Yeggi Darnas | Climate Action | Best Researcher Award

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Mrs. Yeggi Darnas | Climate Action | Best Researcher Award

Bandung Institute of Technology | Indonesia

Yeggi Darnas is an environmental engineering professional with over 15 years of academic and practical experience specializing in solid waste management, water supply systems, and environmental documentation. His expertise spans waste management design and construction, training and mentoring programs, and academic studies for the establishment of UPTD Solid Waste units. He has contributed extensively to water supply projects, including Master Plans for Drinking Water Supply Systems, Detailed Engineering Designs (DED), and environmental assessments. His recent work includes designing a wastewater treatment plant for shrimp ponds in NTT (August–October 2024) and developing an Integrated Solid Waste Processing Facility for Central Bangka District, Bangka Belitung Province (September–December 2024). He was also invited by Itra to participate in the Tanween Mega Challenge: Enriching the Pilgrim’s Journey, held from November 29 to October 3, 2024, reflecting his growing recognition within the field.

Profiles: Scopus | Google Scholar

Featured Publications

"The effectiveness of cow manure in remediation of top soil contaminated by engine oil waste", H Yahya, AM Hamdan, T Marlina, Y Darnas, TM Ashari, Cleaner Waste Systems, 2025.

"Food waste reduction efforts in reducing greenhouse gas emissions and the impact of climate change: A review", Y Darnas, E Sembiring, B Rahardyan, Sustainable Chemistry for Climate Action, 2025.

"Comparative analysis of HHV and LHV values of biocoke fuel from palm oil mill solid waste ", A Gani, H Desvita, E Munawar, R Mamat, M Nizar, Y Darnas, RE Sarjono, Case Studies in Chemical and Environmental Engineering, 2024.

"Analysis of combustion characteristics and chemical properties for biocoke fuel", A Gani, M Faisal, H Desvita, MA Kinan, I Khair, Y Darnas, R Mamat, Energy Geoscience 5 (4), 2024.

"Konversi Limbah Biomassa Tandan Kosong Sawit menjadi Energi Panas", A Gani, M Faisal, M Nizar, Y Darnas, Jurnal Serambi Engineering 9 (1), 2024.

Ivan Beloev | Energy Efficiency | Top Researcher Award

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Prof. Ivan Beloev | Energy Efficiency | Top Researcher Award

University of Ruse "Angel Kunchev" | Bulgaria

Prof. Ivan Beloev is a distinguished academic and researcher in the field of transport technology and management, currently serving as the Head of the Center for Continuing Education and the Head of the Department of Transport at Ruse “Angel Kanchev” University, where he is also a Professor in Technology and Transport Management. His professional journey at the same institution spans over a decade, beginning as an Assistant in 2014 and progressing through roles as Assistant Professor, Associate Professor, and Professor. Prof. Beloev holds a Ph.D. in Transport, Shipping, and Aviation (2014–2015), with a dissertation focused on developing and researching modular systems for combined energy supply and emission monitoring in road transport. He also earned his Master’s and Bachelor’s degrees in Technology and Management of Transport from Ruse “Angel Kanchev” University. An active contributor to numerous national and international research and educational projects, his work includes initiatives under the Operational Program “Science and Education for Smart Growth” and national programs such as “Low-Carbon Energy for Transport and Household” and “Intelligent Livestock Breeding.” Prof. Beloev has led and participated in projects on multimodal transport technologies, driver training simulators, and digitalization in urban transport systems. His scholarly contributions include co-authoring the monograph Modelling of the Interaction of the Different Vehicles and Various Transport Modes: The Danube River, Multimodality and Intermodality (Springer, 2019), reflecting his commitment to advancing sustainable and intelligent transport systems.

Profiles: Google Scholar

Featured Publications

"Natural and Waste Materials for Desulfurization of Gaseous Fuels and Petroleum Products.  Fuels, I Iliev, A Filimonova, A Chichirov, A Vlasova, R Kamalieva, I Beloev, 2025"

"Modeling of Measuring Transducers for Relay Protection Systems of Electrical Installations, I Iliev, A Kryukov, K Suslov, N Kodolov, A Kryukov, I Beloev, Y Valeeva, 2025"

"Approach to Optimising and managing warehouse stocks in a car service. Baltic Journal of Economic Studies, I Beloev, D Grozev, 2025"

"Investigation in energy parameters of process of compacted soil transportation by flexible sectional screw conveyor, 24th International Scientific Conference, V Bulgakov, O Glazunova, O Trokhaniak, A Almeida, A Rucins, A Aboltins, 2025"

"Development of a Hybrid Expert Diagnostic System for Power Transformers Based on the Integration of Computational and Measurement Complexes, Energies, I Beloev, ME Alpatov, MS Garifullin, IF Galiev, SF Rakhmankulov, I Iliev, 2025"

Asis Sethi | Material Science | Best Researcher Award 

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Mr. Asis Sethi | Material Science | Best Researcher Award 

CSIR-Central Electrochemical Research Institute | India

Author Profiles

Scopus

Orcid ID

Google Scholar

Early Academic Pursuits

Mr. Asis Sethi began his academic journey with a Bachelor of Science degree in Chemistry from Ravenshaw University, Cuttack (2013–2016), where he developed a strong foundation in chemical sciences. His quest for deeper knowledge led him to pursue a Master of Science in Chemistry at Pondicherry University (2016–2018), one of India’s premier institutions. Building upon his academic excellence, he embarked on a Doctor of Philosophy (Ph.D.) in Chemical Science at CSIR–Central Electrochemical Research Institute (CECRI), Karaikudi, in 2019, where his research is centered on advanced electrochemical energy storage technologies.

Professional Endeavors

Currently serving as an Assistant Professor in the Department of Chemistry at Bhadrak Autonomous College under the Department of Higher Education, Odisha (since 2024), Mr. Sethi has committed himself to both teaching and research. His dual role as an educator and researcher enables him to inspire young learners while advancing scientific frontiers in electrochemistry and energy storage. His early recognition as a CSIR-NET/JRF awardee in June 2018 further highlights his academic potential and research capability.

Contributions and Research Focus

Mr. Sethi’s research contributions lie at the intersection of material science, electrochemistry, and sustainable energy. His core research focuses on the design and development of next-generation aqueous batteries, dual ion batteries, zinc-ion batteries, and redox flow systems. His expertise also extends to the synthesis of transition-metal–based materials, development of electrolytes including water-in-salt systems, and advanced cell configurations such as Swagelok, flooded, pouch, and coin cells. His work integrates experimental design with computational insights to address real-world challenges in energy storage and conversion.

Impact and Influence

Through his active participation in national and international conferences, Mr. Sethi has disseminated his findings to a wider scientific audience. He has presented oral talks and posters at IIT Delhi, SRM Institute of Science and Technology, and CSIR-CECRI, as well as representing CSIR at the India International Science Festival (2022). His research has not only enriched the academic community but also contributed to the development of practical solutions in clean energy technologies. His publication record in reputed international journals such as Chemical Communications, Journal of Materials Chemistry A, ChemPhysChem, Batteries & Supercaps, and International Journal of Hydrogen Energy reflects the depth and significance of his scholarly output.

Academic Citations

Mr. Sethi’s research publications are already receiving attention in the scholarly community, evident from his articles featured in high-impact journals, including a cover feature in ChemPhysChem (2023). These citations demonstrate the academic visibility and influence of his work in advancing electrolyte design and energy storage mechanisms. His collaborations with national and international researchers further broaden the scope and recognition of his contributions.

Legacy and Future Contributions

As a young researcher and educator, Mr. Sethi stands at the forefront of sustainable energy research. His pioneering studies on electrolyte modifications, ion storage mechanisms, and electrode material design hold promise for the development of safer, cost-effective, and eco-friendly batteries. Going forward, he is poised to mentor future researchers, expand his publication portfolio, and contribute significantly to India’s scientific progress in renewable energy and electrochemical storage technologies.

Conclusion

In summary, Mr. Asis Sethi exemplifies the qualities of a dedicated academic, an innovative researcher, and an inspiring mentor. His strong educational foundation, impactful research contributions, and growing academic recognition position him as a valuable asset to the scientific and educational community. With his ongoing commitment to advancing electrochemical energy storage, he is well-suited for recognition such as the Best Researcher Award, underscoring his potential to shape the future of sustainable energy solutions.

Notable Publications

“Strategies for electrolyte modification in aqueous zinc-ion batteries: an antisolvent approach

  • Author: Asis Sethi; Chaithra Rajeev; Anil Kumar U.; Jefin F.; Santoshkumar D. Bhat; Vishal M. Dhavale
  • Journal: Chemical Communications
  • Year: 2025

"Tailored concave platinum nanocrystals for the selective electro-oxidation of formic acid

  • Author: Chaithra Rajeev; Anil Kumar U.; Asis Sethi; L. Muhammed Shahid; Vishal M. Dhavale‏
  • Journal: New Journal of Chemistry
  • Year: 2025

"Effect of Anions in Zn‐Based Aqueous Electrolyte on Electrochemical Performance of Prussian Blue Analogue

  • Author: Asis Sethi; Chaithra Rajeev; Anil Kumar U.; Parul Sharma; Anurag Prakash Sunda; Vishal M. Dhavale
  • Journal: Batteries & Supercaps
  • Year: 2025

"Assessing the impact of an antisolvent-regulated ZnCl2 water-in-salt electrolyte on solvation structure: a multiscale computational validation for aqueous Zn-ion battery application

  • Author: Asis Sethi; Chaithra Rajeev; Anil Kumar U.; Parul Sharma; Anurag Prakash Sunda; Vishal M. Dhavale‏
  • Journal: Journal of Materials Chemistry A‏
  • Year: 2024

"Special tailoring of a copper–pyromellitic acid complex with sulfonated poly(ether ether ketone) to form a composite membrane for polymer electrolyte fuel cells

  • Author: Anil Kumar U.; Rajendran Sakthivel; Asis Sethi; Baskaran Mohan Dass; Santoshkumar D. Bhat; Vishal M. Dhavale
  • Journal: New Journal of Chemistry
  • Year: 2023

 

Sara Barati | Environment | Women Researcher Award

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Dr. Sara Barati | Environment | Women Researcher Award

Semnan University | Brazil

Author Profiles

Scopus 

Google Scholar

Early Academic Pursuits

Dr. Sara Barati began her academic journey in Chemical Engineering at the University of Arak, Iran, where she obtained her Bachelor’s and Master’s degrees. Her early research was rooted in environmental applications, particularly focusing on the modeling of CO₂ capture in porous media using MATLAB. This strong foundation in computational modeling provided her with essential skills in transport phenomena and process simulation. She further pursued her PhD in Chemical Engineering at the University of Semnan, Iran, where her doctoral research centered on nanocomposites synthesis and the development of advanced proton exchange membranes for fuel cells, coupled with COMSOL Multiphysics simulations.

Professional Endeavors

Dr. Barati’s professional career reflects a seamless integration of computational modeling, experimental fabrication, and interdisciplinary research. She has worked as a Research Assistant at multiple prestigious universities, including Amir Kabir University, Tehran University, and currently at USP University in Brazil. Her roles involved battery modeling, experimental cell assembly, and the design of innovative energy systems. She has also contributed as a course lecturer, offering advanced training in COMSOL Multiphysics, covering domains from electrochemical systems and membrane separation to biomedical simulations and renewable energy applications.

Contributions and Research Focus

Her research contributions span a wide range of energy and material systems, with a primary focus on next-generation batteries (Li-ion, Na-ion, Li-S), fuel cells, nanocomposites, and multiphysics simulations. She has authored impactful articles on battery modeling, sensitivity analysis using Python and machine learning approaches, and optimization of electrochemical performance. Beyond batteries, her projects have addressed fluid flow, heat and mass transfer, CO₂ absorption, membrane design, and microchannel transport phenomena. This broad scope underscores her interdisciplinary expertise and ability to connect materials, chemical processes, and energy systems.

Impact and Influence

Through her work, Dr. Barati has advanced understanding in both the theoretical modeling and practical development of sustainable energy technologies. Her innovative modeling strategies, particularly using COMSOL, Python, and PyBaMM, have provided valuable insights into the commercialization challenges of Li-S batteries and the performance optimization of Na-ion and Li-ion systems. Additionally, her training programs have empowered students and researchers globally to apply multiphysics modeling tools across diverse engineering problems, amplifying her influence as both a researcher and mentor.

Academic Citations

Dr. Barati has published over 10 peer-reviewed articles in reputed international journals, contributing significantly to the scientific discourse in electrochemistry, nanomaterials, and computational modeling. Her publications, indexed on Google Scholar, have been cited by researchers worldwide, reflecting the growing impact of her research in advancing cleaner energy technologies and computational methods in chemical engineering.

Legacy and Future Contributions

Looking ahead, Dr. Barati is poised to make further strides in the development of sustainable energy solutions. Her expertise in coupling data-driven methods with computational modeling positions her at the forefront of future innovations in battery technology and renewable energy systems. With her strong academic and professional background, she is likely to continue bridging gaps between experimental research, advanced simulations, and industrial applications, thereby contributing to the global shift toward sustainable energy.

Conclusion

Dr. Sara Barati exemplifies the qualities of an accomplished woman researcher, with a career marked by dedication to scientific excellence, interdisciplinary innovation, and knowledge dissemination. Her journey-from early academic pursuits in Iran to international research collaborations—demonstrates her resilience, adaptability, and commitment to solving global energy challenges. With her growing research footprint and mentorship, she stands as a strong candidate for recognition through the Women Researcher Award.

Notable Publications

“Separating carbon dioxide from natural gas by a hollow fiber membrane contactor with various absorbents: Numerical investigation of membrane wettability

  • Author: H Rahnema, A Etminan, S Barati, K Pope
  • Journal: Separation and Purification Technology
  • Year: 2025

"‏Numerical Investigation of Heat Transfer and Turbulent Fluid Flow for Transverse Vortex Generators with Nanoparticles

  • Author: S Barati, A Etminan, K Pope
  • Journal: Heat Transfer Research
  • Year: 2024

"Air Pollution Control: A Review of the most Important Methods

  • Author: S Barati, M Soleymani
  • Journal: Iranian Journal of Chemistry and Chemical Engineering
  • Year: 2023

"Preparation, characterization and proton transport of new porous nanocomposite membranes based on polybenzimidazole, lignin and TiO2 nanoparticles for high

  • Author: S Barati, M Mehdipourghazi, M Abdollahi, K Hooshyari, B Khoshandam
  • Journal: International Journal of Energy Research
  • Year: 2021

"Poly (benzimidazole)/poly (vinylphosphonic acid) blend membranes with enhanced performance for high temperature polymer electrolyte membrane fuel cells

  • Author: Z Taherkhani, M Abdollahi, A Sharif, S Barati
  • Journal: Solid State Ionics
  • Year: 2021

 

Ghalia Nassreddine | Renewable System | Best Paper Award

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Dr. Ghalia Nassreddine | Renewable System | Best Paper Award

Rafik Hariri University | Lebanon

Author Profile

Scopus

Orcid ID

Google Scholar

Early Academic Pursuits

Dr. Ghalia Nassreddine began her academic journey with a profound interest in Information Technology and Systems, a foundation that would later become the bedrock of her career. Demonstrating a passion for innovation and education, she embarked on her teaching profession over 14 years ago in Lebanon, committing herself to both pedagogy and research. Her early academic orientation laid the groundwork for a career that seamlessly blended technological advancement with academic excellence.

Professional Endeavors

Dr. Nassreddine’s professional trajectory is marked by progressive academic leadership and extensive teaching experience. Currently serving as an Associate Professor at Rafik Hariri University, she actively contributes to curriculum development, student mentoring, and collaborative research initiatives. She also leads senior project supervision in collaboration with the University of Wollongong in Dubai. Previously, she was the Head of the Business Computing Department at Jinan University, where she spearheaded faculty management, academic programming, and research mentorship for both undergraduate and postgraduate students. Her earlier role at the Lebanese International University (LIU) as an Assistant Professor in Computer Science saw her coordinating and standardizing instructional strategies and assessments.

Contributions and Research Focus

Dr. Nassreddine has contributed extensively to interdisciplinary fields through both applied and theoretical research. Her primary research interests include machine learning, deep learning, data science, and their real-world applications in business analytics, power systems, healthcare, and intelligent transportation systems. She has delivered hands-on workshops and seminars on critical topics such as artificial intelligence, data visualization, Python programming, blockchain technology, and image processing—demonstrating a commitment to practical and accessible learning.

Impact and Influence

Her academic influence extends across multiple domains. Through workshops like Introduction to AI using Python and Data Science Hands-On Labs, she has empowered students and professionals alike with crucial digital skills. As a mentor and project supervisor, she has nurtured numerous student research works, including PhD and master’s theses. Her leadership in curriculum enhancement and ABET accreditation at Rafik Hariri University further underscores her impact on institutional growth. Her scholarly efforts have played a pivotal role in aligning IT education with evolving industry demands and societal challenges.

Academic Citations and Publications

Dr. Nassreddine is a prolific author and collaborator, having contributed to over a dozen book chapters, numerous peer-reviewed journal articles, and conference papers. Her book chapters published with Springer Nature, CRC Press, and IGI Global cover a wide spectrum, including AI in navigation systems, blockchain in healthcare, and IoT in transportation and energy systems. Notable journal publications include works on e-learning evaluation, network attack detection, credit card fraud detection, and solar photovoltaic power prediction. Her research has appeared in respected journals such as the International Journal of Electrical and Computer Engineering, Journal of Techniques, and NTU Journal of Engineering and Technology.

Legacy and Future Contributions

Looking ahead, Dr. Nassreddine is poised to continue her contribution to transformative technological and educational innovations. Her accepted papers in high-impact international conferences, such as the 9th International Conference on Information System Design and Intelligent Applications (ISDIA 2025) and the 5th International Conference on Electrical and Electronics Engineering in Australia, signal her sustained global engagement. Her work in Alzheimer’s detection using deep learning and Generative AI’s effect on student learning outcomes reflects her intent to influence both technology and pedagogy on a global scale. Dr. Nassreddine’s legacy is one of thought leadership, research excellence, and academic mentorship, shaping the future of intelligent systems and ethical AI integration.

Other Noteworthy Highlights

  • Workshops Delivered: Covering AI, Python programming, and data science across academic institutions in Lebanon.

  • Seminar Engagements: On blockchain, e-learning, and AI applications in renewable systems.

  • Technical Proficiency: Skilled in Python, Java, and advanced analytical tools to support her research and teaching.

  • Interdisciplinary Collaboration: Regularly partners with experts in healthcare, transportation, and renewable energy for co-authored publications.

Conclusion

Dr. Ghalia Nassreddine exemplifies the synergy between academic excellence and applied innovation. Her work stands at the crossroads of technology, education, and societal impact, addressing contemporary challenges through machine learning, deep learning, and digital transformation. Whether through her classroom, publications, or international engagements, she continues to shape future technologists and researchers with unwavering commitment and vision.

Notable Publications

"An Approach for Detecting Alzheimer's Disease Using Deep Learning Techniques

  • Author: Amal ElArid; Ghalia Nassreddine; Mohamad Nassereddine; Obada Al-Khatib
  • Journal: Communications in Computer and Information Science
  • Year: 2025

"Enhancing the Efficacy of Short-Term Prediction Models for Solar Photovoltaic Systems: An Influence Examination of Chronological and Meteorological Factors

  • Author: Ghalia Nassreddine; Amal El Arid; Mohamad Nassereddine; Obada Al-Khatib; Anas Arram; Abir El Abed
  • Journal: IEEE Access
  • Year: 2025

"The Performance Effect of Seasonality Feature in Solar Photovoltaic Power Prediction Using Machine Learning

  • Author: Ghalia Nassreddine; Amal El Arid; Mohamad Nassereddine; Eva Barbulescu; Habiba Ahmed
  • Journal: Book chapter
  • Year: 2025

"Explainable and Optuna-Optimized Machine Learning for Battery Thermal Runaway Prediction Under Class Imbalance Conditions

  • Author: Abir El Abed; Ghalia Nassreddine; Obada Al-Khatib; Mohamad Nassereddine; Ali Hellany
  • Journal: Thermo
  • Year: 2025

"The Role of Information Technology IT Management in the Quality of Distance Education: An Applied Study on North Lebanese Technical Institutes

  • Author: Mazen Massoud; Ghalia Nassreddine
  • Journal: Journal of Computer Science and Technology Studies
  • Year: 2025

 

MD Tanvir Rahman | Renewable energy | Best Researcher Award

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Mr. MD Tanvir Rahman | Renewable energy | Best Researcher Award

MD Tanvir Rahman, American International University – Bangladesh, Bangladesh

🎓 Md Tanvir Rahman is a dynamic Electrical and Electronic Engineering graduate from AIUB, Bangladesh 🇧🇩, with a stellar academic record and a passion for innovation in renewable energy ⚡, VLSI design 💻, and embedded systems 🤖. With hands-on experience in FPGA programming, sensor integration, and power systems, he has led impactful student initiatives, authored numerous publications 📚, and presented at international conferences 🌍. His vision blends technology and sustainability 🌱, making him a rising star in green engineering and smart solutions. A natural leader and lifelong learner 🌟, Tanvir is committed to shaping a smarter, cleaner future through research and development. 🔬

Professional Profile:

Scopus

Suitability For Best Researcher Award

Md Tanvir Rahman is a highly suitable candidate for the Best Researcher Award due to his remarkable academic achievements, innovative research contributions, and leadership in the field of Electrical and Electronic Engineering. His expertise spans renewable energy, VLSI design, smart grid technology, and embedded systems, positioning him as a promising researcher and future leader in green engineering and sustainable technology.

🔹 Education & Experience 

🎓 Education:

  • 🧠 B.Sc in EEE – AIUB (2025) | CGPA: 3.93 ⭐

  • ⚙️ Diploma in Mechatronics Engineering – Magura Polytechnic Institute (2020) | CGPA: 3.77

  • 📘 SSC in Science – Bheramara Pilot High School (2015) | CGPA: 4.39

💼 Experience:

  • 🚧 Internship: Energypac Power Generation PLC (Diesel Generator & ATS), Feb 2025

  • 🦺 Safety Training: Samsung C&T Safety Academy

  • 📢 Team Lead: IEEE AIUB Student Branch (Mar 2022 – Sept 2023)

🔹 Professional Development

🌱 Tanvir Rahman has actively pursued professional growth through internships, workshops, and leadership roles. His technical exposure spans Arduino programming 🤖, VLSI design using Cadence 🧩, and IoT integration for real-world solutions 🌐. As team lead of IEEE AIUB Student Branch, he orchestrated large-scale events, fostering academic-industry collaboration 🤝. Tanvir has completed training in AI 🤖, nanotechnology 🧪, and safety protocols 🚧, showcasing his well-rounded skill set. His passion for sustainable technology, teamwork, and public speaking 🎤 has helped him build a solid foundation in both technical and leadership domains. He continues to explore new tools and ideas to stay future-ready 🚀.

🔹 Research Focus Category 

🔬 Tanvir Rahman’s research focus lies in Renewable Energy Systems 🌞, Smart Grid Technology ⚡, and VLSI-based Digital Design 💻. His projects explore underwater robotics 🤿, wireless power transmission 🔋, and intelligent automation systems using sensors and microcontrollers 🧠. He integrates AI 🧠 and fuzzy logic into power systems for better voltage regulation and environmental sustainability 🌍. His current capstone research on Unmanned Underwater Vehicles 🌊 merges object detection, 3D mapping, and ecological monitoring. His work reflects a drive to blend hardware-software systems with smart, energy-efficient solutions 🔧, contributing toward greener, smarter infrastructures 🌱.

🔹 Awards and Honors

🏆 Awards & Honors:

  • 🥇 Best Paper Award – Bio Web Conference & ICREST 2025

  • 🌐 International Conference Presenter – Recognized for communication excellence

  • 🧑‍💼 Leadership & Mentorship – IEEE AIUB Student Branch, Team Lead

  • 🧠 Published 22+ Conference Papers in Renewable Energy & Power Systems

  • 🥈 High CGPA Holder – AIUB & Diploma Level

  • 🤝 Secured Sponsorships & Collaborations – IEEE AIUB Events

Publication Top Notes:

Title: Perspectives and Pathways to a Carbon-free Advanced Power Network (CAPN) in Bangladesh for Sustainable Development
Journal: Cleaner Energy Systems
Publication Year: 2025
Authors: A. Shufian, M. Tanvir Rahman, S.K. Shib, N. Mohammad, M.A. Mannan

🔍 Summary in Simple Terms:

This article explores sustainable energy solutions for Bangladesh, specifically focusing on developing a Carbon-free Advanced Power Network (CAPN). The goal is to transition towards clean energy and reduce carbon emissions, which are crucial for tackling climate change and ensuring a sustainable future.

Conclusion:

Md Tanvir Rahman is a highly deserving candidate for the Best Researcher Award. His contributions to renewable energy systems and smart grid technology, combined with his leadership role in IEEE AIUB and his innovative research on underwater robotics, showcase his dedication to both technological innovation and sustainability. Tanvir’s commitment to blending hardware and software solutions to create smarter, greener infrastructures makes him a promising researcher, poised to make significant contributions in the years to come.

Chaden Moussa Haidar | Environment | Top Researcher Award

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Prof. Chaden Moussa Haidar | Environment | Top Researcher Award

Head of the Departement at Islamic University of Lebanon (IUL), Lebanon

Dr. Chaden Haidar is a multidisciplinary academic and researcher with over 20 years of experience in environmental sciences, food safety, sustainability, and geosciences. Her work bridges academia, international development, and policy-making, with a strong emphasis on sustainable practices in food industries, water quality assessment, and environmental protection. She has served as a lecturer, consultant, and expert with leading institutions including the Lebanese University, UNIDO, FAO, and the Industrial Research Institute.

🔹Professional Profile:

Scopus

Orcid

Google scholar

🎓Education Background

  • Ph.D. in Geo Sciences and Environment, University of Lorraine, Nancy, France (2010–2014)

  • M.Sc. in Environmental Engineering, Lebanese University, Hadath (2005–2006)

  • Diploma & Master in Agricultural Engineering (Food Technology), Lebanese University, Dekwaneh (1995–2000)

💼 Professional Development

  • Laboratory Instructor & Researcher, Lebanese University – Faculty of Agriculture (2009–Present)
    – Specializes in geochemical and isotopic tracers, environmental geochemistry, and field measurements.

  • Lecturer, University of Khaldeh, Faculty of Tourism and Hospitality (2005–Present)
    – Teaches food science, human nutrition, environmental impacts in tourism, and sustainable production practices.

  • Consultant, UNIDO Green Competitiveness Initiative (2010–2012)
    – Oversaw quality management in dairy, meat, and water analysis; implemented GHP, GMP, and HACCP protocols.

  • Teacher, Sheikh Mohamad Yaacoub Technical School (2003–Present)

  • Consultant, FAO, Bekaa Valley (2001–2003)
    – Focused on zoo-technical and agronomic consultancy.

  • Trainer, LARI Station (2000–2001)
    – Delivered capacity building in sustainable agriculture practices.

  • Expert in Food Processing & Technology, Industrial Research Institute, Hadath (2011–2019)
    – Promoted resource efficiency and clean production among agro-food SMEs; developed national policies and guidelines for food safety and sustainability.

🔬Research Focus

  • Circular economy in food enterprises

  • Sustainable food systems and SDG 12

  • Food safety, nutrition science, and health promotion

  • Water quality assessment and environmental protection

  • Resource-efficient and cleaner production (RECP)

  • Sustainable diets and production-consumption patterns

📈Author Metrics:

  • Publications: Over 20 research articles in peer-reviewed journals and international conference proceedings.

  • Notable Journals: MDPI, Springer, JJEES, Geosciences Research, European Scientific Journal

  • Recent Topics: Heavy metal pollution in water, drinking water quality, use of Cymbopogon in food safety and water purification.

🏆Awards and Honors:

  • Vice President, Association for Protection of Environment and Agriculture, Beirut (2007–2020)

  • Presenter, UNIDO/UNEP SDG 12.3 Conference, Denmark (2022) – Showcased I-Rexfo circular economy model.

  • Lead Food Safety Auditor, ISO 22000:2018 – Certified by Order of Engineers and Architects, Beirut (2024)

  • Recognized trainer and speaker in numerous international webinars and sustainable development initiatives.

📝Publication Top Notes

  1. Antibacterial and Antifungal Activities of Cymbopogon winterianus and Origanum syriacum Extracts and Essential Oils against Uropathogenic Bacteria

    • Authors: M. Rammal, S. Khreiss, A. Badran, M. Mezher, M. Bechelany, C. Haidar, et al.

    • Journal: Foods, Vol. 13, Issue 11, Article 1684

    • Citations: 2

    • Highlights: Evaluates natural plant extracts and essential oils for antimicrobial and antifungal efficacy, targeting uropathogenic bacteria—contributing to eco-friendly pharmaceutical alternatives.

  2. Drinking-Water Quality Assessment in Selective Schools from the Mount Lebanon

    • Authors: W. Diab, M. Farhat, M. Rammal, C.M. Haidar, A. Yaacoub, A. Hamzeh

    • Journal: Annals of Civil and Environmental Engineering, Vol. 8, Issue 1, pp. 018–024

    • Citations: 1

    • Highlights: Investigates drinking water quality in schools, underlining health implications and the need for monitoring infrastructure in educational institutions.

  3. Cymbopogon winterianus (Java Citronella Plant): A Multi-Faceted Approach for Food Preservation, Insecticidal Effects, and Bread Application

    • Authors: M. Rammal, A. Badran, C. Haidar, A. Sabbah, M. Bechelany, M. Awada, et al.

    • Journal: Foods, Vol. 13, Issue 5, Article 803

    • Citations: 5

    • Highlights: Explores innovative uses of citronella in food safety, pest control, and bakery applications—linking ethnobotany with functional food science.

  4. Biochar Derived from Citronella and Oregano Waste Residues for Removal of Organic Dyes and Soil Amendment

    • Authors: M. Rammal, G. Kataya, A. Badran, L. Yazbeck, C. Haidar, K.H. Hassan, et al.

    • Journal: Current Research in Green and Sustainable Chemistry, Vol. 9, Article 100433

    • Citations: 2

    • Highlights: Presents sustainable valorization of agro-waste for environmental remediation—particularly water decontamination and agricultural soil enhancement.

  5. Current Research in Green and Sustainable Chemistry (General Contribution)

    • Authors: M. Rammala, G. Kataya, A. Badran, L. Yazbeck, C. Haidar, K.H. Hassan, et al.

    • Journal: Current Research in Green and Sustainable Chemistry, Vol. 9, Article 100433

    • Highlights: Emphasizes broader themes in green chemistry, resource reuse, and sustainable agricultural technologies.

Conclusion

Prof. Chaden Moussa Haidar stands out as a top contender for the Top Researcher Award in Environment due to:

  • Her comprehensive and applied research portfolio addressing real-world problems in food systems, environmental safety, and circular economy.

  • A deep commitment to both academic excellence and societal impact.

  • Longstanding collaborations with global institutions and government bodies, underscoring her influence beyond academia.

Her balance of scientific rigor, community impact, and policy integration makes her an exemplary role model in the environmental research domain.

Strongly Recommended for the Top Researcher Award in Environment

Nelson Martins | Circular Economy | Best Researcher Award

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Mr. Nelson Martins | Circular Economy | Best Researcher Award

Técnico at APICER, Portugal📖

Nelson Correia Martins is an experienced Production and Process Engineering Leader with a strong background in Lean Management, Industrial Optimization, and Process Improvement. With over 18 years of experience in manufacturing, process engineering, and production management, he has successfully led teams, optimized operations, and contributed to technological advancements in multiple industries, including ceramics, chemicals, pharmaceuticals, and manufacturing. Currently serving as a Process Engineer at APICER – Coimbra, he focuses on digital transformation, energy transition, circular economy, and process optimization.

Profile

Orcid Profile

Education Background🎓

  • Postgraduate Diploma in Lean Management, Comunidade Lean Thinking (2014-2015)
  • Master’s in Chemical Engineering, University of Aveiro (2007-2008)
  • Erasmus Program in Chemical Engineering, Universitat Rovira i Virgili, Tarragona, Spain (2004-2005)
  • Bachelor’s in Chemical Engineering, University of Aveiro (2000-2005)
  • Award: Prémio Eng. António Pascoal – Best Engineering Student at the University of Aveiro (2000/2001)

Professional Experience🌱

Nelson has held key leadership roles across various industries, driving operational efficiency, team performance, and process optimization:

  • Process Engineer, APICER – Coimbra (2023 – Present)
    • Technical support in digitalization, energy transition, circular economy, and process optimization.
  • Production Director, NG- Oficina de Porcelanas – Aveiro (2021 – 2023)
    • Led teams to enhance productivity, quality, stock management, and cost optimization.
  • Production Manager, JADE Creation – Albergaria-a-Velha (2019 – 2021)
    • Managed manufacturing operations, Lean strategies, and MRP data analysis.
  • Lean Process Engineer, The Navigator Company – Cacia (2019)
    • Standardized paper tissue rewinder processes and improved workflow efficiency.
  • Production Director, Mesa Ceramics – Estarreja (2017 – 2018)
    • Managed industrial startup and production team leadership.
  • Production Manager, Sanitana (ROCA Group) – Anadia (2015 – 2017)
    • Led process optimization, KPI tracking, and team management.
  • Shift Manager, Riastone (Vista Alegre Group) – Ílhavo (2014 – 2015)
    • Implemented Lean methodologies (Toyota Kata, 5S, SMED) and KPI tracking.
  • R&D Engineer, Bresfor (FINSA Group) – Ílhavo & Pontevedra, Spain (2008 – 2014)
    • Conducted research, quality control, and regulatory compliance (REACH, formaldehyde reduction).
  • Process Engineer (Inov Contacto), Hovione – Lisbon & New Jersey, USA (2005 – 2007)
    • Worked on Good Manufacturing Practices (GMP), process optimization, and nanotechnology applications.
Research Interests🔬

Research interests include:

  • Lean Manufacturing & Continuous Improvement
  • Industrial Digitalization & Smart Manufacturing
  • Process Optimization & Energy Efficiency
  • Sustainable Manufacturing & Circular Economy

Author Metrics

  • Publications & Technical Contributions: Research in Lean Management, Process Optimization, and Industrial Digitalization.
  • Conference Presentations: Contributions to manufacturing and process engineering forums.
Awards and Honors

Prémio Eng. António PascoalBest Engineering Student at the University of Aveiro (2000/2001)

Publications Top Notes 📄

1. Tracking Secondary Raw Material Operational Framework—DataOps Case Study

  • Type: Journal Article
  • Field: Ceramics, DataOps, Industrial Process Optimization
  • Publication Date: January 28, 2025
  • DOI: 10.3390/ceramics8010012
  • Contributors: Gabriel Pestana, Marisa Almeida, Nelson Martins
  • Source: Crossref
  • Summary:
    This study presents an operational framework using DataOps principles to enhance secondary raw material tracking in ceramic manufacturing. It focuses on data-driven decision-making, process automation, and supply chain efficiency, contributing to sustainability and waste reduction in industrial operations.

2. Tracking Secondary Raw Material Operational Framework – DataOps Case Study (Preprint)

  • Type: Preprint
  • Publication Date: December 24, 2024
  • DOI: 10.20944/preprints202412.2007.v1
  • Contributors: Gabriel Pestana, Marisa Almeida, Nelson Martins
  • Source: Crossref
  • Summary:
    This preprint version outlines an innovative DataOps-based framework for monitoring and optimizing secondary raw material usage in industrial production. The approach integrates real-time data analytics, automation, and sustainability principles to improve resource efficiency in the ceramics industry.

Conclusion

Nelson Correia Martins is a highly deserving candidate for the Best Researcher Award, given his groundbreaking work in circular economy, Lean process optimization, and industrial digitalization. His research has direct applications in sustainable manufacturing, contributing to a waste-free, energy-efficient future.

With continued advancements in AI-driven sustainability, international collaboration, and industry adoption, his work can further revolutionize sustainable production models worldwide.

This nomination is strongly recommended based on his research impact, technical leadership, and commitment to industrial innovation.

Hebat-Allah S. Tohamy | Recycling and sustanability | Best Researcher Award

Published on by Network Science

Dr. Hebat-Allah S. Tohamy | Recycling and sustanability | Best Researcher Award

Researcher, at  National Research Centre,  Egypt 📖

Dr. Hebat-Allah Tohamy is an accomplished organic chemist and researcher specializing in the development of sustainable, high-performance materials from agricultural waste. With over a decade of research experience at the National Research Center, she has spearheaded projects in water treatment, drug delivery, and environmental remediation. Dr. Tohamy has been recognized for her innovative M.Sc. thesis by the National Research Centre and has been featured on Egyptian television for her work in agricultural waste valorization. She actively shares her insights through conferences, webinars, and scientific collaborations worldwide, contributing to the advancement of sustainable technologies.

Profile

Scopus Profile

Orcid Profile

Education Background🎓

Dr. Hebat-Allah Tohamy holds a Ph.D. in Organic Chemistry from Helwan University (2020), where she focused on the Preparation, characterization, and applications of carbon allotropes derived from agricultural wastes. Her doctoral research underscores her commitment to sustainable chemistry, specifically in transforming agricultural residues into valuable carbon-based materials. Prior to her Ph.D., Dr. Tohamy earned her M.Sc. in Organic Chemistry from Helwan University in 2017, with a thesis centered on cellulose-based amphiphilic materials. This work laid the groundwork for her expertise in cellulose chemistry and nanomaterials. Dr. Tohamy completed her undergraduate studies at Helwan University, graduating in 2011 with a B.Sc. in Chemistry and Biochemistry, where she achieved top honors, ranking within the best ten students in her cohort. Additionally, she has expanded her expertise through scientific missions to Prague, Czech Republic, in 2019, 2022, and 2023, further enriching her knowledge in international research environments.

Professional Development🌱

Dr. Tohamy is a seasoned researcher at the National Research Center (NRC) in Cairo, where she has contributed significantly to the Cellulose and Paper Department since 2012. Her expertise spans cellulose chemistry, agricultural waste recycling, and nanotechnology, with a focus on developing sustainable materials for applications in water treatment, drug delivery, and environmental remediation. She has an extensive background in materials characterization, including techniques such as XRD, TEM, SEM, IR, TGA&DTA, DSC, Raman spectroscopy, UV, VSM, and fluorescence spectroscopy.

Her work emphasizes the transformation of agro-wastes into high-value materials like graphene oxide, carbon nanotubes, carbon quantum dots, and amphiphilic polymers. She is skilled in designing pH- and thermo-responsive hydrogels, adsorption materials, and sensors for waste contaminant detection. Dr. Tohamy has demonstrated her capabilities in scientific research, laboratory work, and project management on multiple national and international research collaborations.

Research Interests🔬

Dr. Tohamy’s research focuses on sustainable materials development through the recycling of agricultural wastes, particularly in synthesizing cellulose-based and carbon-based nanomaterials. Her work is centered around applications in water treatment, drug delivery, and environmental safety. Key areas of interest include:

  • Cellulose chemistry and hydrogels
  • Carbon-based materials like graphene oxide and carbon nanotubes
  • Kinetics and thermal analysis
  • Responsive polymers for medical and industrial applications
  • Material characterization and nanotechnology

Author Metrics

Dr. Hebat-Allah Tohamy is a recognized researcher with a solid impact in the field of organic chemistry and materials science, as reflected in her author metrics. She holds an h-index of 15, demonstrating her work’s high citation rate and influence in advancing sustainable material applications and waste valorization. Dr. Tohamy’s contributions to scientific literature are cataloged on platforms like Scopus and ORCID, where her publications in reputable journals are consistently cited by peers worldwide. Her research spans a range of innovative applications, from nanomaterials to environmental and pharmaceutical applications, underscoring her authority and continued engagement in impactful research.

Publications Top Notes📄

  1. “Fullerenes and tree-shaped/fingerprinted carbon quantum dots for chromium adsorption via microwave-assisted synthesis”
    • Journal: RSC Advances
    • Publication Year: 2024
    • DOI10.1039/D4RA04527K
    • Contributors: Hebat-Allah S. Tohamy, Mohamed El-Sakhawy, Samir Kamel
    • Summary: This study explores the synthesis of fullerenes and uniquely structured carbon quantum dots (tree-shaped and fingerprinted) using microwave-assisted techniques for the adsorption of chromium, a critical environmental contaminant.
  2. “Application of electrospun N-doped carbon dots loaded cellulose acetate membranes as cationic dyes adsorbent”
    • Journal: Journal of Environmental Management
    • Publication Date: November 2024
    • DOI10.1016/j.jenvman.2024.122714
    • Contributors: Stefania Mottola, Gianluca Viscusi, Hebat-Allah S. Tohamy, Mohamed El-Sakhawy, Giuliana Gorrasi, Iolanda De Marco
    • Summary: The article reports on the development of electrospun cellulose acetate membranes enhanced with nitrogen-doped carbon dots, designed for the adsorption of cationic dyes, showcasing potential for water purification applications.
  3. “Development and characterization of fluorescent cellulose succinate hydrogels for efficient chromium adsorption”
    • Journal: Journal of Polymer Research
    • Publication Date: November 2024
    • DOI10.1007/s10965-024-04164-4
    • Contributors: Hebat-Allah S. Tohamy, Mohamed El-Sakhawy, Beata Strachota, Silvia Mares Barbosa, Adam Strachota, Samir Kamel
    • Summary: This research focuses on creating fluorescent cellulose succinate hydrogels, demonstrating their efficacy for chromium ion adsorption, and highlighting their potential use in environmental cleanup.
  4. “Antimicrobial Plectranthus amboinicus emulsions prepared with amphiphilic cellulose stearate”
    • Journal: Euro-Mediterranean Journal for Environmental Integration
    • Publication Date: November 5, 2024
    • DOI10.1007/s41207-024-00675-0
    • Contributors: Hebat-Allah S. Tohamy, Mohamed El-Sakhawy, Sally A. Abdel-Halim, Hossam M. El-Masry, Mona Mohamed AbdelMohsen
    • Summary: The study investigates the preparation of antimicrobial emulsions using amphiphilic cellulose stearate and extracts from Plectranthus amboinicus, aiming to develop eco-friendly antimicrobial solutions.
  5. “Novel, Speedy, and Eco-Friendly Carboxymethyl Cellulose-Nitrogen Doped Carbon Dots Biosensors with DFT Calculations, Molecular Docking, and Experimental Validation”
    • Journal: Gels
    • Publication Date: October 24, 2024
    • DOI10.3390/gels10110686
    • Contributors: Hebat-Allah S. Tohamy
    • Summary: This publication introduces a fast, eco-friendly biosensor based on carboxymethyl cellulose and nitrogen-doped carbon dots. The study includes density functional theory (DFT) calculations, molecular docking, and experimental validation, providing insights into the sensor’s efficiency and accuracy.

Conclusion

Dr. Hebat-Allah S. Tohamy’s work aligns exceptionally well with the core goals of sustainability and environmental stewardship. Her contributions to developing eco-friendly materials from agricultural waste, as well as her significant publication record and respected standing in the field, present a compelling case for her as a deserving recipient of the Best Researcher Award. With further expansion of her research focus and international collaboration, Dr. Tohamy’s contributions are likely to continue growing in impact, making her a fitting and influential leader in her field.