Ghezzar Mouffok Redouane | Industrial processes Intensification | Best Researcher Award

Posted on by ScienceFather

Prof. Ghezzar Mouffok Redouane | Industrial processes Intensification | Best Researcher Award

Dean of faculty of sciences and technology, University of Mostaganem, Algeria

GHEZZAR Mouffok Rédouane is a distinguished professor in chemical engineering with over 20 years of teaching experience at the University of Mostaganem, Algeria. He has contributed significantly to higher education in process engineering and environmental chemistry, specializing in areas such as thermodynamics, mass transfer, and industrial water treatment. Additionally, his research spans plasma technology, nanomaterials, and wastewater treatment. Having conducted research at Pierre and Marie Curie University in France, he has broadened his global academic footprint. Rédouane has been a consultant for international companies, notably in Spain. He is an expert in multiple scientific and environmental tools and software, with a focus on sustainable industrial processes. His published work in prestigious journals is widely cited, making him an influential figure in the field of chemical engineering and environmental science. 🌍💡📚

Profile

Google Scholar

Education

GHEZZAR Mouffok Rédouane completed his education in chemical engineering, which laid the foundation for his profound expertise in industrial processes and environmental sciences. He received his advanced degrees in Algeria, where he later became a professor at the University of Mostaganem. His academic career includes time spent at Pierre and Marie Curie University in France, which provided him exposure to cutting-edge research in chemical engineering. His education is complemented by certifications in HSE software, chromatographic techniques, and environmental impact assessment tools. Additionally, he has attended specialized training in water treatment processes, reactor design, and life cycle analysis (LCA). His strong academic background in these disciplines enables him to teach future engineers and lead research initiatives that solve real-world challenges in process intensification, water purification, and waste treatment. 🎓🔬📊

Experience

GHEZZAR Mouffok Rédouane has extensive experience as a Professor of Higher Education since 2001, teaching at the Faculty of Science and Technology at the University of Mostaganem, Algeria. His primary focus has been on chemical engineering, process design, and environmental sciences, where he has led courses in thermodynamics, mass transfer, and industrial water treatment. He has also worked as a Researcher at Pierre and Marie Curie University in France, contributing to projects that explore innovative technologies in plasma processes, wastewater treatment, and nanomaterials. His role as a freelance consultant with FENNECO SL in Spain has further enriched his expertise in the field. Over the years, Rédouane has applied his skills to real-world challenges, working closely with SONATRACH and other industry players to improve water treatment processes and industrial operations. His collaborative work in both academia and industry highlights his versatile and impactful career. 🏫🌐🔧

Research Focus

GHEZZAR Mouffok Rédouane’s research is focused on sustainable and efficient industrial processes. His work investigates process intensification, specifically using plasma technology for wastewater treatment, as well as other innovative methods for environmental remediation. He is particularly interested in water treatment processes for both domestic and industrial applications, emphasizing cost-effective and environmentally friendly solutions. Rédouane’s contributions in chemical engineering span a variety of areas, including mass and energy balances, polyphasic reactors, and bioreactor systems. His research also includes the development of low-cost adsorbents for removing pollutants from water, utilizing natural materials like Acacia saligna leaves. His academic articles often explore the degradation of toxic compounds through plasma-assisted processes, and he has collaborated on several projects aimed at reducing environmental impacts from industrial discharges. His work continues to inspire solutions for a cleaner, more sustainable future in the chemical engineering field. 🌱💧⚙️

Publication Top Notes

  • A novel approach of catechol production assisted by plasma process: Lab-scale experiment and modeling, commercial-scale design and economic evaluation
  • Acacia saligna leaves: a potential new low-cost adsorbent for removal of methylene blue from aqueous solutions
  • Assessment of the Sediments Contamination by Heavy Metals of the Cheliff River, Algeria
  • Bleaching and degradation of textile dyes by nonthermal plasma process at atmospheric pressure
  • Cadmium effect on optical properties of Cu2Zn1− xCdxSnS4 quinternary alloys nanostructures
  • Competitive Contribution of Catalyst and Adsorption Roles of TiO2 on the Degradation of AO7 Dye During Plasma Treatment
  • Complexation study of heavy metal ion Cu (II) with amino acids before elimination by ultrafiltration
  • Conception of a novel spray tower plasma-reactor in a spatial post-discharge configuration: pollutants remote treatment
  • Contribution à l’étude de la contamination des eaux et des sédiments de l’Oued Cheliff (Algérie)
  • DBDplate-TiO2 treatment of Yellow Tartrazine azo dye solution in falling film
  • Elimination of paracetamol from water by a spent coffee grounds biomaterial
  • Enhancement of the bleaching and degradation of textile wastewaters by Gliding arc discharge plasma in the presence of TiO2 catalyst
  • Gliding arc plasma assisted photocatalytic degradation of anthraquinonic acid green 25 in solution with TiO2
  • Hydrodynamics and mass transfer investigations in a biphasic plasma reactor
  • Initiation of Fenton process by plasma gliding arc discharge for the degradation of paracetamol in water
  • New prototype for the treatment of falling film liquid effluents by gliding arc discharge part I: application to the discoloration and degradation of anthraquinonic Acid Green 25
  • Plasma-catalytic degradation of anthraquinonic acid green 25 in solution by gliding arc discharge plasma in the presence of tin containing aluminophosphate molecular sieves
  • Plasma-catalytic removal of lead acetate assisted by precipitation
  • Rapid synthesis of ZnO nanoparticles via gliding arc discharge: unveiling the impact of discharge time on particle properties and photocatalytic performance
  • Treatment of leachate from municipal solid waste of Mostaganem district in Algeria: Decision support for advising a process treatment

 

 

SIMRAN KAUR DHILLON | Chemical and Environmental engineering | Best Researcher Award

Posted on by ScienceFather

Dr SIMRAN KAUR DHILLON | Chemical and Environmental engineering | Best Researcher Award

Postdoctoral Fellow, University of Alberta, Canada

Simran Kaur Dhillon is a dedicated researcher and academic based at the University of Alberta in Edmonton, Canada. With a focus on environmental sustainability and energy generation, she has made significant contributions to the field of microbial fuel cells and electrochemical sensors. Her innovative research combines cutting-edge technology with practical applications, aiming to enhance bioenergy generation and improve environmental monitoring. Dhillon’s work is characterized by her commitment to addressing critical environmental challenges, making her a valuable asset to the scientific community.

Profile

Google Scholar

Scopus

Strengths for the Award

Simran Kaur Dhillon has demonstrated significant contributions to the field of environmental science and bioenergy generation, with a particular focus on microbial fuel cells and electrochemical sensors. With 9 publications and a commendable citation count of 98, her research has made a measurable impact in her area of expertise. Dhillon’s work on innovative materials for enhancing the efficiency of microbial fuel cells showcases her ability to blend theoretical knowledge with practical applications. Furthermore, her recent publications in high-impact journals indicate her active engagement in cutting-edge research. Her collaborative spirit, evidenced by her numerous co-authored papers, reflects a commitment to advancing collective scientific knowledge.

Areas for Improvement

While Dhillon’s publication record is impressive, expanding her research scope to include more interdisciplinary studies could further enhance her impact. Additionally, increasing her outreach through presentations at more international conferences could elevate her visibility in the global research community. Engaging with more public-facing science communication initiatives would also help disseminate her findings beyond academic circles, fostering broader community awareness of her work.

Education

Simran Kaur Dhillon completed her undergraduate studies in Chemical Engineering at a prestigious institution, followed by a Master’s degree in Environmental Engineering. She is currently pursuing her Ph.D. at the University of Alberta, where her research centers on developing advanced materials for microbial fuel cells and their applications in renewable energy. Her educational background has provided her with a solid foundation in both theoretical knowledge and practical skills, enabling her to excel in her research endeavors.

Experience

Dhillon has gained extensive research experience through various academic and industry collaborations. She has worked on several projects focused on enhancing the efficiency of microbial fuel cells using innovative materials and methodologies. Her roles have included conducting experiments, analyzing data, and publishing her findings in reputable journals. In addition to her research, she is actively involved in mentoring undergraduate students and collaborating with peers on interdisciplinary projects, further enriching her professional experience.

Awards and Honors

Throughout her academic career, Simran Kaur Dhillon has received multiple awards and honors recognizing her outstanding research contributions. She was awarded a graduate research scholarship from the University of Alberta and received recognition for her publications in high-impact journals. Additionally, Dhillon has been invited to present her work at various national and international conferences, showcasing her commitment to advancing knowledge in her field.

Research Focus

Simran Kaur Dhillon’s research primarily focuses on microbial fuel cells, electrochemical sensors, and sustainable energy solutions. She investigates innovative materials to improve the efficiency and performance of bioenergy generation systems. Her work also explores the application of these technologies in environmental monitoring, particularly in detecting pollutants and enhancing water quality. Through her research, Dhillon aims to contribute to the development of sustainable energy solutions that address global environmental challenges.

Publication Top Notes

  1. Detecting naphthenic acids in oil sands process water with microbial electrochemical sensor: Impact of inoculum sources and quorum sensing autoinducer 🌊🔬
  2. Endothelial Cell-Derived Soluble CD200 Determines the Ability of Immune Cells to Cross the Blood–Brain Barrier 🧠💉
  3. Transition metal sulfide/oxide nanoflowers decorated on poly (aniline-2-sulfonic acid) modified polyacrylamide derived carbon cathode catalyst for bioenergy generation in microbial fuel cells ⚡🌱
  4. Functionalised graphite felt anodes for enhanced power generation in membrane-less soil microbial fuel cells 🌍⚙️
  5. Copper nanoparticles embedded in polyaniline derived nitrogen-doped carbon as electrocatalyst for bio-energy generation in microbial fuel cells 🔋🍃
  6. Magnesium Cobaltite Embedded in Corncob-Derived Nitrogen-Doped Carbon as a Cathode Catalyst for Power Generation in Microbial Fuel Cells 💡🌽
  7. 1-D semiconducting TiO2 nanotubes supported efficient bimetallic Co-Ni cathode catalysts for power generation in single-chambered air-breathing microbial fuel cells 🧪🔋
  8. Development of polypyrrole nanotube coated with chitosan and nickel oxide as a biocompatible anode to enhance the power generation in microbial fuel cell 🌱🔋
  9. Polyaniline interweaved iron embedded in urea–formaldehyde resin-based carbon as a cost-effective catalyst for power generation in microbial fuel cell 🌿⚙️

Conclusion

In conclusion, Simran Kaur Dhillon is a strong candidate for the Research for Best Researcher Award due to her innovative contributions to environmental research, her active participation in scientific discourse, and her collaborative approach. By addressing areas for improvement, she can further amplify her impact in the field, making her a promising choice for recognition in this competitive arena. Her research not only advances scientific understanding but also contributes to sustainable solutions for pressing environmental challenges.

Atıf Koca – Chemical Engeneering – Best Researcher Award

Posted on by ScienceFather

Atıf Koca - Chemical Engeneering - Best Researcher Award

MARMARA UNIVERSITY - Turkey

AUTHOR PROFILE

SCOPUS

LEADING CHEMICAL ENGINEER 🔬

Atıf Koca is a distinguished full professor of Chemical Engineering at Marmara University and serves as the Director of the Electrochemical Technologies and Energy Laboratory. His expertise has earned him a position as a member of the Turkish Academy of Sciences, reflecting his significant contributions to the field. He is renowned for his groundbreaking research in renewable energy and electrochemical technologies, which have made a lasting impact on the scientific community.

RESEARCH PIONEER IN RENEWABLE ENERGY 🌱

Atıf has authored and co-authored over two thousand refereed journal and conference papers, showcasing his extensive research output. His work primarily focuses on hydrogen energy, catalytic processes, and electrochemical technologies. Through his innovative approaches, Atıf's research group has developed various novel technologies that contribute to advancements in these critical areas of renewable energy.

CHAIR OF CONFERENCES 🏛️

Throughout his career, Atıf has actively chaired numerous national and international conferences, symposia, workshops, and technical meetings. These events have served as platforms for sharing knowledge and fostering collaboration among researchers and industry professionals. His leadership in organizing these gatherings highlights his commitment to promoting scientific dialogue and advancing the field of chemical engineering.

DOCTORATE IN PHYSICOCHEMISTRY 🎓

Atıf earned his doctorate from Marmara University, where he conducted a volammetric investigation of porphyrazine complexes. His academic journey also includes a postgraduate degree focused on hydrogen production and its applications as fuel. This solid educational foundation has equipped him with the skills and knowledge necessary to tackle complex challenges in his field.

INNOVATIVE PROJECTS AND GRANTS 💡

He has led various research projects supported by higher education institutions and TÜBİTAK, focusing on cutting-edge technologies like selective fluoride sensors, photocatalytic hydrogen production, and supercapacitor development. His work has not only advanced theoretical understanding but also led to practical applications that enhance energy efficiency and sustainability.

COLLABORATIVE RESEARCH EFFORTS 🤝

Atıf collaborates extensively with other researchers and institutions to explore new avenues in electrochemical applications. His projects, such as the synthesis of conductive electroactive polymers and their usability for metallization of plastics, exemplify his commitment to interdisciplinary research. These efforts aim to address real-world problems and contribute to the development of innovative solutions.

MENTOR AND EDUCATOR 📚

As a professor, Atıf Koca is dedicated to mentoring the next generation of engineers and scientists. His commitment to education extends beyond research, as he actively engages with students to inspire and guide them in their academic pursuits. Through his teaching, he aims to instill a strong foundation in chemical engineering principles while encouraging creativity and innovation among his students.

NOTABLE PUBLICATION

Title: Schiff base substituted non-peripheral symmetrical cupper, cobalt, and manganese phthalocyanines: Synthesis, design, electrochemistry, and spectroelectrochemistry
Authors: Yalazan, H., Kurtuluş, Z., Koca, A., Kantekin, H.
Journal: Journal of Molecular Structure
Year: 2025

Title: Selective and sensitive molecularly imprinted polymer-based electrochemical sensor for detection of deltamethrin
Authors: Mutlu, E., Şenocak, A., Demirbaş, E., Koca, A., Akyüz, D.
Journal: Food Chemistry
Year: 2025

Title: Structural insights and photophysical properties of mononuclear and pentanuclear Zn(II) acetate complexes with pyridyl-based thiazolyl-hydrazones
Authors: Araškov, J.B., Garcia-Sosa, A.T., Višnjevac, A., Todorović, T.R., Filipović, N.R.
Journal: Polyhedron
Year: 2024

Title: Electrode modifications with electrophoretic deposition methods for water electrolyzers
Authors: Turan, R., Bilgen, E., Koca, A.
Journal: International Journal of Hydrogen Energy
Year: 2024

Title: Metal Phthalocyanine Sensitized Photoelectrochemical Cell Assembling with Azide-Functionalized Reduced Graphene and Quaternary Metal Chalcogenide Composites
Authors: Ezgi Varol, D., Uğuz Neli, Ö., Budak, Ö., Keskin, B., Koca, A.
Journal: ChemElectroChem
Year: 2024