Serge Mbokou Foukmeniok | Chemistry | Best Researcher Award

Published on by Phenomenological Research Awards

Dr. Serge Mbokou Foukmeniok | Chemistry | Best Researcher Award 

Research Engineer at Université d’Angers | France 

Dr. Serge Mbokou Foukmeniok is a distinguished research engineer at the University of Angers, France, specializing in electroanalytical chemistry. His professional journey reflects deep expertise in developing advanced electrochemical sensors aimed at detecting and monitoring organic pollutants and heavy metals in diverse environmental matrices. He has contributed significantly to projects that address critical issues of food safety, environmental monitoring, and public health. Dr. Serge Mbokou Foukmeniok’s career is marked by strong interdisciplinary collaborations with universities, research institutes, and industry. His innovative contributions, including sensor development and bioelectrochemical applications, highlight his commitment to sustainable science and practical solutions for environmental challenges.

Profile:

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Education:

Dr. Serge Mbokou Foukmeniok pursued his academic path in chemistry with a strong specialization in analytical and electroanalytical techniques. His doctoral training equipped him with advanced knowledge in chromatographic methods such as HPLC and GC-MS, which became foundational to his career. During his education, he built a strong interdisciplinary background, linking chemistry with biological and environmental sciences. This academic preparation allowed him to establish expertise in designing novel electrochemical systems, combining theory with real-world applications. His education emphasized rigorous scientific training, critical thinking, and problem-solving, ultimately shaping him into a versatile researcher capable of addressing complex global scientific challenges.

Experience:

Dr. Serge Mbokou Foukmeniok has accumulated rich professional experience across multiple research domains. He worked extensively on food safety, applying chromatographic techniques to detect pesticide and antibiotic residues in agricultural and environmental samples. His career also involved pioneering work on biodegradation of pesticides using Black Soldier Fly larvae, offering sustainable solutions for animal nutrition. At present, his research at the University of Angers focuses on developing real-time electrochemical sensors for environmental pollutants under large international projects. His professional trajectory demonstrates a unique blend of academic and applied research, with a strong orientation towards environmental protection and societal well-being.

Research Interest:

Dr. Serge Mbokou Foukmeniok’s research interests lie in electroanalytical chemistry, with a focus on sensor development for real-time pollutant monitoring. His work integrates carbon-based materials, microbial biofuel cells, and biofilms to create innovative detection systems. Currently, his major contribution is through the European-funded MERMAID project, where he develops sensor technologies to monitor pollutants such as PFAS, pesticides, and pharmaceuticals in marine and wastewater systems. His interest extends to environmental remediation and food safety, reflecting a holistic approach to public health and ecological sustainability. Through these research pursuits, Dr. Serge Mbokou Foukmeniok emphasizes the transformative potential of chemistry in addressing global challenges.

Awards and Honors:

Dr. Serge Mbokou Foukmeniok has received recognition for his contributions to science, particularly in developing advanced electrochemical sensors with real-world applications. His innovative research has gained international visibility through prestigious European collaborations and global partnerships. He has also been honored by memberships in leading professional organizations, including the International Society of Electrochemistry and regional scientific networks. These distinctions reflect his influence as a thought leader in environmental chemistry and electroanalysis. Dr. Serge Mbokou Foukmeniok’s scientific leadership and impactful research make him a strong candidate for awards recognizing innovation, research excellence, and global contributions to sustainable environmental science.

Publications:

Title: Electroanalytical performance of a carbon paste electrode modified by coffee husks for the quantification of acetaminophen in quality control of commercialized pharmaceutical products
Citation: 36
Year of Publication: 2016

Title: A sustainable fungal microbial fuel cell (FMFC) for the bioremediation of acetaminophen (APAP) and its main by-product (PAP) and energy production from biomass
Citation: 33
Year of Publication: 2019

Title: Evaluation of the degradation of acetaminophen by the filamentous fungus Scedosporium dehoogii using carbon-based modified electrodes
Citation: 32
Year of Publication: 2016

Title: A sensitive voltammetric analysis and detection of Alizarin Red S onto a glassy carbon electrode modified by an organosmectite
Citation: 24
Year of Publication: 2021

Title: Assessment of pesticide residues in vegetables produced in central and eastern Ethiopia
Citation: 23
Year of Publication: 2023

Title: Development of a novel hybrid biofuel cell type APAP/O2 based on a fungal bioanode with a Scedosporium dehoogii biofilm
Citation: 19
Year of Publication: 2017

Title: Sensitive carbon fiber microelectrode for the quantification of diuron in quality control of a commercialized formulation
Citation: 12
Year of Publication: 2022

Conclusion:

Dr. Serge Mbokou Foukmeniok embodies excellence in research, innovation, and application of electroanalytical chemistry. His pioneering contributions to environmental monitoring, food safety, and sustainable energy systems place him at the forefront of scientific advancement. With his expertise in developing practical solutions such as electrochemical sensor boxes for pollutant detection, he bridges the gap between laboratory research and real-world implementation. His collaborative spirit, scholarly impact, and dedication to global challenges align perfectly with the vision of prestigious research awards. Recognizing Dr. Serge Mbokou Foukmeniok’s work not only honors his achievements but also underscores the importance of sustainable science for society.

Zhenpeng Hu | Chemistry | Best Innovation Award

Published on by Phenomenological Research Awards

Prof. Zhenpeng Hu | Chemistry | Best Innovation Award 

Professor at Nankai University | China

Prof. Zhenpeng Hu is a distinguished physicist at the School of Physics, Nankai University, specializing in condensed matter physics and computational materials science. His career has been marked by a blend of academic excellence, pioneering research, and impactful contributions to material innovation. Having earned both his Bachelor’s and Ph.D. degrees from the University of Science and Technology of China, he pursued postdoctoral research at the University of California, Santa Barbara, before joining Nankai University. Over the years, Prof. Hu has published extensively, supervised research projects of global importance, and achieved an reflecting his broad scientific influence.

Profile:

Orcid | Google Scholar

Education:

Prof. Zhenpeng Hu’s educational journey reflects a seamless trajectory of academic brilliance in physical sciences. He began with a Bachelor’s degree in Physics at the University of Science and Technology of China, where his foundational training emphasized theoretical and experimental physics. He then entered a direct Ph.D. program at the same institution, focusing on condensed matter physics. His doctoral work combined rigorous computational modeling with innovative material design. This strong academic foundation equipped him with the tools to explore the electronic, structural, and catalytic properties of novel materials, and continues to drive his multidisciplinary research endeavors at the intersection of physics and material innovation.

Experience:

Prof. Zhenpeng Hu’s professional journey spans prestigious institutions and international collaborations. Following his Ph.D., he undertook postdoctoral research at the University of California, Santa Barbara, where he deepened his expertise in computational material sciences. He then advanced to Associate Professor at Nankai University, later achieving full professorship. His tenure includes a Senior Visiting Fellowship at the University of Wollongong, which broadened his global perspective and collaborative networks. Currently, he leads high-impact projects in catalysis design, quantum materials, and machine learning applications in physics. His experience reflects an impressive balance of teaching, research leadership, and innovation across multiple interdisciplinary domains.

Research Interests:

Prof. Zhenpeng Hu’s research interests converge on materials physics, catalysis, and quantum properties of novel compounds. He has made significant advances in first-principles calculations, applying them to design catalytic materials with optimized electronic structures. His work delves into the dynamics of materials at ground and excited states, contributing to predictions of optical, electronic, and energy-related properties. More recently, he has embraced machine learning, pioneering methods to extract physically meaningful descriptors that accelerate material property predictions. His projects include studies on borene, ultrafast scintillation mechanisms, rare-earth crystals, and electrocatalysts, positioning him at the forefront of physics-driven material design and computational innovation.

Awards and Honors:

Prof. Zhenpeng Hu has been recognized with numerous honors for his academic and research contributions. His impactful work has garnered both national and international attention, cementing his reputation as a leader in computational materials science and condensed matter physics. His awards reflect excellence in innovation, research productivity, and contributions to collaborative scientific advancements. These accolades underscore his ability to integrate traditional physics principles with modern computational and machine learning techniques. Furthermore, his achievements in catalysis design and quantum property exploration highlight his role in shaping next-generation scientific methodologies and applications. He continues to be a strong contender for innovation-based distinctions.

Publications:

Title: Engineering surface atomic structure of single-crystal cobalt (II) oxide nanorods for superior electrocatalysis
Citation: 696
Year of Publications: 2016

Title: Direct seawater electrolysis by adjusting the local reaction environment of a catalyst
Citation: 605
Year of Publications: 2023

Title: CO₂ methanation on Ru-doped ceria
Citation: 451
Year of Publications: 2011

Title: Activating cobalt (II) oxide nanorods for efficient electrocatalysis by strain engineering
Citation: 438
Year of Publications: 2017

Title: Engineering electrocatalytic activity in nanosized perovskite cobaltite through surface spin-state transition
Citation: 427
Year of Publications: 2016

Title: Chemistry of Lewis acid–base pairs on oxide surfaces
Citation: 404
Year of Publications: 2012

Title: Choice of U for DFT+U Calculations for Titanium Oxides
Citation: 377
Year of Publications: 2011

Conclusion:

Prof. Zhenpeng Hu exemplifies excellence in academia and research through his deep commitment to advancing the field of physics and material sciences. His career seamlessly integrates rigorous theoretical foundations, international collaborations, and groundbreaking innovations in computational and experimental research. By bridging physical principles with cutting-edge tools like machine learning, he has accelerated discoveries in catalysis, quantum materials, and energy applications. His extensive publication record, high citation impact, and leadership in multiple research projects underscore his global influence. With a proven record of innovation, Prof. Hu stands as a highly deserving candidate for recognition through prestigious international research awards.