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.

Stanislav Yankovsky | Energy | Best Academic Researcher Award

Assist. Prof. Dr. Stanislav Yankovsky | Energy | Best Academic Researcher Award

Assistant Professor | Tomsk Polytechnic University | Russia

Stanislav Aleksandrovich Yankovsky is a highly accomplished academic and researcher specializing in energy engineering and thermal power systems. He serves as an Associate Professor at the I.N. Butakov Research and Educational Center of the National Research Tomsk Polytechnic University, where he also earned his engineering degree and Ph.D. equivalent. His professional journey spans engineering practice, teaching, and research leadership, with a strong focus on energy efficiency, renewable energy sources, hydrogen energy, carbon-neutral conversion technologies, recycling, geothermal technologies, and tribotechnologies. He has led and participated in numerous large-scale research projects funded by national science foundations and strategic development programs, contributing to advancements in coal-wood fuel combustion, geothermal technologies for autonomous energy supply, and distributed energy systems. His work has resulted in over 150 scientific publications, including many in high-impact journals indexed in Scopus and Web of Science, with notable citation metrics and an H-index of 11 across major databases. In addition to research, he is actively engaged in teaching courses such as hydrodynamics of power plants, modern energy technologies, and combustion of organic fuels, and he has developed several innovative curricula in renewable and non-traditional energy sources. He regularly reviews for leading international journals published by MDPI and Elsevier and plays a key role in applied research and industrial collaborations aimed at improving energy systems and resource efficiency. His career reflects a blend of academic excellence, practical expertise, and commitment to sustainable energy development.

Profile: Scopus | Orcid

Featured Publications

Yankovsky, S., Misyukova, A., Berikbolov, A., Vagner, M., & Yankovskaya, N. (2023). Influence of grinding methodology and particle size on coal and wood co-combustion via injection flame opening angle. Energies, 16(11), 4469.

Gorshkov, A., Berezikov, N., Kaltaev, A., Yankovsky, S., Slyusarsky, K., Tabakaev, R., & Larionov, K. (2021). Analysis of the physicochemical characteristics of biochar obtained by slow pyrolysis of nut shells in a nitrogen atmosphere. Energies, 14(23), 8075.

Yankovsky, S., Tolokol’nikov, A., Gorshkov, A., Misyukova, A., & Kuznetsov, G. (2021). Justification of the reduction possibility of sulfur oxides and fly ash emissions during co-combustion of coal and waste from woodworking enterprises. Applied Sciences, 11(24), 11719.

Yankovsky, S., Tolokol’nikov, A., Misyukova, A., & Kuznetsov, G. (2021). On the effect of the distances between coal and wood particles during their joint pyrolysis on sulfur oxides formation. Energies, 14(24), 8321.

Yankovsky, S., Tolokol’nikov, A., Berezikov, N., & Gubin, V. (2021). Justification of the energy use of cedar husk waste as an environmentally friendly additive for co-combustion with coal. Energies, 14(21), 7027.

 

Lakshmikanthan P | Energy | Best Researcher Award

Dr. Lakshmikanthan P | Energy | Best Researcher Award

Senior Scientist | CSIR Fourth Paradigm Institute | India

Dr. Lakshmikanthan P is a Senior Scientist at CSIR-4PI, Bangalore, and Assistant Professor at the Academy of Scientific and Innovative Research (AcSIR). His research focuses on greenhouse gas measurement and modelling, climate change assessment, urban health risk analysis, environmental forecasting, solid waste management, sustainability engineering, and ocean modelling. With a strong academic and research background in environmental and civil engineering, he has contributed extensively to advancing sustainable waste management practices and environmental modelling approaches. He has authored numerous peer-reviewed journal articles, book chapters, and conference papers, addressing critical issues related to municipal solid waste characterization, landfill engineering, leachate management, and waste-to-energy systems. His work has explored innovative methods for predicting landfill behavior, understanding spontaneous waste ignition, and improving leachate recirculation systems. He has guided and co-guided several doctoral and master’s students, fostering interdisciplinary research collaborations. His professional experience spans academic teaching, advanced research, and engineering practice, including positions in leading research institutions and industry. He is an active member of professional organizations such as the American Society of Civil Engineering and the International Water Association. His expertise in specialized modelling tools and environmental software supports his applied research in forecasting and sustainability analysis. He has been recognized with awards for his contributions to the field, and his research continues to influence waste management strategies, policy development, and technological innovation aimed at environmental protection and sustainable development. His scholarly impact includes 72 citations from 61 documents, 3 indexed documents, and an h-index of 2.

Profile: Scopus | Google Scholar

Featured Publications

Babu, G. L. S., Lakshmikanthan, P., & Santhosh, L. G. (2015). Shear strength characteristics of mechanically biologically treated municipal solid waste (MBT-MSW) from Bangalore. Waste Management, 39, 63–70.

Chavan, D., Lakshmikanthan, P., Mondal, P., Kumar, S., & Kumar, R. (2019). Determination of ignition temperature of municipal solid waste for understanding surface and sub-surface landfill fire. Waste Management, 97, 123–130.

Babu, G. L. S., Lakshmikanthan, P., & Santhosh, L. G. (2014). Life cycle analysis of municipal solid waste (MSW) land disposal options in Bangalore City. In ICSI 2014: Creating Infrastructure for a Sustainable World (pp. 795–806).

Manjunatha, G. S., Chavan, D., Lakshmikanthan, P., Singh, L., Kumar, S., & others. (2020). Specific heat and thermal conductivity of municipal solid waste and its effect on landfill fires. Waste Management, 116, 120–130.

Sivakumar Babu, G. L., & Lakshmikanthan, P. (2015). Estimation of the components of municipal solid waste settlement. Waste Management & Research, 33(1), 30–38.

Sahassawas Poojeera | Energy and Sustainability | Best Researcher Award

Assist. Prof. Dr. Sahassawas Poojeera | Energy and Sustainability | Best Researcher Award

Lecturer Rajamangala University of Technology Isan, Khon Kaen Campus Thailand

Mr. Sahassawas Poojeera is an Assistant Professor at Rajamangala University of Technology Isan, Khon Kaen Campus. His expertise lies in mechanical engineering, renewable energy, biomechanics, and finite element analysis (FEA). With a strong academic and research background, he has significantly contributed to biofuels, thermoelectric cooling, and alternative energy solutions. He has authored numerous publications in high-impact journals and actively supervises graduate students in mechanical and biomedical engineering.

Profile

Google Scholar

🎓 Education

  • Ph.D. in Mechanical Engineering (2014–2020) – Khon Kaen University
  • M.Eng in Mechanical Engineering (2012–2013) – Khon Kaen University
  • B.Eng in Mechanical Engineering (2008–2011) – Khon Kaen University
  • High School (Math & Science) (2002–2007) – Khon Kaen Wittayayon School

💼 Experience

  • Assistant Professor (2022–Present), Rajamangala University of Technology Isan, Khon Kaen Campus
    • Conducts research on renewable energy, biomechanics, and sports injuries
    • Supervises graduate students in mechanical and biomedical engineering
    • Publishes research in high-impact journals

🔬 Research Interests

  • Biofuels & Alternative Energy 🔋
  • Renewable Energy Applications in Agriculture 🌱
  • Finite Element Analysis (FEA) & Heat Transfer 🔥
  • Biomechanics & Sports Injury Prevention 🏃‍♂️

🏆 Awards & Nominations

  • Recognized for outstanding contributions to renewable energy and mechanical engineering
  • Active reviewer for top-tier journals in energy and thermodynamics
  • Recipient of research grants for biogas burner and Yang-Na oil fuel studies

📚 Publications Top Notes:

Experimental investigations on bio-diesel from Schleichera oleosa operated indirect injection and direct injection diesel engine: a combined application of ANN and RSM-based optimization (2025) – Discov Appl Sci (Q1)

Embedded Copper Foam Effect on the Nanofluids Thermal Cooling Performance of the Electric Vehicle Battery Pack (2025) – Engineered Science (Q1)

Modeling Airflow and Temperature in a Sealed Cold Storage System for Medicinal Plant Cultivation Using CFD (2024) – Agronomy 14(12), 2808 (Q1)

Optimized performance of closed-loop control electromagnetic field for electric generators with energy storage (2024) – Engineered Science (Q1)

Heat transfer and flow analysis for square tube with oscillating electromagnetic field with ANN (2024) – Cogent Engineering 11(1), 2430431 (Q1)

Oscillating electromagnetic field effect on Nusselt number and pressure drop of ferrofluid in fluted tubes (2024) – Engineered Science 32, 1307 (Q1)

Development of rubber mattresses with cooling systems to reduce pressure sores for the elderly (2024) – Engineered Science 30, 1153 (Q1)

Numerical and experimental study on PPE suit cooling in COVID-19 with a thermoelectric module (2023) – Engineered Science 26(2), 990 (Q1)

Performance and emission characteristics of diesel engine fueled by Yang oleoresin blended diesel fuel (2024) – Energy Sources, Part A (Q1)

Study on Thermal Performance of Small-Scale Air Conditioning with Thermoelectric Cooling (2022) – Mathematical Modelling of Engineering Problems 9(4) (Q2)

Fereshteh Emami | Environmental Science | Best Researcher Award

Prof. Fereshteh Emami | Environmental Science | Best Researcher Award

Associate Professor Southeastern Louisiana University United States

Dr. Fereshteh Emami is a tenured Associate Professor at Southeastern Louisiana University (SLU), where she serves in the Departments of Chemistry & Physics and Integrated Science and Technology. As the Director of both the Analytical-Environmental Chemistry Laboratory and the Chemometrics and Biomathematics Laboratory, she leads innovative research in AI-driven bioanalytical challenges and the development of VR environments for STEM education.

Profile

Scopus

Google scholar

Education 📚📜

Dr. Emami earned her Ph.D. in Analytical Chemistry from Bu-Ali Sina University in 2013, following her M.Sc. in the same field in 2007. She completed her B.Sc. in Chemistry at Razi University in 2005, establishing a strong foundation in analytical and computational chemistry.

Professional Experience 🏢💼

Her career includes tenure-track roles at SLU, Chief Data Scientist at Digital Factory, Inc., and research positions at Clarkson University and Bowling Green State University. She has applied advanced mathematical techniques to air quality data and explored innovative bioanalytical methods using AI and machine learning.

Research Interests 🔍💡

Dr. Emami’s research spans environmental chemistry, bioanalytical chemistry, biomedical engineering, and data science. She focuses on pollutant degradation in water, AI-driven biosensors, VR-assisted molecular studies, and predictive modeling for environmental and biomedical data analysis.

Awards and Grants 🏆💰

Dr. Emami has been awarded substantial grants, including the Air Products-funded “Chemical Monitoring of Lake Maurepas” project phases, totaling over $12 million. Her contributions to research in AI-driven sensing and environmental monitoring reflect her dedication to scientific advancement.

Publications Top Notes:📖🔗

Gunawardhana, T., et al. “Spatial pattern assessment and prediction of water quality changes in Lake Maurepas.” Environments, 11(12), 2024. View Article

Rahman, M.A., et al. “Chemical variations in Lake Maurepas: vertical distribution and source identification.” Environmental Science & Technology, Submitted, 2024.

Rahman, M.A., et al. “Assessment of the vertical distribution of contaminants in Lake Maurepas,” Louisiana Academy of Sciences Annual Meeting, 2024.

Gunawardhana, T., et al. “Examining heavy metals in Lake Maurepas,” Louisiana Academy of Sciences Annual Meeting, 2024.