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I am a vibrant young man with an un-quenching desire to acquire knowledge and impact the same on people, especially those within the engineering family. I have great potential such as good pedagogical ability, communication skills, and research ability. I am also, God-fearing, cultured and highly disciplined. I have great motivation in the engineering field and my degree in engineering has enabled me to develop good organizational skills, an analytical/logical approach to tasks and the ability to work under pressure. I am able to work well both on my own initiative and as part of a team. My main strengths are adaptability, dependability and the determination to get a job done as proven by my varied work experiences in the downstream sector (Total Nigeria Plc) and teaching. I try to learn something new from every experience because I believe there is always room for self-improvement both personally and professionally. I am also interested to develop my skills and confront my professional challenges in the engineering field and the professional possibilities to grow up.
I have a PhD in Chemical and Environmental Engineering, with majors in computational modelling of heterogeneous catalysis, adsorption and chemical reactions of molecules on surfaces, and complex reactive interfaces applicable in fields of energy capture and conversion. The Thesis Title is Quantum Mechanical Modelling of Engineering Nanostructures for CO2 Adsorption and Dissociation, which is focused on the development of novel materials for environmental-based catalysis to bridge the gap between innovative research, development, and application of these materials. I worked with the computational chemistry group at the University of Nottingham, the UK conducting a research study on Structural and Electronic Properties of Nitrogen-Doped MoS2 Monolayer and the Effect on Adsorption of different gases. DFT Approach and GCMC simulation implemented in RASPA were also used to determine the gas uptake capacity.
Recently, I am a Postdoctoral Fellow in the Department of Molecular and Computational Biosciences and Biotechnology at MIGAL Galilee Research Institute of Tel-Hai College Israel. Bioenergetic and Protein Design research group whose interest is the computational design of water-soluble protein building blocks for multi-chlorophyll protein complexes. Protein design, redox proteins, light-harvesting, solar energy conversion, photosynthesis, computational, chlorophyll-proteins, and light-induced charge separation.
Securing environmentally friendly sustainable energy sources to meet the demands of a growing world population is one of the most critical challenges for science in the 21st century. Our lab is looking for ideas and inspiration for addressing this complex challenge in biological energy conversion processes, particularly, photosynthesis - the primary provider of energy for life on earth that has been converting solar energy to biomass and fuels for over two billion years. Our goal is to design and construct semi-artificial solar energy conversion systems that comprise molecular components from the photosynthetic apparatus taken out of their natural membrane context into aqueous solutions and coupled with other water-soluble biocatalysts for the production of potential alternative fuel molecules such as hydrogen or ammonia. The photosynthetic components may range from isolated natural photosynthetic enzymes to de-novo-designed protein-cofactor complexes that serve as their minimal water-soluble analogues. To this end, we implement state-of-the-art computational and empirical tools of protein design, recombinant protein production and purification techniques, microfluidics technologies, and a wide range of spectroscopic and analytical methods for characterizing the structure and function of the new complexes. As we make progress toward novel solar energy conversion systems, we are also gaining important insight into the fundamental processes involved in natural photosynthesis. These can be used for making photosynthetic organisms more efficient and thereby increasing agricultural productivity.
I am a Catholic and strongly believe in the faith of Catholicism
I am a strong Liverpool Fan and believe in Jurgen Kloop and YNWA
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JOURNAL OF MOLECULAR LIQUIDS (2024): 123725
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