Nyambane Ontita | Bioelectrochemistry | Editorial Board Member

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Dr. Nyambane Ontita | Bioelectrochemistry | Editorial Board Member

Researcher | Central south university | China

Dr. Nyambane Ontita is a dedicated microbiologist whose research centers on environmental sustainability, microbial physiology, and the development of innovative bioelectrochemical solutions for resource recovery. His work focuses on advancing bioelectrochemical systems to enhance rare earth metal removal and bioelectricity generation while improving overall wastewater treatment efficiency. He integrates microbial ecology, molecular biology, and environmental biotechnology to explore how electroactive microorganisms respond to environmental stress and how biofilm behavior can be optimized for industrial applications. With strong expertise in advanced techniques such as XPS, XRD, FTIR, PCR, and SEM, he investigates microbial community dynamics and characterizes biofilms to uncover mechanisms that drive efficient metal recovery. His contributions include designing and optimizing bioelectrochemical reactors, evaluating substrate modifications for improved performance, and developing specialized protocols for cultivating electroactive microbial communities. He has produced impactful publications in areas such as anode substrate optimization, microbial responses to metal stress, and carbon-fixing microorganisms, contributing to sustainable and low-carbon technological development. His research output has gained increasing recognition, reflected in citation metrics that include 28 citations, an h-index of 3, and an i10-index of 1. He actively participates in scientific forums focused on carbon neutrality and metal resource utilization, engaging in discussions on low-emission strategies and sustainable industrial processes. Beyond his laboratory work, he has supported academic training in microbiology, molecular methods, and microbial ecology, fostering scientific growth among emerging researchers. Recognized for excellence in research and collaborative innovation, he continues to advance interdisciplinary approaches that unite microbiology, environmental engineering, and bioprocess technology to address global challenges in wastewater treatment, pollution mitigation, and circular resource recovery.

Featured Publications

Ontita, N. C., Sarkodie, E. K., Anaman, R., Hui, T. Y., & Zeng, W. (2024). Insights into anode substrate optimization in bioelectrochemical systems for efficient cathodic lanthanum recovery during wastewater treatment. Journal of Water Process Engineering, 66, 106003.

Ontita, N. C., Anaman, R., Sarkodie, E. K., Wang, Y., Bichi, A. H., Shanshan, X., … (2025). Electrochemically active biofilms responses to gadolinium stress during wastewater treatment in bioelectrochemical systems. Journal of Hazardous Materials, 491, 137941.

Wang, Y., Liu, A., Amanze, C., Ontita, N. C., & Zeng, W. (2024). Isolation and whole-genome analysis of Desmodesmus sp. SZ-1: Novel acid-tolerant carbon-fixing microalga. Bioresource Technology, 414, 131572.

Nyambane, C. O. (2015). Prevalence and susceptibility profiles of bacterial pathogens associated with urinary tract infections in children presenting at Kisii Level 5 Hospital, Kisii County, Kenya. Kenyatta University.

Ontita, N. C., Amanze, C., Anaman, R., Shanshan, X., Kwofie, F., Tetteh, P. A., … (2025). Mechanistic insights into biphasic effects of Ce(III) on anode biofilms in bioelectrochemical systems during industrial wastewater treatment. Water, Air, & Soil Pollution, 236(8), 529.

 

Monica Alvarez Manso | Energy | Best Researcher Award

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Ms. Monica Alvarez Manso | Energy | Best Researcher Award

University Of Leon | Spain

Ms. Monica Alvarez Manso is a dynamic researcher and professional in the field of energy and sustainability, with significant expertise in hydrogen technologies, bioenergy, and advanced energy systems. Currently pursuing her PhD at the University of León, she combines academic research with leadership in large-scale industrial and technological projects. Serving as Vice-Dean of the Official College of Technical Mining Engineers and Mining and Energy Graduates, she is actively engaged in innovation and sustainable development. Her career reflects a strong integration of scientific knowledge, engineering practice, and international project management in renewable energy and environmental protection.

Professional Profile

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Education

Ms. Monica Alvarez Manso holds a strong academic foundation that bridges technical expertise with environmental sustainability. She earned her degree as a Technical Mining Engineer from the School of Technical Mining Engineering at León, further strengthening her engineering knowledge. She completed a Master’s in Occupational Risk Prevention from UNED, which broadened her scope in industrial safety and operational management. Currently, she is a PhD candidate at the University of León, focusing her doctoral research on energy engineering and hydrogen technologies. Her academic journey combines technical mining sciences, environmental protection, and renewable energy, preparing her to lead impactful research and innovation.

Experience

Ms. Monica Alvarez Manso has an extensive professional background leading technological and infrastructure projects in renewable energy, water management, and industrial sustainability. She has directed and coordinated projects in green hydrogen and bioenergy, managing the full cycle from design to implementation of hydrogen plants and biomethane upgrading systems. Her international project portfolio includes work in Chile, Angola, Poland, and the Netherlands, addressing large-scale power plants, substations, solar systems, and sustainable water solutions. She has also implemented CO2 reduction measures for industries like Airbus. In her institutional role, she contributes leadership as Vice-Dean, shaping policies and innovation in the mining and energy sectors.

Research Interests

Her research interests span across green hydrogen technologies, bioenergy, advanced energy systems, and sustainable resource management. She focuses on electrolysis processes, hydrogen storage, and transport innovations within the Power-to-Gas framework. In bioenergy, she explores biogas production, biomethane upgrading, and digestate valorization aligned with circular economy strategies. She also investigates smart grids, energy storage systems, and industrial energy efficiency measures. Her work extends to renewable integration of solar, biogas, and hydrogen into industrial and electrical systems. Moreover, she explores climate change mitigation by developing methods for CO2 emission reduction, contributing to sustainable energy transitions and resilient infrastructure.

Awards

Throughout her career, Ms. Monica Alvarez Manso has been recognized for her contributions to technological innovation and energy sustainability. She has registered intellectual property, including the Hydrogreensim simulator for hydrogen plant water purification systems and the Virtual Art Projection invention, highlighting her capacity to bridge creativity with applied engineering. Her leadership as Vice-Dean at the Official College of Technical Mining Engineers and Mining and Energy Graduates reflects her recognition in academic and professional communities. Additionally, her involvement in high-impact European programs such as Horizon, Life, and Prima demonstrates her excellence in securing and managing competitive research projects.

Top Noted Publications

Title: Classification Framework for Hydrological Resources for Sustainable Hydrogen Production with a Predictive Algorithm for Optimization
Year: 2025

Title: Feasibility study of a combined electric power plant with a thermolysis process
Year: 2002

Conclusion

Ms. Monica Alvarez Manso is a highly suitable candidate for the Research for Best Researcher Award. Her blend of technical innovation, leadership, and practical project expertise across hydrogen, bioenergy, and sustainable resource management makes her an outstanding researcher. With continued emphasis on academic publications and collaborative research, she is poised to become a leading figure in advancing sustainable energy and climate change mitigation at both national and international levels.

Seyed Mohammad Sharifhosseini | Power Systems | Best Researcher Award

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Mr. Seyed Mohammad Sharifhosseini | Power Systems | Best Researcher Award

Master’s student, Shiraz University of Technology, Iran

Seyed Mohammad Sharifhosseini is a Master’s student in Power Systems at Shiraz University of Technology, Shiraz, Iran. With a strong academic background, he has earned a GPA of 18.19/20 (3.86/4) in his master’s studies and was ranked 1st in the Department of Electrical Engineering. Previously, he completed his Bachelor’s degree with a GPA of 17.51/20 (3.72/4) and received a full scholarship for both his undergraduate and graduate programs 🎓. He has also demonstrated exceptional research skills through his academic projects and publications. Seyed is passionate about optimizing power systems, renewable energy, and ensuring cybersecurity in energy grids 🌍🔋.

Publication Profile

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Education:

Seyed holds a Master’s degree in Power Systems from Shiraz University of Technology, where he maintains an impressive GPA of 18.19/20. He completed his Bachelor’s degree in Electrical Engineering with a focus on Control Systems, ranking 4th in his class and receiving a full scholarship for both his bachelor’s and master’s programs 📚.

Experience:

Seyed has contributed to various academic and professional roles. He worked as a teaching assistant for courses such as Power System Operation and Power System Analysis I, where he assisted students in MATLAB and software-based simulations. Additionally, he is currently an Executive Assistant at ZOORIL Company, contributing to building management systems 🛠️. His teaching experience in both undergraduate and graduate courses has allowed him to gain a deep understanding of the electrical and power systems sectors 🧑‍🏫.

Awards and Honors:

Seyed has been recognized for his outstanding academic performance, including being ranked 1st in his Master’s program at Shiraz University of Technology 🏆. He received a full scholarship for both his bachelor’s and master’s degrees, reflecting his dedication and talent in his field. Additionally, he ranked in the top 3% of the University Entrance Exam for his Bachelor’s degree 💯.

Research Focus:

His research interests focus on Power System Operation, Optimization in Power Systems, Renewable Energy Resources, Home Energy Management Systems, and Cybersecurity in Power Systems. His research aims to enhance the efficiency and security of modern power systems while integrating renewable energy sources and optimizing performance using advanced algorithms 🔬🔌.

Conclusion:

Seyed Mohammad Sharifhosseini’s academic excellence, strong research focus, and teaching experience make him a promising figure in the field of power systems. His work in optimizing energy distribution and ensuring the stability of power networks, combined with his contributions to the advancement of renewable energy technologies, positions him as a future leader in the energy sector 🌟🔋.

Publications:

Investigating Intelligent Forecasting and Optimization in Electrical Power Systems: A Comprehensive Review of Techniques and ApplicationsEnergies journal, (Accepted).
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Enhanced Resilience in Smart Grids: A Neural Network-Based Detection of Data Integrity Attacks Using Improved War Strategy OptimizationEURASIP Journal on Embedded Systems (EPSR), (Accepted).
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Analyzing Complexities of Integrating Renewable Energy Sources into Smart Grid: A Comprehensive ReviewApplied Energy, (Revised).
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Optimizing Rural Microgrid’s Performance: A Scenario-Based Approach Using the Improved Multi-Objective Crow Search Algorithm Considering UncertaintyIEEE Transactions on Smart Grid, (Submitted).
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A Hybrid Crow Search Algorithm and Coalitional Game Theory Approach for Optimal Plug-in Electric Vehicles’ Integration in Networked MicrogridsIEEE Transactions on Industrial Informatics, (Submitted).
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