Togue Kamga Fulbert – Reactive Transfers in Porous Media – Excellence in Research

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Prof. Togue Kamga Fulbert - Reactive Transfers in Porous Media - Excellence in Research 

University of Douala - Cameroon

Author Profile

Orcid

🎓 Early Academic Pursuits

Prof. Fulbert Togue Kamga embarked on a remarkable academic journey that laid the foundation for his expertise in physics, environmental science, and water resources management. He pursued a Bachelor’s degree in Physics at the University of Yaoundé I in 2001, followed by a Master’s in Physics with a specialization in External Geophysics. His pursuit of knowledge continued with multiple master’s degrees in Atmospheric Physics, Linguistics, Logic, and Computer Science, as well as a Professional Master’s degree in Instrumentation, Systems, Networks, and Communication (ISARC) from the University of Provence, France. He later achieved a Ph.D. in Physics, specializing in External Geophysics, from the University of Yaoundé I in 2013, graduating with the prestigious Very Honorable Mention. His early education reflects his broad and multidisciplinary approach to academic and scientific endeavors.

💼 Professional Endeavors

Prof. Togue Kamga's professional career is distinguished by his academic and pedagogical contributions. He began his teaching career in 2004 at the University of Yaoundé I, later moving to the Institute of Fisheries Sciences at the University of Douala, where he served as a Lecturer and Assistant in the Department of Oceanography. Over the years, Prof. Kamga has focused on teaching courses such as Applied Physics, Environmental Biophysics, Physical Oceanography, and Aquaculture Hydraulics, blending theoretical knowledge with practical applications. His extensive involvement in international conferences and workshops showcases his commitment to the dissemination of knowledge and scientific collaboration.

🔬 Contributions and Research Focus

Prof. Kamga’s research primarily revolves around the concept of Reactive transport in porous media, which has critical applications in water treatment technologies, environmental science, and resource management. His work in this domain addresses various aspects of Reactive transport in porous media, including the modeling and numerical simulation of filtration systems, particularly focusing on iron-sand barriers for drinking water purification. His research also extends to the study of water resources, pollution dynamics, and the modeling of contaminant transport and aquifer remediation, with a particular focus on sustainable and low-cost technologies for water treatment. Prof. Kamga's work in Reactive transport in porous media has provided valuable insights into how contaminants move through porous structures, which is crucial for environmental remediation and public health.

🌍 Impact and Influence

Prof. Togue Kamga’s influence extends well beyond his home institution. His contributions to Reactive transport in porous media have made a significant impact on the global scientific community, particularly in water resources and environmental pollution management. Through his leadership in international projects such as the RAF 7018 project, funded by the International Atomic Energy Agency (IAEA), and his coordination of scientific conferences, Prof. Kamga has shaped the direction of research in water treatment and resource management. His work is recognized by peers, and his influence extends into the policy-making realm, especially regarding sustainable water practices.

🏆Academic Cites

Prof. Kamga's research has been cited extensively in various academic journals, highlighting the global relevance and importance of his work. His studies on Reactive transport in porous media are frequently referenced by researchers working on water filtration, environmental remediation, and pollution control. The significant number of citations speaks to the academic rigor and impact of his research contributions, particularly in the realm of sustainable water solutions and environmental modeling.

🌟 Legacy and Future Contributions

Prof. Fulbert Togue Kamga’s legacy is firmly rooted in his groundbreaking work on Reactive transport in porous media and its applications to water resources management and pollution control. His future contributions are expected to continue advancing these areas, with an emphasis on improving water treatment technologies and developing more efficient methods for contaminant remediation. As an academic and mentor, Prof. Kamga is poised to inspire and guide the next generation of researchers and practitioners in the environmental sciences. His continued research in Reactive transport in porous media promises to contribute further to the development of sustainable solutions to global water challenges, making him a key figure in the future of environmental science and engineering.

📝Reactive Transfers in Porous Media

Prof. Togue Kamga’s extensive body of research in Reactive transport in porous media is a cornerstone of his academic contributions. His focus on Reactive transport in porous media has provided invaluable insights into the complex dynamics of water filtration systems, environmental contamination, and remediation. As he continues to explore the challenges of Reactive transport in porous media, Prof. Kamga remains a pivotal figure in shaping the future of environmental management and sustainable water treatment technologies.

Notable Publication

📝Effects of the injection radius and varying velocity on solute transport in a finite porous medium with radial geometry

Journal: Sādhanā

Date: March 25, 2024

Authors: Achille Stéphane Ngomyap Nganso, Fulbert Kamga Togue, César Biouele Mbane

📝Analysis of the importance of the dispersion coefficient depending on the distance for the transport of solute in porous media

Year: 2022

Author: Fulbert Togue Kamga

📝Dispersion of pollutants in a porous medium with finite thickness and variable dispersion coefficients

Journal: Heliyon

Date: August 2022

Authors: Calvia Yonti Madie, Fulbert Kamga Togue, Paul Woafo

📝Numerical solution of the Burgers equation associated with the phenomena of longitudinal dispersion depending on time

Journal: Heliyon

Date: July 2022

Authors: Calvia Yonti Madie, Fulbert Kamga Togue, Paul Woafo

📝Modelling Adsorption and Transport of Chrome VI onto Iron Oxide-Coated Sand Filter

Journal: International Journal of Environment, Agriculture and Biotechnology (IJEAB)

Year: 2019

Masoud Shahrokhi | Physical Chemistry | Best Researcher Award

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Dr. Masoud Shahrokhi | Physical Chemistry | Best Researcher Award 

Institut Charles Gerhardt Montpellier | France

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Masoud Shahrokhi's academic journey began with a Bachelor of Science (B.Sc.) in Physics, which he completed in 2007 with a GPA of 17.05 out of 20. He pursued his Master of Science (M.Sc.) in Condensed Matter Physics from 2008 to 2011, focusing on the investigation of magnetic and electric properties of halfmetal MnAs in the interface of MnAs/GaSb and InP nanolayers. His impressive GPA of 18.26 out of 20 reflects his dedication and academic excellence. Dr. Shahrokhi continued to excel in his Ph.D. in Condensed Matter Physics, which he completed from 2011 to 2014, with a thesis on Zinc oxide and Beryllium oxide Nanostructures, achieving an outstanding GPA of 19.68 out of 20.

PROFESSIONAL ENDEAVORS

Dr. Shahrokhi has accumulated extensive experience through various prestigious research positions. He is currently a Research Associate at ICGM, University of Montpellier, France, where he works on supported catalytically active liquid metal solutions (SCALMS) using AIMD and DFT. Previously, he served as a Postdoctoral Researcher at IFP Energies nouvelles in Lyon, France, focusing on the reactivity of supported platinum-based nanoclusters investigated by DFT. His other notable roles include postdoctoral research positions at École normale supérieure de Lyon, Razi University, Institut Català d’Investigació Química (ICIQ) in Spain, and University of Paris-Est, Paris. His research at these institutions involved predicting the optoelectronic properties of 2D and 3D layered materials, novel optoelectronic 2D materials, catalytic materials, and multiscale chemo-mechanical modeling of graphene-coated materials.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Shahrokhi's research contributions are significant and diverse, primarily focusing on the electronic structures of nanomaterials (metal clusters, surfaces) and their catalytic and thermodynamic properties. His expertise extends to the evolution of model catalysts at finite temperatures and reactive gas studies using advanced theoretical methods. His research also delves into reactivity in catalysis and photocatalysis, particularly excited state studies. His notable work in Physical Chemistry has been pivotal in advancing the understanding of material properties and their applications in various fields.

IMPACT AND INFLUENCE

Dr. Shahrokhi's impact on the scientific community is profound, as evidenced by his inclusion in the World Ranking of Top 2% Scientists (2021-2023) by the Elsevier Data Repository. His contributions to Physical Chemistry and material science have been recognized through various awards, including the National Elite Foundation Award of Iran and the Marie Curie–COFUND fellowship at ICIQ, Spain. His research findings have been widely cited, reflecting the high relevance and influence of his work.

ACADEMIC CITATIONS

Dr. Shahrokhi's work has been extensively cited in academic journals, highlighting the significance of his contributions to Physical Chemistry and computational material science. He has served as a journal referee for numerous prestigious journals, including Carbon, Applied Surface Science, Journal of Materials Chemistry C, Surface Science, and many others, further establishing his authority and expertise in the field.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Shahrokhi's legacy in the field of computational material science is marked by his innovative research and significant contributions to Physical Chemistry. His future contributions are expected to continue bridging academia and industry, leveraging his expertise in multiscale modeling and theoretical methods to drive impactful advancements in material science. As a versatile Ph.D. in computational material science, Dr. Shahrokhi's work will undoubtedly continue to influence and inspire future research and applications in the field.

PHYSICAL CHEMISTRY 

Dr. Shahrokhi's research prominently features the keywords Physical Chemistry, electronic structures, nanomaterials, catalytic properties, and thermodynamic properties. His work in Physical Chemistry explores the intricate details of material behavior at the nanoscale, providing valuable insights into their potential applications in catalysis and other fields. The integration of these keywords in his research underscores the depth and breadth of his expertise, cementing his contributions to the advancement of Physical Chemistry and material science.

NOTABLE PUBLICATION