Rehan Abid | Clean and Renewable energy | Editorial Board Member

Mr. Rehan Abid | Clean and Renewable energy | Editorial Board Member

Research Scholar | International Islamic University Islamabad | Pakistan

Mr. Rehan Abid is a dedicated researcher in physics and materials science whose work centers on advanced materials, electrochemical energy storage, and device fabrication. His expertise spans the synthesis and modification of nanostructured materials, including conducting polymers, two-dimensional materials, and inorganic nanomaterials, applying techniques such as chemical oxidative polymerization, in-situ bulk polymerization, and bottom-up synthesis. He has contributed significantly to the development of supercapacitive materials and flexible energy-storage devices through hands-on experience in electrode design, electrolyte formulation, and device assembly, supported by strong capabilities in material characterization and laboratory instrumentation. His research involvement includes contributions to collaborative projects on energy harvesters and self-powered systems, where he played an active role in material preparation, device fabrication, data interpretation, and manuscript development. Alongside his research, he has demonstrated academic leadership through teaching and mentoring roles, guiding undergraduate and graduate learners in physics coursework and laboratory practices, and supporting students in experimental design and research execution. His scientific output includes multiple peer-reviewed publications in reputable journals, reflecting his commitment to advancing knowledge in energy materials and applied physics. Known for his multidisciplinary skill set, he effectively integrates theoretical understanding with practical experimentation, contributing to innovative material solutions for energy storage and sensing applications. Mr. Abid continues to build a strong research presence through his work on nanocomposites, electrochemical systems, and emerging materials, positioning himself as a promising contributor to the evolving landscape of materials science and applied physics.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Khan, M. A., Siddique, M. A. R., Sajid, M., Karim, S., Ali, M. U., Abid, R., & Bokhari, S. A. I. (2023).
A comparative study of green and chemical cerium oxide nanoparticles (CeO₂-NPs): From synthesis, characterization, and electrochemical analysis to multifaceted biomedical applications. BioNanoScience.

Haider, S., Abid, R., Murtaza, I., & Shuja, A. (2023).
Unleashing enhanced energy density with PANI/NiO/graphene nanocomposite in a symmetric supercapacitor device, powered by the hybrid PVA/Na₂SO₄ electrolyte. ACS Omega.

Raza, A., Abid, R., Murtaza, I., & Fan, T. (2023).
Room temperature NH₃ gas sensor based on PMMA/RGO/ZnO nanocomposite films fabricated by in-situ solution polymerization. Ceramics International.

Fan, T., Jian, L., Liu, C., Murtaza, I., Abid, R., Shuja, A., Liu, Y., & Min, Y. (2022).
Controlled synthesis of the state-of-the-art quasi one-dimensional graphene nanostructure for high performance supercapacitor. Synthetic Metals.

Muhammad, G., Murtaza, I., Abid, R., & Ahmad, N. (2022).
Effect of different catalysts and growth temperature on the photoluminescence properties of zinc silicate nanostructures grown via vapor-liquid-solid method. Chinese Physics B.

Mehrdad Esmaeilipour | Energy | Breakthrough Innovations Laureate Award

Mr. Mehrdad Esmaeilipour | Energy | Breakthrough Innovations Laureate Award

Engineer | Arya Plasma Gostar Pars | Iran

Mehrdad Esmaeilipour is a results-driven electronics engineer specializing in green technologies, environmental sustainability, and advanced electronic systems, with proven expertise in designing air purification, water filtration, and smart wearable devices. He serves as a senior electronics engineer at Arya Plasma Gostar Pars Company, where he leads circuit design, system optimization, and product innovation for environmental solutions. As the founder and CEO of Parsa Pardazesh Bushehr Sanat Company, he has demonstrated entrepreneurial leadership by providing technical services, fostering student employment, and driving IT-based innovations. His inventive contributions include developing a patented wastewater treatment system using cold plasma technology and conceptualizing a smart bracelet for visually impaired individuals to enhance navigation and safety through artificial intelligence. In addition to his industrial roles, he has actively engaged in robotics research, project mentorship, and team development at Azad University, while also publishing books, journal articles, and conference papers on electronics, safety strategies, and renewable energy systems.

Profile

Google Scholar

Education

Mehrdad Esmaeilipour pursued a comprehensive academic foundation in electronics, beginning with a diploma in electronics from Azadegan Technical High School, followed by an associate’s degree in electronics from Islamic Azad University. He then completed his bachelor’s degree in Electronics Engineering Technology at Islamic Azad University, further refining his expertise in electronic circuit design, system development, and innovative technologies. Throughout his studies, he gained specialized knowledge in power electronics, integrated circuit design, microcontroller-based systems, and renewable energy applications. His academic journey enabled him to integrate theoretical concepts with practical applications, which became instrumental in his career as an engineer and inventor. He has continuously advanced his knowledge through certifications in solar photovoltaic systems, cybersecurity awareness, IT for business success, robotics, safety protocols, and research training. His education reflects a balance of technical depth and applied innovation, providing the foundation for his work in sustainable technology and advanced electronic systems.

Professional Experience

Mehrdad Esmaeilipour has extensive experience as a senior electronics engineer at Arya Plasma Gostar Pars Company, where he leads the production of advanced circuits, integrated systems, and cold plasma-based technologies for air and water purification. His role involves innovation in circuit design, performance optimization, cost reduction, and supervising quality control, while also mentoring engineers and managing product deployment. His achievements include designing intelligent purification systems, wastewater treatment devices, and microbial seawater purification technologies. As CEO of Parsa Pardazesh Bushehr Sanat Company, he has successfully led projects in IT, security systems, and telecommunications, while providing opportunities for young professionals. He also contributed as a robotics researcher and mentor at Azad University, developing robotic prototypes, integrating sensors, and implementing advanced control systems. His career reflects strong leadership in industrial engineering, entrepreneurship, and academic collaboration, with impactful contributions spanning environmental sustainability, digital health innovations, and electronic system development.

Awards and Honors

Mehrdad Esmaeilipour has received global recognition for his contributions to electronics, sustainability, and technological innovation. His honors include the Outstanding Contribution Award in technological devices, Global Leaders Award, International Material Scientist Award for electronics advancements, Global Recognition Award, and Tech Excellence Award. He has been recognized for his invention of smart wearable sensing technology with the Best Wearable Sensing Technology Award, as well as for his industrial contributions with the International Academic Industry Impact Award and Best Innovator Award. His work in sustainability earned him the Excellence in Environmental Sustainability and Impact Award. Alongside these distinctions, he has received certifications in cybersecurity, IT for business, solar photovoltaic systems, robotics, and HSE, as well as international recognition from academic and professional organizations for his research, publications, and mentorship. His awards reflect a career committed to innovation, environmental responsibility, and global impact in engineering and applied electronics.

Research Focus

Mehrdad Esmaeilipour’s research focuses on integrating advanced electronics with sustainable technologies, emphasizing green innovations for environmental applications. His key areas of interest include cold plasma systems for wastewater treatment, intelligent air purification, microbial seawater sterilization, and renewable energy integration in electronic systems. He has explored artificial intelligence in electronics, particularly in smart wearable devices such as the patented bracelet for visually impaired users, aimed at improving digital health and safety. His publications cover topics ranging from fuzzy logic and PID controllers in robotics to advanced amplifier design for large capacitive loads, showcasing expertise in both applied and theoretical electronics. Additionally, he has authored books on photovoltaic power systems, electrical safety strategies, and electronic communication, highlighting his commitment to advancing technical education. His work bridges environmental sustainability, digital health innovation, and robotics, with a strong focus on developing cost-effective, reliable, and impactful technological solutions for industry and society.

Publication

  • Title: Design, Construction and Performance Comparison of Fuzzy Logic Controller and PID Controller for Two-Wheel Balance Robot (Smart Sensors)
    Year: 2025

  • Title: Global Innovation Technologist Awards – Excellence in Innovation Award – Biotechnology
    Year: 2025

  • Title: Global Leaders Awards – Enterprise Edition
    Year: 2025

  • Title: Best Wearable Sensing Technology Award
    Year: 2025

  • Title: Engineering Industry Impact Award
    Year: 2025

Conclusion

Mehrdad Esmaeilipour is highly suitable for a research award, given his outstanding achievements in sustainable electronic technologies, environmental innovation, and applied research. His work demonstrates not only technical excellence but also societal relevance through green engineering and digital health initiatives. With further emphasis on international academic collaborations and scholarly publications, his contributions can be elevated to an even greater global research impact.