, Water and Environment Research Institute, Agricultural Research Center,Giza, Egypt.

Dr. Rama Talat Rashad 🌾 is a prominent researcher at the Soil, Water and Environmental Research Institute, Agricultural Research Center, Egypt 🇪🇬. With over 21 publications 📚 and 172 citations 📊, her work significantly advances sustainable agriculture 🌱, environmental remediation 🌍, and soil management. She holds a Web of Science ResearcherID: O-4633-2018 and ORCID: 0000-0002-5977-2465. Her research includes magnetic seed/water treatment, salinity control, and eco-friendly soil amendments. As an active reviewer 🧐 for top journals like Scientific Reports and Geoderma, she has completed 32 manuscript reviews, reinforcing her role as a respected voice in the global soil science community. 🌐

Professional Profile:

ORCID

Suitability for Best Researcher Award – Dr. Rama Talat Rashad

Dr. Rama Talat Rashad is a highly suitable candidate for the Best Researcher Award, based on her impactful research in soil science, environmental sustainability, and agricultural innovation. Her strong publication record, interdisciplinary focus, and dedication to applied research make her a valuable contributor to global efforts in sustainable agriculture and soil health. With over a decade of research experience, 21 published articles (15 in WoS-indexed journals), and an H-index of 6, Dr. Rashad’s scholarly work reflects both quality and relevance.

🎓 Education & Experience

🎓 Ph.D. in Soil Science, Egypt 🇪🇬 (Institution details not provided)
🎓 M.Sc. in Soil and Environmental Sciences
📍 Senior Researcher, Soil, Water and Environmental Research Institute, ARC, Egypt
🧪 10+ years of experience in soil remediation, salinity management, and sustainable agriculture
📝 Published 21 research articles, including 15 indexed in Web of Science

🌐 Professional Development

Dr. Rashad actively engages in continuous professional development through collaborations, peer reviews, and advanced research projects 🔬. She has contributed 32 peer reviews 🧾 for renowned journals such as Scientific Reports, Archives of Agronomy and Soil Science, and Geoderma, highlighting her scholarly engagement. Her participation in national and international research collaborations 🤝, workshops, and interdisciplinary initiatives promotes innovation in soil sustainability 🌍. Through her applied studies on magnetic treatments and eco-friendly amendments, she bridges scientific research with practical agricultural applications 🌱. Dr. Rashad’s dedication to research quality and integrity is evident in both her authorship and reviewing roles 📖.

🔬 Research Focus Category

Dr. Rashad’s research lies at the intersection of soil science, environmental sustainability, and agricultural innovation 🌿. Her work targets critical issues such as salinity management, pesticide remediation, and soil fertility enhancement using novel techniques like magnetically treated water and seeds 💧🧲. She also investigates the role of silicon fertilizers and mesoporous materials in improving plant resilience in sandy soils. With a strong emphasis on eco-friendly and sustainable agriculture 🌍, her studies provide practical solutions for improving crop productivity and soil health under harsh environmental conditions. Her interdisciplinary approach integrates chemistry, environmental science, and agronomy 🌾.

🏅 Awards and Honors

🏆 Recognized reviewer for top journals like Scientific Reports, Geoderma, and Archives of Agronomy and Soil Science
📊 Achieved an H-index of 6 with 172 total citations
📚 Authored 21 research publications, including 15 in WoS Core Collection
🥇 Invited to review 31+ manuscripts across multiple international platforms
🌟 Acknowledged contributor in environmental remediation and soil sustainability research

Publication Top Notes

🧪 “Effect of Crop Rotations and Continuous Fertilization on the Status of Silicon (Si) Available in Soil in a 97-Year Permanent Experiment”
- Authors: Rama T. Rashad, Mohamed R. El-Zanaty, Rania A. El-Bialy
- Year: 2020
- Summary: This study examines the long-term effects of crop rotations and continuous fertilization on the availability of silicon in soil, highlighting the importance of sustainable agricultural practices in maintaining soil health.
🌾 “Agronomic Efficiency of Feldspar, Quartz Silica, and Zeolite as Silicon (Si) Fertilizers in Sandy Soil”
- Authors: Rama T. Rashad, Rashad A. Hussien
- Year: 2020
- Summary: The research assesses the effectiveness of natural silicon-rich minerals—feldspar, quartz silica, and zeolite—as fertilizers in sandy soils, demonstrating their potential to enhance soybean yield and nutrient uptake.
💧 “Silicon (Si) Use Efficiency in Sandy Soil Amended by Si-Loaded Hydrogel”
- Author: Rama T. Rashad
- Year: 2020
- Summary: This paper explores the use of silicon-loaded hydrogels to improve silicon availability in sandy soils, offering insights into innovative soil amendment strategies for better crop performance.
🧴 “Synthesis of Mesoporous Silica-Polymer Composite for the Chloridazon Pesticide Removal from Aqueous Media”
- Authors: El-Said W.A., El-Khouly M.E., Ali M.H., Rashad R.T., Elshehy E.A., Al-Bogami A.S.
- Year: 2018
- Summary: The study presents the development of a mesoporous silica-polymer composite material designed to effectively remove chloridazon pesticide from water, contributing to environmental remediation efforts.
🌱 “Relationship Between the Absorption Behavior of Iron and Silicon by Plant and the Macronutrients Affected by Some Sandy Soil Additives”
- Author: Rama T. Rashad
- Year: 2017
- Summary: This research investigates how certain soil additives influence the absorption of iron and silicon by plants, as well as their interaction with macronutrients, providing guidance for soil fertility management.
🌿 “Effect of Magnetic Iron Oxide Combined with Some Additives on the Yield of Groundnut, Wheat and Nutrient Availability in Sandy Soil”
- Author: Rama T. Rashad
- Year: 2015
- Summary: The paper examines the impact of applying magnetic iron oxide along with other additives on the yield of groundnut and wheat crops, as well as on nutrient availability in sandy soils.
🌾 “Partial Replacement of the Mineral Nitrogen Fertilizers by Organic Alternatives in Sandy Soils”
- Author: Rama T. Rashad
- Year: 2015
- Summary: This study explores the feasibility of substituting mineral nitrogen fertilizers with organic alternatives in sandy soils, aiming to promote sustainable agriculture and reduce chemical inputs.
🌽 “A Comparison Study on the Effect of Some Growth Regulators on the Nutrients Content of Maize Plant Under Salinity Conditions”
- Authors: Rama T. Rashad, Rashad A. Hussien
- Year: 2014
- Summary: The research compares the effects of various growth regulators on the nutrient content of maize plants grown under saline conditions, offering strategies to mitigate salinity stress in crops.

Conclusion

Dr. Rama Talat Rashad stands out as a dedicated, innovative, and productive researcher whose contributions to soil science and sustainable agriculture have both academic and practical value. Her consistent publication record, recognized peer-review service, and commitment to solving real-world environmental challenges make her an excellent choice for the Best Researcher Award.

Bi Fu | Ferroelectric | Best Researcher Award

Published on 02/05/202503/05/2025 by Nano Technology

Dr. Bi Fu | Ferroelectric | Best Researcher Award

Lecturer at Guangdong Polytechnic Normal University, China.

Dr. Bi Fu, Ph.D., is a passionate researcher and lecturer at the School of Optoelectronic Engineering, Guangdong Polytechnic Normal University, Guangzhou 🇨🇳. With a focus on ferroelectric and multiferroic materials, piezo-photocatalysis, and electrospun nanofibers ⚛️, he is advancing the frontier of energy and environmental materials. He has published over 24 high-impact articles in journals like Nano Energy and Nanoscale 📚. Dr. Fu combines academic rigor with practical innovation, contributing to sustainable energy conversion and environmental remediation 🌍. His international exposure and deep expertise make him a valuable contributor to the field of nano-opto-electro-mechanical systems.

Professional Profile:

Scopus

ORCID

Suitability for Best Researcher Award – Dr. Bi Fu

Dr. Bi Fu is highly suitable for the Best Researcher Award, given his focused and impactful contributions to the field of advanced functional nanomaterials for energy and environmental applications. His research uniquely blends theory and application, particularly in piezo-photocatalysis, electrospun nanofibers, and ferroelectric/multiferroic materials, addressing critical global challenges such as renewable energy and environmental remediation. With over 24 high-impact publications in top-tier journals like Nano Energy and Nanoscale, Dr. Fu has already established a strong scientific reputation and is emerging as a global thought leader in his domain.

🎓 Education & Experience

🎓 Ph.D. in Physics, Xi’an Jiaotong University (2016)
🌍 Visiting Scholar, Kettering University, USA (2015–2016)
🎓 M.S. in Condensed Matter Physics, Lanzhou University of Technology
🎓 B.S. in Physics, Hubei Normal University
👨‍🏫 Lecturer, Guangdong Polytechnic Normal University (2021–Present)
🔬 Research Associate, Southern University of Science and Technology
🔬 Research Associate, Shenzhen Institutes of Advanced Technology, CAS

📈 Professional Development

Dr. Bi Fu has demonstrated a consistent commitment to academic and professional excellence through international collaboration and interdisciplinary research 🌐. During his tenure as a visiting scholar at Kettering University 🇺🇸, he enhanced his global perspective and technical skillset. At institutions like SIAT and SUSTech 🏢, he worked with elite teams in advanced materials and energy systems. As a lecturer, he not only delivers general physics education 📘 but also mentors students in experimental nanoscience. His hands-on experience with electrospinning, magnetoelectric coupling, and energy storage positions him as a thought leader in applied physics and materials innovation 💡.

🔍 Research Focus Category

Dr. Bi Fu’s research falls under the category of Advanced Functional Nanomaterials for Energy and Environmental Applications ⚡🌱. His work explores the interface of ferroelectric and multiferroic materials, emphasizing piezo-photocatalysis, a promising solution for renewable energy conversion and pollution reduction 🌞. He specializes in electrospun nanofibers, which serve as platforms for enhancing piezoelectric and photocatalytic effects. His studies target nano-opto-electro-mechanical systems, advancing both fundamental science and practical applications such as water purification, self-powered devices, and next-generation sensors 🧪. His interdisciplinary work contributes to sustainability and green technology 🌍♻️.

🏅 Awards and Honors

🏆 Excellent Doctoral Thesis Award, Xi’an Jiaotong University (2019)
🧠 Outstanding Youth Fund, Shenzhen Institutes of Advanced Technology (2016)
🎓 National Doctoral Scholarship, China (2015)

Publication Top Notes

📄 Electrospun Ba(Ti₀.₈₀Zr₀.₂₀)O₃-0.5(Ba₀.₇₀Ca₀.₃₀)TiO₃-CoFe₂O₄ multiferroic hybrid nanofiber for localized piezocatalytic degradation of organic pollutants – 2025 – 📚
📄 Mechanically induced built-in electric field in BCTZ nanostructures for piezocatalysis: Experiments and modeling – 2024 – 📚 Cited by: 1 ScienceDirect
📄 Enhanced piezotronics by single-crystalline ferroelectrics for uniformly strengthening the piezo-photocatalysis of electrospun BaTiO₃@TiO₂ nanofibers – 2022 – 📚
📄 Modulation of electric dipoles inside electrospun BaTiO₃@TiO₂ core-shell nanofibers for enhanced piezo-photocatalytic degradation of organic pollutants – 2022 – 📚
📄 Dipole-Moment Induced Phototaxis and Fuel-Free Propulsion of ZnO/Pt Janus Micromotors – 2021 – 📚
📄 Isotropic Hedgehog-Shaped-TiO₂/Functional-Multiwall-Carbon-Nanotube Micromotors with Phototactic Motility in Fuel-Free Environments – 2021 – 📚
📄 Epitaxial array of Fe₃O₄ nanodots for high rate high capacity conversion type lithium ion batteries electrode with long cycling life – 2020 – 📚
📄 Three-dimensional mesoporous γ-Fe₂O₃@carbon nanofiber network as high performance anode material for lithium- and sodium-ion batteries – 2020 – 📚
📄 Freestanding SnS Carbon Composite Nanofiber Material with Excellent Electrochemical Performance as Binder-Free Negative Electrode for Lithium-ion Batteries – 2020 – 📚

Conclusion

Dr. Bi Fu exemplifies the qualities of a Best Researcher Award recipient through his innovative, interdisciplinary, and internationally recognized work in nanomaterials for energy and environmental sustainability. His scientific rigor, publication record, and research relevance make him a standout candidate poised to shape the future of green technologies and applied materials science.

Lixian Wu Wu | Pharmacology | Best Researcher Award

Published on 02/05/202502/05/2025 by Nano Technology

Prof. Lixian Wu Wu | Pharmacology | Best Researcher Award

Vice Dean at Fujian Medical University, China.

Dr. Lixian Wu 🎓 is an accomplished pharmacologist from Fujian, China, with over 20 years of experience in anticancer drug research 💊. Her groundbreaking work includes DNA repair mechanisms 🧬, tumor microenvironment interactions 🧫, and PROTAC-based drug design 🧪. A distinguished researcher and mentor, she has led multiple national projects 📑, secured five patents 📘, and published influential scientific papers 📚. As a doctoral advisor, she has guided numerous Ph.D. and master’s students 🎓. Dr. Wu’s dedication to innovation and excellence has earned her the title of Fujian Provincial High-Level Talent 🌟.

Professional Profile:

Scopus

Suitability for Best Researcher Award – Dr. Lixian Wu

Dr. Lixian Wu is highly suitable for the Best Researcher Award due to her sustained excellence in anticancer pharmacology research, innovative drug discovery, and academic mentorship over the past two decades. Her ability to translate complex molecular mechanisms into potential therapeutic strategies—such as PROTAC-based compounds and immune-targeted therapies—demonstrates a deep and ongoing commitment to impactful, high-quality science. She has also contributed significantly to China’s biomedical innovation ecosystem through patents, national-level research leadership, and talent cultivation.

🎓 Education & Experience

🎓 Bachelor’s Degree in Clinical Medicine – Fujian Medical University, China
🧪 Master’s Degree (M.D.) in Pharmacology – Fujian Medical University
🧬 Ph.D. in Pharmacology – Fujian Medical University
🧠 20+ years of research experience in anticancer pharmacology
🧑‍🏫 Doctoral Tutor mentoring 8 Ph.D. and 20 Master’s students
📋 Principal Investigator for 4 National Natural Science Foundation projects

📈 Professional Development

Dr. Wu has continually advanced her professional journey through innovative research and academic leadership 🌐. She has synthesized and screened high-efficacy anticancer compounds via PROTAC technology 🧪, explored immune-based cancer therapy through NKT cell modulation 🔬, and discovered novel feedback loops in DNA repair pathways 🧬. She remains actively engaged in national-level scientific funding programs 📑 and contributes to the field through patents and impactful publications 📚. Her mentorship has nurtured the next generation of pharmacologists 👩‍🔬👨‍🔬, enhancing China’s scientific landscape. Her evolving research and professional expertise position her as a thought leader in oncology drug discovery 🌟.

🧪 Research Focus Category

Dr. Wu’s research primarily centers on anticancer pharmacology 💊, particularly the molecular mechanisms of cancer progression and therapy 🧬. Her work targets DNA repair pathways, unveiling the regulatory roles of NF-kB and PARP1 in tumor survival 🔍. She also explores the tumor microenvironment, focusing on the immune system’s role in fighting cancer, especially through NKT cells 🧫. Leveraging PROTAC technology, she has developed degradation-based drug strategies with high therapeutic potential ⚗️. Her multi-dimensional approach places her research at the crossroads of immunopharmacology, molecular biology, and drug design, making a significant impact on cancer therapeutics 🔬.

🏅 Awards and Honors

🏆 Fujian Provincial High-Level Talent recognition
📑 Principal Investigator of 4 National Natural Science Foundation of China (NSFC) grants
🧪 Holder of 5 Chinese Invention Patents in anticancer drug development
📚 Author of several influential SCI-indexed research papers
🎓 Mentor to 8 Ph.D. and 20 Master’s students

Publication Top Notes

🧬 Amiloride reduces fructosamine-3-kinase expression to restore sunitinib sensitivity in renal cell carcinoma – iScience (2024) | Cited by: 1

💊 Ferroptosis boosted oral cancer photodynamic therapy by carrier-free Sorafenib-Ce6 self-assembly nanoparticles – Journal of Controlled Release (2024) | Cited by: 22

🔬 Discovery of X10g as a selective PROTAC degrader of Hsp90α protein for treating breast cancer – European Journal of Medicinal Chemistry (2023) | Cited by: 5

🧪 Synthesis of Novel Dual Target Inhibitors of CDK12 and PARP1 and Their Antitumor Activities in HER2-Positive Breast Cancers – ACS Omega (2023) | Cited by: 3

Conclusion

Dr. Lixian Wu exemplifies the qualities of a Best Researcher Award recipient through her innovative research, national and international impact, and mentorship leadership. Her contributions to anticancer drug design and her role in shaping China’s research capacity place her in the top tier of biomedical researchers. She is not only a leader in her field but also a beacon for emerging scientists in pharmacology.

Silvia Morales de la Rosa | biomass valorization | Best Researcher Award

Published on 02/05/202502/05/2025 by Nano Technology

Dr. Silvia Morales de la Rosa | biomass valorization | Best Researcher Award

Dr. Silvia Morales de la Rosa, Instituto de Catálisis y Petroleoquímica – CSIC, Spain

Silvia Morales de la Rosa 🎓🧪 is a dedicated chemist and researcher at the Instituto de Catálisis y Petroleoquímica (CSIC) in Spain 🇪🇸. With a Ph.D. in Chemistry from Madrid Autonomous University (2015) and over 15 years of experience, her expertise lies in biomass valorization, heterogeneous catalysis, and biofuels 🌿⚗️. Silvia leads European projects like HE FUELGAE and FUELPHORIA 🌍💡, has authored 24 scientific papers 📚, and holds 3 patents. Passionate about sustainable energy and circular economy 🔄🌱, she mentors Ph.D. students and collaborates internationally to drive innovation in renewable fuel technologies 🚀.

Professional Profile:

Scopus

Suitability Summary

✅ Key Strengths

Research Excellence: With 24 peer-reviewed publications and 3 patents, Silvia has made impactful contributions to biomass valorization and catalysis.
Leadership in European Projects: As PI and Coordinator of multimillion-euro Horizon Europe projects (HE FUELPHORIA – €11M and HE FUELGAE – €5M), she has demonstrated strategic and technical leadership at the European level.
Innovative Techniques: Her work spans heterogeneous catalysis, MOFs, tandem catalysis, and flow systems for converting biomass to high-value chemicals like HMF, furfural, and ethanol.
Academic Mentorship: She actively mentors Ph.D. and MSc students, shaping the next generation of chemists with excellence in both academic and applied research.
Resilience & Dedication: Overcame medical challenges (including cancer treatments) while maintaining a productive and influential research career.

Education and Experience

🎓 Education:
- 🎓 PhD in Chemistry – Madrid Autonomous University, Spain (2015)
- 🎓 Graduate in Chemical Sciences – Valladolid University, Spain (2001)
💼 Experience:
- 🧪 Researcher at CSIC’s ICP (2008–Present)
- 🧪 R&D roles in ANALIZAGUA S.L., AQM Laboratorios, and Ministry of Industry projects (2004–2008)
- 🔬 Fellowship on chemical research with Repsol & Valladolid University (2001–2003)
- 🤕 Medical interruptions due to cancer treatment (2004, 2012, 2016–2017)

Professional Development

Silvia has continuously enhanced her professional development through hands-on industrial research collaborations 🔬🏭, specialization fellowships, and leadership in high-level European projects 🌍📊. She has led project writing, technical-economic planning, and partner engagement for Horizon Europe proposals 📑🤝. Her role as Track Co-Lead at the upcoming NAM29 conference 🧑‍🔬🌎 underscores her active participation in international scientific forums. She mentors Ph.D. candidates and supervises academic theses 📘👩‍🎓, contributing to the academic and practical growth of upcoming scientists. Her work merges lab research with scalable industrial applications, bridging the gap between discovery and deployment ⚗️⚙️.

Research Focus

Silvia’s research is centered on sustainable energy and green chemistry 🌱⚗️. Her work targets biomass valorization, microalgae processing, and the production of advanced biofuels and e-fuels 🔬🌿. She develops heterogeneous catalytic systems for hydrotreatment, hydrogenation, and selective oxidation processes 🔥🧪. Her innovations aim to convert waste biomass into valuable bio-products under mild, eco-friendly conditions ♻️. With significant achievements like pilot plant construction and patents, Silvia’s focus lies at the intersection of renewable energy, circular economy, and industrial catalysis 🚀🏭. Her projects aim to accelerate the transition toward sustainable fuel alternatives and reduced carbon emissions 🌍💧.

Awards and Honors

🏆 Magna “Cum Laude” Ph.D. distinction – Madrid Autonomous University
🏅 Track Co-Lead – Biomass & Waste Valorization, NAM29 Conference (2025)
📘 Honors – MSc Thesis Supervision (Marta Lara Serrano, UNED, 2018)
🎖️ PI of CSIC in €11M HE FUELPHORIA project
🌍 Coordinator of €5M Horizon Europe HE FUELGAE project
🧪 Supervised multiple MSc & Ph.D. theses with academic excellence ratings

Publication Top Notes:

1. Lara-Serrano, M.; Morales-delaRosa, S. (AC); Campos-Martín, J.M.; Romero, I.; Castro, E.; Oliva, J. M.; Manzanares, P. (2024)

Title: OrganoCat fractionation of vine shoots for coproduction of bioethanol, furfural, and lignin
Journal: Fuel
Status: Manuscript Under Review

🔍 Summary:
This study explores the OrganoCat process for fractionating vine shoots into three value-added products: bioethanol, furfural, and lignin. The method combines organic acid catalysis and biphasic extraction to enhance product yields. The paper demonstrates a sustainable approach to biomass valorization with significant potential for biorefinery integration.

2. Sboiu, D. M.; Márquez-Medina, M.D.; Lara-Serrano, M.; Campos-Martin, J.M.; Morales-delaRosa, S. (AC) (2024)

Title: Catalytic conversion into 5-hydroxymethylfurfural and furfural by heterogeneous sulfonic acid catalysis in a flowing acetone-water system
Journal: Fuel
Status: Manuscript in Press

🔍 Summary:
This paper presents a continuous-flow system using heterogeneous sulfonic acid catalysts to convert sugars into HMF and furfural, key bio-based platform chemicals. The use of an acetone-water solvent system significantly enhances selectivity and stability. The findings support advances in flow chemistry for biomass-derived chemicals.

3. Cardoza, D.; Contreras, M. Mar; Lara-Serrano, M.; Morales-delaRosa, S.; Campos-Martín, J.M.; Romero, I. (AC); Castro, E. (2024)

Title: Sustainable vine shoots-to-ethanol valorisation by a sequential acid/organosolv pretreatment
Journal: Process Safety and Environmental Protection
Volume: 183
Date: March 2024
Pages: 1059–1070
DOI: https://doi.org/10.1016/j.psep.2024.01.063

🔍 Summary:
This study proposes a two-step pretreatment (acid followed by organosolv) to efficiently convert vine shoot biomass into ethanol. The process enhances hemicellulose and lignin removal, improving cellulose accessibility. Results contribute to low-impact, high-efficiency bioethanol production strategies.

4. Lara-Serrano, M.; Sboiu, D. M.; Morales-delaRosa, S. (AC); Campos-Martin J.M. (AC) (2023)

Title: Selective Fragmentation of Lignocellulosic Biomass with ZnCl₂·4H₂O Using a Dissolution/Precipitation Method
Journal: Applied Sciences (Switzerland)
Volume: 13, Issue 5
Article Number: 2953
DOI: https://doi.org/10.3390/app13052953
Citations: 2
Field-Weighted Citation Impact (FWCI): 1.30

🔍 Summary:
The article presents a novel ZnCl₂·4H₂O-based strategy for selectively fragmenting lignocellulosic biomass. Using a dissolution/precipitation process, it facilitates the isolation of key biomass components under mild conditions. This offers a new pathway for biomass deconstruction in green chemistry applications.

5. Lara-Serrano, M.; Morales-delaRosa, S.; Campos-Martin, J.M. (AC); Abdelkader-Fernández, V.K.; Cunha-Silva, L.; Balula, S.S. (2022)

Title: One-Pot Conversion of Glucose into 5-Hydroxymethylfurfural using MOFs and Brønsted-Acid Tandem Catalysts
Journal: Advanced Sustainable Systems
Volume: 6, Issue 5
Article Number: 2100444
DOI: https://doi.org/10.1002/adsu.202100444
Back Cover Highlight: Cover link
Citations: 10
FWCI: 1.28

Conclusion:

Dr. Silvia Morales de la Rosa represents the ideal profile of a Best Researcher Award recipient: a scientist whose work not only advances theoretical understanding but also provides practical, scalable solutions to global sustainability challenges. Her innovative methodologies, strong leadership, and commitment to mentoring make her an outstanding figure in renewable fuel technologies and circular economy research.

Yanzhao Dong | catalyst amplification | Best Researcher Award

Published on 02/05/202502/05/2025 by Nano Technology

Mr. Yanzhao Dong | catalyst amplification | Best Researcher Award

Mr. Yanzhao Dong , Associate Professor at Shihezi University,China

Dr. Yanzhao Dong 🎓 is an Associate Professor at the Department of Chemical Engineering, Shihezi University 🏫. He earned his Doctor of Engineering degree from Tianjin University 🏛️ and completed a two-year postdoctoral fellowship at Zhejiang University and Zhejiang Xinhecheng Co., Ltd. 🧪. With extensive experience in catalyst amplification and project engineering ⚗️🔧, his research centers on catalyst material design and heterogeneous catalyst applications 🔬. As a vital member of various national R&D initiatives, including the “973” and “863” Programs 🇨🇳, he has published 30 SCI papers 📚 and holds 8 patents globally 📄🌏.

Professional Profile:

Scopus

🔹 Education and Experience:

🎓 Ph.D. in Engineering – Tianjin University
🔬 Postdoctoral Research – Joint Postdoctoral Workstation of Zhejiang University & Zhejiang Xinhecheng Co., Ltd.
🧑‍🏫 Associate Professor – Department of Chemical Engineering, Shihezi University
⚗️ Project & Catalyst Engineering Experience – 2 years of practical R&D involvement
🇨🇳 Participation in National Projects – Key member in “973” and “863” research programs

🔹 Professional Development:

Dr. Dong has steadily advanced his academic and research career through a combination of rigorous study and practical research experience 📈📖. His time in postdoctoral research significantly enhanced his expertise in catalyst scale-up and industrial application 🔍🏭. Actively involved in multiple national-level research projects, he has contributed to pioneering studies in catalysis and materials development 🧪🧬. His work is marked by a strong integration of theoretical design and real-world application 🧠🔧. As a result, he has gained recognition for his scientific output, publishing 30 SCI-indexed articles 📘 and securing 8 patents, including international PCT applications 🌐📑.

🔹 Research Focus Category :

Dr. Yanzhao Dong’s research primarily focuses on heterogeneous catalysis and catalyst material design 🔬⚛️. His expertise lies in creating efficient and sustainable catalysts for industrial applications, including chemical synthesis and environmental remediation 🌱🏭. He emphasizes the development of structured catalysts with enhanced performance and longevity 🧱🔧. His work bridges the gap between lab-scale innovation and industrial-scale implementation, promoting green chemistry principles 🌿⚙️. From nano-level catalyst optimization to pilot-scale testing, his studies support sustainable chemical engineering solutions 🧫🔄. His multidisciplinary approach combines materials science, reaction engineering, and environmental technology ♻️🧪.

🔹 Awards and Honors:

🏆 Key Contributor to National “973” Program
🏅 Research Recognition for participation in the “863” High-Tech Development Plan
📜 30 SCI Publications – Cited in international journals
🧪 8 Patents Filed – Including 6 Chinese and 2 international PCT patents
🧑‍🔬 Postdoctoral Fellowship at a national-level joint research platform

Publication Top Notes:

📘 1. Highly Efficient and Rapid Adsorption of Dyes by Hollow Mesoporous Carbon Spheres

Citation:
Lu, Y., Wu, Q., Meng, X., Xu, Y., & Zhang, J. (2025). Highly efficient and rapid adsorption of dyes by hollow mesoporous carbon spheres. Separation and Purification Technology.

Summary:
This study introduces hollow mesoporous carbon spheres (HMCS) as a highly effective adsorbent for removing organic dyes from wastewater. The HMCS exhibit a large surface area and uniform pore distribution, facilitating rapid and efficient dye adsorption. The research demonstrates that these carbon spheres can achieve near-complete dye removal in a short time frame, highlighting their potential for practical wastewater treatment applications.

⚗️ 2. A Polydopamine-Mediated Crystalline/Amorphous Ru-RuO₂/Ni(OH)₂ Composite Catalyst for High Current Density Hydrogen Evolution Reaction

Citation:
Lai, L., Zhang, H., Zeng, J., Dong, Y., Jin, W., Li, C., Li, Y., Niu, Y., Zhang, J., Zhang, H., & Kong, A. (2025). A polydopamine-mediated crystalline/amorphous Ru-RuO₂/Ni(OH)₂ composite catalyst for high current density hydrogen evolution reaction. Molecular Catalysis.

Summary:
This research presents a novel composite catalyst composed of crystalline/amorphous Ru-RuO₂ and Ni(OH)₂, mediated by polydopamine (PDA), for efficient hydrogen evolution reactions (HER) at high current densities. The PDA layer enhances the stability and conductivity of the catalyst, resulting in improved HER performance. The study showcases the catalyst’s potential for sustainable hydrogen production in alkaline media.

🏅 Suitability Summary for Best Researcher Award

Dr. Yanzhao Dong stands out as a top-tier researcher in the field of catalyst material design and heterogeneous catalysis 🔬⚛️. With a solid foundation from Tianjin University and advanced research during his postdoctoral tenure at Zhejiang University and Xinhecheng Co., Ltd. 🧪🏭, he has demonstrated excellence in both theoretical and applied chemical engineering. His work bridges laboratory innovation with industrial application, emphasizing sustainability and efficiency.

Conclusion:

Dr. Dong’s balance of scholarly productivity, technical innovation, and national-level engagement makes him a highly deserving candidate for the Best Researcher Award. His pioneering work not only contributes to scientific knowledge but also drives sustainable industrial transformation—perfectly aligning with the goals of such an honor. 🏆🌐