Dr. Louis Kwasi Osei | Energy Storage Systems | Editorial Board Member

Published on by Electrical Engineering

Dr. Louis Kwasi Osei | Energy Storage Systems | Editorial Board Member

Technical Advisor | Frankfurt School of Finance and Management | Ghana

Dr. Osei Louis Kwasi is an accomplished energy systems specialist and technical advisor in renewables and green hydrogen, widely recognized for his expertise in power systems, sustainable energy technologies, and low-carbon transition strategies. He holds advanced qualifications in Sustainable Energy Technologies, Energy Systems Engineering with Management, Industrial Mathematics, Electronics and Communication Engineering, and additional certifications in climate and renewable energy finance, project management, and electrical inspection. His professional experience spans advisory, leadership, and technical roles, including guiding hydrogen and solar PV system design, conducting feasibility and techno-economic assessments, overseeing engineering operations, leading maintenance teams, developing energy-efficiency programs, formulating policy frameworks, and training engineers and stakeholders. His research focuses on green hydrogen integration, renewable energy optimization, industrial energy efficiency, and techno-economic modeling, supported by peer-reviewed publications on solar PV systems, hydrogen production, rural electrification, and energy consumption optimization. He has delivered notable achievements in sector analyses, technology demonstrations, energy-efficiency improvements, policy contributions, and successful project supervision. His professional honors include service in key leadership and committee roles, such as acting within engineering examination panels, coordinating hydrogen network initiatives, and contributing to national engineering bodies. A dedicated member of several professional associations, he continues to advance innovation, sustainability, and capacity building within the global energy landscape.

Profile: ORCID

Featured Publications

Osei Louis Kwasi, Techno-economic viability of decentralised solar photovoltaic-based green hydrogen production for sustainable energy transition in Ghana. Solar Compass, Accepted.*

Osei Louis Kwasi, Techno-economic analysis of a utility-scale grid-tied solar photovoltaic system in Benin Republic. Cleaner Engineering and Technology, Accepted.*

Osei Louis Kwasi, Assessment of crop residues for off-grid rural electrification options in Ghana. Scientific African, Accepted

Prof. Runwei Mo | Energy Storage Systems (ESS) and Batteries | Editorial Board Member

Published on by Electrical Engineering

Prof. Runwei Mo | Energy Storage Systems (ESS) and Batteries | Editorial Board Member

Professor | East China University of Science and Technology | China

Professor Runwei Mo, a distinguished faculty member at East China University of Science and Technology, is an expert in advanced energy materials and intelligent manufacturing whose work spans innovative energy-storage systems, carbon-based material design, and next-generation battery technologies. He holds a PhD with specialization in energy materials engineering and has built a dynamic professional trajectory through academic, research, and collaborative roles across leading global institutions, contributing to major interdisciplinary projects in materials innovation, nanotechnology, and high-performance electrochemical systems. His research contributions encompass the development of novel electrode architectures, advanced graphene-based materials, CO₂ conversion strategies, flexible and high-energy battery systems, and breakthrough approaches to lithium-ion and sodium-ion storage, supported by an extensive publication record that includes high-impact journal papers, book chapters, and multiple authorized patents. He has led and contributed to significant national and international research initiatives, advancing scientific outcomes that have achieved practical application and received broad academic recognition. His professional standing is further reflected in his service as guest editor and editorial board member for several reputable journals, as well as active participation in scholarly communities focused on materials science and energy technologies. His achievements have earned him numerous honors, including multiple fellowships from respected scientific and professional societies, prestigious innovation and scientific contribution awards, and recognition for leadership in energy and environmental research. Through sustained excellence in research, mentorship, and scientific service, Professor Mo continues to advance the global progress of energy materials and sustainable technological development.

Profile: Scopus

Featured Publications

Runwei Mo*, A microstructure-enhanced dual-mode LC sensor with a PSO-BP algorithm for precise detection of temperature and pressure. Adv. Funct. Mater., Accepted.

Runwei Mo*, Autonomous self-healing strategy for flexible fiber lithium-ion batteries with ultra-high mechanical properties and volumetric energy densities. Chem. Eng. J., 154153.

Runwei Mo*, Structure engineering and heteroatom doping-enabled high-energy and fast-charging dual-ion batteries. Chem. Eng. J., 490, 151537.

Runwei Mo*, Covalently bonded MXene@Antimonene heterostructure anode for fast lithium-ion storage. Chem. Eng. J., 485, 149837.