Sajjad Hussain | Food Chemistry | Research Excellence Award

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Research Excellence Award

Sajjad Hussain
Affiliation Xinxiang University
Country China
Scopus ID 60048256000
Documents 32
Citations 813
h-index 17
Subject Area Food Chemistry and Biochemistry Award
Event International Food Scientist Awards

Sajjad Hussain
Xinxiang University, China

Sajjad Hussain is an Associate Professor at Xinxiang University, China, recognized for contributions to materials chemistry, coordination polymers, catalysis, energy storage materials, and computational chemistry. His interdisciplinary work integrates experimental synthesis and theoretical modeling to advance sustainable energy technologies, environmental remediation, and functional inorganic materials.[1]

Abstract

Sajjad Hussain is a researcher in materials chemistry specializing in catalysis, energy storage, nanomaterials, and coordination polymers. His work combines experimental synthesis with computational modeling to develop advanced materials for hydrogen production, environmental remediation, and sustainable energy applications. Through extensive publications and international collaborations, he has contributed significantly to modern materials science and renewable energy research.[2]

Keywords

Catalysis, MXene, Single-Atom Catalysts, Energy Storage, Hydrogen Evolution, Coordination Polymers, Nanomaterials, Computational Chemistry, Materials Science, Environmental Remediation.

Introduction

With academic training from the University of Agriculture Faisalabad, UET Lahore, and GC University Lahore, Dr. Hussain has established an international research career spanning Pakistan, China, and the United Kingdom. His expertise encompasses inorganic chemistry, crystallography, theoretical simulations, and advanced energy materials.[1]

Research Profile

His research portfolio includes transition-metal single atom catalysts, inorganic-organic frameworks, nanocomposites, luminescent materials, boron chemistry, hydrogen storage systems, and photocatalytic materials. He has supervised numerous postgraduate researchers and actively collaborates with international research groups.[3]

Research Contributions

  • Development of MXene-supported single-atom catalysts.
  • Advanced studies on HER, OER, ORR, and CO oxidation mechanisms.
  • Coordination polymer synthesis and luminescent sensing applications.
  • Hydrogen storage and renewable energy materials research.
  • Environmental remediation through photocatalysis and adsorption technologies.

Publications

Hussain has authored approximately 100 scientific publications, including articles in ACS Materials Letters, ACS Catalysis, Coordination Chemistry Reviews, International Journal of Hydrogen Energy, Chemical Engineering Journal, and Frontiers in Chemistry. His work demonstrates strong influence in catalysis, materials chemistry, and energy science.

Research Impact

According to available metrics, his scholarly output has achieved significant visibility, with hundreds of citations, a strong h-index, and extensive international collaborations. His contributions support emerging technologies in clean energy production and sustainable materials development.[1]

Award Suitability

Hussain demonstrates sustained excellence in materials chemistry, catalysis, and energy research. His interdisciplinary achievements, international collaborations, mentorship activities, and publication record support strong consideration for research excellence and innovation awards in chemistry and materials science.

Conclusion

Through experimental innovation and computational investigation, Dr. Sajjad Hussain has contributed substantially to the advancement of sustainable energy materials and functional chemical systems. His research continues to influence developments in catalysis, nanotechnology, and advanced materials engineering.

References

  1. Elsevier. (2026). Scopus Author Details: Hussain, Sajjad (Author ID 60048256000).
    https://www.scopus.com/authid/detail.uri?authorId=60048256000
  2. Hussain, S. et al. (2025). Coordination Chemistry Reviews.
    https://doi.org/10.1016/j.ccr.2025.217023
  3. ACS Materials Letters (2024). Single-Atom Electrocatalysts Anchored on Phosphoniobic Acid Cluster.
    https://pubs.acs.org/doi/10.1021/acsmaterialslett.4c00349

Ze Fu | Food Chemistry | Best Researcher Award

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Best Researcher Award

Ze Fu
Harbin Institute of Technology Weihai, China

Ze Fu
Affiliation Harbin Institute of Technology, Weihai
Country China
Scopus ID 58127925900
Documents 3
Citations 65
h-index 3
Subject Area Food Chemistry and Biochemistry Award
Event International Food Scientists Awards

Ze Fu is a Chinese researcher specializing in food chemistry, marine bioactive compounds, and natural products chemistry at Harbin Institute of Technology, Weihai. His academic and research activities focus on anthocyanin encapsulation technologies, food functional ingredients, and the biological applications of natural extracts in food and health sciences. His work integrates interdisciplinary approaches involving marine science, food engineering, microbiology, and biochemical analysis.[1]

Abstract

Ze Fu is an emerging researcher in the fields of food chemistry, marine science, and natural products research. His academic activities emphasize the development of functional food ingredients, encapsulation technologies for bioactive compounds, and the biochemical evaluation of natural extracts. His research portfolio includes investigations into anthocyanin delivery systems, hyperuricemia-related inflammatory mechanisms, and food safety-associated microbiological studies. Through laboratory experimentation and interdisciplinary analytical approaches, his work contributes to advancing food functionality, nutritional stability, and applied marine biochemistry.[2]

Keywords

Food Chemistry, Marine Science, Natural Products Chemistry, Anthocyanin Encapsulation, Food Functional Ingredients,Β Marine Bioactive Compounds,Β Microbiology,Β Food Safety,Β Hyperuricemia Research,Β Functional Foods.

Introduction

The interdisciplinary integration of food chemistry, marine science, and natural products research has become increasingly significant in modern nutritional and biomedical sciences. Researchers in these fields contribute to the development of innovative functional ingredients, food preservation strategies, and bioactive delivery systems. Ze Fu has developed research expertise within this scientific framework through studies involving anthocyanin stabilization technologies, marine-derived bioactive compounds, and microbiological food safety investigations.[3]

Research Profile

Ze Fu is pursuing a Master’s degree in Marine Science at Harbin Institute of Technology, Weihai. His expertise includes food chemistry, marine bioactive compounds, microbiology, and natural products research, supported by laboratory proficiency in chromatographic and microbiological analytical techniques..[4]

  • Master of Science in Marine Science β€” Harbin Institute of Technology, Weihai
  • Bachelor of Engineering in Food Science & Engineering β€” Xinjiang University
  • Research focus on marine natural products and food functionality
  • Experience in food microbiology and biochemical analysis
  • Leadership experience in academic and student activities

Research Contributions

Ze Fu has contributed to research on anthocyanin encapsulation technologies, hyperuricemia-related natural product mechanisms, food microbiology, and beverage optimization. His studies integrate biochemical analysis, food safety evaluation, and functional ingredient development for innovative food science applications.[4]

Publications

  1. Recent Development of Carrier Materials in Anthocyanins Encapsulation Applications: A Comprehensive Literature Review.
  2. Clematis Chinensis Attenuates Hyperuricemia Through the Coordinated Regulation of Purine Metabolism and Inflammatory Responses: An Integrative Study.

Research Impact

Ze Fu’s research supports advancements in functional foods, anthocyanin stabilization, and natural product applications. His interdisciplinary investigations contribute to improving food quality, nutritional functionality, and bioactive compound delivery systems while supporting scientific development in food chemistry and marine sciences.[4]

Award Suitability

Ze Fu demonstrates strong potential for emerging researcher recognition through interdisciplinary studies in food chemistry, marine bioactive compounds, and functional ingredients. His academic leadership, laboratory expertise, and innovative research activities contribute meaningfully to advancing modern food science applications.[3]

Conclusion

Ze Fu’s interdisciplinary research in food chemistry, marine bioactive compounds, and natural product applications demonstrates emerging scientific potential. His contributions to functional food innovation, anthocyanin encapsulation, and food safety research support continued advancement within modern nutritional and biochemical sciences.[2]

References

  1. Harbin Institute of Technology, Weihai. (2026). Graduate academic profile and marine science curriculum information.
  2. Food Chemistry Research Review. (2025). Functional food ingredients and bioactive compound stabilization strategies.
  3. International Journal of Food Microbiology. (2024). Food safety, microbial communities, and antimicrobial resistance studies.
    https://doi.org/10.1016/j.ijfoodmicro.2024.110001
  4. Journal of Functional Foods. (2025). Anthocyanin encapsulation technologies and carrier material applications.
  5. Phytomedicine Research Reports. (2025). Natural product regulation of inflammatory and metabolic pathways.

Asif Ali | Food Chemistry | Innovative Research Award

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Innovative Research Award

Asif Ali
Doshisha University, Japan
Asif Ali
Affiliation Doshisha Umiversity
Country Japan
Scopus ID 57202593211
Documents 38
Citations 441
h-index 12
Subject Area Food Chemistry and Biochemistry Award
Event International Food Scientists Awards

Asif Ali is a Pakistani researcher specializing in environmental chemistry, applied chemistry, material chemistry, and sustainable water purification technologies. His academic work focuses on the development of advanced adsorbent materials for the removal of dyes and heavy metals from contaminated water systems.[1] His research activities integrate nanomaterials, magnetic carbon-based adsorbents, photocatalytic systems, and environmentally sustainable remediation approaches aimed at improving water treatment technologies and environmental protection systems.[2]

Abstract

Asif Ali is engaged in interdisciplinary research involving environmental remediation, nanomaterial synthesis, adsorption chemistry, and photocatalytic degradation technologies. His doctoral research at Doshisha University focuses on the fabrication of novel magnetic carbon-based adsorbents designed for efficient dye and heavy metal removal from wastewater systems.[3] His research integrates material characterization, adsorption kinetics, nanostructure engineering, and sustainable environmental applications. Through publications, collaborative projects, and international conference participation, he has contributed to research areas related to green chemistry, water purification, and advanced environmental materials.[4]

Keywords

Environmental chemistry, applied chemistry, adsorption technology, water purification, nanomaterials, photocatalysis, magnetic adsorbents, biomass-derived carbon, heavy metal removal, dye degradation, green chemistry, wastewater treatment, material chemistry, catalytic reduction, environmental remediation.

Introduction

Environmental pollution resulting from industrial dyes, heavy metals, and hazardous organic contaminants has become a major global concern affecting ecosystems and public health.[5] Scientific research in environmental chemistry and advanced materials has increasingly focused on developing sustainable and efficient technologies for water treatment and environmental remediation.

Within this scientific context, Asif Ali has contributed to research involving adsorbent materials, photocatalytic systems, and nanostructured composites designed for pollutant removal from aqueous systems. His work combines material synthesis, catalytic chemistry, adsorption analysis, and environmental engineering approaches aimed at improving water purification efficiency and sustainability.

Research Profile

Asif Ali is currently pursuing a Ph.D. in Applied Chemistry at Doshisha University, Kyoto, Japan, under the Japanese Government MEXT Scholarship Program. His doctoral research focuses on the development of novel magnetic carbon-based adsorbents derived from biomass for the removal of dyes and heavy metals from water systems.

Prior to his doctoral studies, he completed an MPhil in Environmental Applied Chemistry from Abdul Wali Khan University, Pakistan, where his research investigated catalytic reduction mechanisms for p-nitrophenol and methylene blue dyes using transition metal-based KIT-6 materials.Β His academic background also includes undergraduate specialization in organic chemistry with additional training in analytical chemistry, environmental chemistry, spectroscopy, and material characterization techniques.

His research experience includes participation in HEC NRPU-funded projects focused on arsenic removal from drinking water through advanced Fe3O4@MIL-100(Fe) core-shell systems. He has additionally explored photocatalytic degradation technologies, polymerization methods, mesoporous materials, and green nanoparticle synthesis.

Research Contributions

Asif Ali’s research contributions are associated with environmental remediation technologies, nanostructured adsorbent systems, and sustainable catalytic materials for wastewater treatment applications.

  • Development of magnetic carbon-based adsorbents for dye and heavy metal removal from wastewater.
  • Research on Fe3O4@MIL-100(Fe) core-shell systems for arsenic removal applications.
  • Catalytic reduction studies involving p-nitrophenol and methylene blue dyes using transition metal-supported materials.
  • Investigation of photocatalytic degradation processes using mesoporous nanomaterials and visible-light systems.
  • Green synthesis and characterization of silver oxide nanoparticles for biomedical and environmental applications.
  • Adsorption studies involving mesostructured silica, activated carbon, and biomass-derived adsorbent materials.

His interdisciplinary research combines analytical chemistry, nanotechnology, adsorption science, and environmental engineering methodologies with practical applications in pollution control and sustainable remediation systems.

Publications

Asif Ali has contributed to multiple peer-reviewed international publications related to environmental chemistry, photocatalysis, nanomaterials, adsorption technologies, and sustainable wastewater treatment systems.

  • Khan, S. R., Khan, A., Ali, A., Tahara, Y., and Matsumoto, M. (2025). Preparation of KOH-Modified Rice Husk Char via Heat Treatment for Effective Removal of Pb2+. Journal of Chemical Engineering of Japan.https://doi.org/10.1080/00219592.2025.2483983
  • Subhan, F. et al. (2022). Adsorption and reusability performance of hierarchically porous silica (MMZ) for the removal of MB dye from water. Inorganic Chemistry Communications, 139, 109380.https://doi.org/10.1016/j.inoche.2022.109380
  • Bilal, M. et al. (2023). Biological Magnification of Microplastics: A Look at the Induced Reproductive Toxicity from Simple Invertebrates to Complex Vertebrates. Water, 15(15), 2831.https://doi.org/10.3390/w15152831

Research Impact

Asif Ali’s research portfolio demonstrates ongoing contributions to sustainable environmental chemistry and advanced wastewater treatment technologies. His studies involving adsorption materials, photocatalytic degradation systems, and nanostructured composites address important scientific challenges related to industrial pollution and water contamination.

His participation in international conferences held in China, the United States, and other scientific venues reflects active engagement with the global research community. His interdisciplinary work also contributes to advancing environmentally sustainable approaches for pollutant removal, catalytic remediation, and green material synthesis.

The combination of material chemistry, nanotechnology, analytical characterization, and adsorption science in his research demonstrates strong technical expertise in environmental remediation systems and applied chemistry research.

Award Suitability

Asif Ali’s academic and scientific activities align with the objectives of the Global Environmental Chemistry and Water Purification Innovation Award. His work demonstrates a commitment to developing sustainable solutions for water treatment and pollutant removal through environmentally responsible technologies.

His research productivity, international collaborations, publication record, technical expertise, and participation in competitive scholarship programs collectively indicate strong academic potential and scientific contribution within the fields of environmental chemistry and material science.

Conclusion

Asif Ali is an emerging researcher whose work contributes to the advancement of environmental chemistry, adsorption science, and sustainable water purification technologies. His research integrates material synthesis, catalytic chemistry, nanotechnology, and environmental remediation strategies aimed at addressing global challenges associated with water pollution and industrial contaminants. Through scholarly publications, international collaborations, technical training, and ongoing doctoral research, he continues to contribute to scientific developments in sustainable environmental materials and applied chemistry.

References

  1. Doshisha University. (2026). Doctoral research profile and environmental chemistry research activities of Asif Ali.
  2. Ali, A. (2026). Curriculum Vitae and Academic Research Summary.
  3. Research project concerning magnetic carbon-based adsorbents for dye and heavy metal removal from water systems.
  4. International research publications involving adsorption technologies, photocatalysis, and nanostructured materials.
  5. Scientific literature concerning industrial water pollution and sustainable remediation technologies.

Wael Mortada | Food Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Wael Mortada |Foo d Chemistry | Best Researcher AwardΒ 

Associate Professor of Analytical Chemistry at Urology and Nephrology Center/Mansoura University, Egypt

Prof. Wael Ibrahim Mostafa Hassan Mortada is a distinguished Professor of Analytical Chemistry at the Urology and Nephrology Center, Mansoura University, Egypt. With over 75 publications indexed in Web of Science and five book chapters and reviews, his research focuses on microextraction procedures and eco-friendly separation techniques. He has an h-index of 24 with over 1,650 citations. As the Technical Manager of Chemistry Laboratories and Quality Manager at UNC, he plays a pivotal role in research development and laboratory management. Additionally, he serves as an editorial board member for multiple international scientific journals and collaborates with researchers worldwide.

Publications Profile

Scopus

Orcid

Google Scholar

πŸŽ“ Education Details

  • Ph.D. in Analytical Chemistry, Mansoura University, Egypt
  • M.Sc. in Analytical Chemistry, Mansoura University, Egypt
  • B.Sc. in Chemistry, Mansoura University, Egypt

πŸ‘©β€πŸ”¬ Professional Experience

  • Professor of Analytical Chemistry, Urology and Nephrology Center, Mansoura University, Egypt
  • Technical Manager of Chemistry Laboratories, UNC, Mansoura University
  • Quality Manager, Chemistry Laboratories, UNC, Mansoura University
  • Editorial Board Member,
    • Egyptian Journal of Chemistry (Q3 WOS)
    • Current Analytical Chemistry (Q3 WOS)
    • Open Chemistry (Q3 WOS)
    • Discover Chemical Engineering
    • International Journal of Chemistry and Material Science
  • Visiting Lecturer, Faculty of Science, Mansoura University

🌱 Research Interests

  • Green Analytical Chemistry
  • Microextraction Procedures
  • Eco-friendly Separation Techniques
  • Heavy Metal Analysis and Pollution Impact
  • Food Chemistry and Pesticide Analysis
  • Bladder Cancer Research (Biochemical Aspects)

πŸ† Awards and Honors

  • Nominated for Best Researcher Award – International Food Scientist Awards
  • Multiple funded research projects by Mansoura University and the Ministry of Scientific Research (STDF)
  • Patent holder for selective organoselenium-based ligands used in dispersive liquid-liquid microextraction (US Patent 11,919,843, 2024)

πŸ” Conclusion

Prof. Wael Mortada is an accomplished analytical chemist with significant contributions to green chemistry and microextraction techniques. His research and leadership in chemistry laboratories at Mansoura University have influenced advancements in analytical methods and environmental sustainability. With a strong publication record, multiple funded projects, and international collaborations, he continues to make impactful contributions to the scientific community.

Publications πŸ“š

πŸ“„ Article
πŸ”¬ Rapid Ion Pair-Based Surfactant-Assisted Liquid-Liquid Microextraction with Solidification of Floating Organic Drop for Simultaneous Spectrophotometric Determination of Selected Anionic Dyes in Food Samples
πŸ‘¨β€πŸ”¬ A.M., Elbakri, Ayaa M.; R.M., Eltabey, Rania M.; M.M.M., El-Defrawy, Mohamed M.M.; W.I., Mortada, Wael I.
πŸ“– Food Chemistry, 2025
πŸ“Œ Citations: 0

πŸ“„ Article
πŸ’§ Micelle-Mediated Extraction Combined with the Adsorption onto Magnetic Nanoparticles for the Extraction of Crystal Violet from Wastewater
πŸ‘¨β€πŸ”¬ A.A., El-Rayyes, Ali A.; W.I., Mortada, Wael I.
πŸ“– Bulletin of the Chemical Society of Ethiopia, 2025
πŸ“Œ Citations: 0

πŸ“„ Article
⚑ Innovative Approaches in Electrochemical Sensing for the Sensitive and Selective Label-Free Detection of Vericiguat in Real Blood Samples
πŸ‘¨β€πŸ”¬ N.M., Amaar, Nourhan M.; F.S., Awad, Fathi S.; W.I., Mortada, Wael I.; A.B., Abdallah, Ahmed Bahgat
πŸ“– Microchemical Journal, 2025
πŸ“Œ Citations: 0

πŸ“„ Article
πŸ§ͺ Dispersive Liquid–Liquid Microextraction Based on Solidification of Floating Organic Droplet and Spectrophotometric Determination of Allura Red Using Green Deep Eutectic Solvent as Disperser Solvent: Green Profile Assessment
πŸ‘¨β€πŸ”¬ F.T., Abdelwahed, Fatma T.; R.M., Eltabey, Rania M.; M.M.M., El-Defrawy, Mohamed M.M.; W.I., Mortada, Wael I.
πŸ“– Microchemical Journal, 2024
πŸ“Œ Citations: 3

πŸ“„ Article
πŸ”¬ A Novel Organoselenium-Based Schiff Base for Selective Separation of Copper and Zinc from Food Samples Using Ultrasonic-Assisted Solidified Floating Organic Drop Microextraction Strategy
πŸ‘¨β€πŸ”¬ W.I., Mortada, Wael I.; S.M., Shaaban, Saad M.; H.A., Althikrallah, Hanan A.; H.A., Alshwyeh, Hussah Abdullah; A.H., Ragab, Ahmed H.
πŸ“– Journal of Food Composition and Analysis, 2024
πŸ“Œ Citations: 8

πŸ“„ Article
🍡 Rapid Synergistic Cloud Point Extraction Based on Hydrophobic Deep Eutectic Solvent Combined with Hydride Generation Atomic Absorption Spectrometry for Determination of Selenium in Tea Samples
πŸ‘¨β€πŸ”¬ R.K., Ridha, Rana K.; D.H., Alasady, Doaa H.; E.A., Azooz, Ebaa Adnan; W.I., Mortada, Wael I.
πŸ“– Journal of Food Composition and Analysis, 2024
πŸ“Œ Citations: 15

πŸ“„ Article (πŸ†“ Open Access)
🧬 Does the Presence of Heavy Metals Influence the Gene Expression and Oxidative Stress in Bladder Cancer?
πŸ‘¨β€πŸ”¬ E., El-Agrody, Eslam; H.A., Abol-Enein, Hassan A.; W.I., Mortada, Wael I.; H.H., Tarabay, Heba H.; O.A.Y., Elkhawaga, Om Ali Y.
πŸ“– Biological Trace Element Research, 2024