Md. Monjarul Alam | Green Technology | Best Researcher Award

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Prof. Md. Monjarul Alam | Green Technology
| Best Researcher Award

ICE Chancellor at Hamdard University Bangladesh, Bangladesh.

Dr. Monjarul Alam is the Vice-Chancellor of Hamdard University Bangladesh and a distinguished researcher in nanomaterials, biosensors, and electronic engineering. He earned his Ph.D. in Electronic Engineering from Dublin City University, Ireland, and completed a prestigious postdoctoral fellowship at City, University of London, UK. With extensive teaching, research, and leadership experience, Dr. Alam has led several government-funded research projects and authored numerous scholarly articles. His commitment to academic excellence and innovation in nanotechnology and photonics has significantly contributed to science and education in Bangladesh. Recognized with national and international awards, he exemplifies excellence in research leadership. His academic journey and impactful contributions make him highly suitable for the Best Researcher Award.

🌍 Professional Profile:

ORCID

Scopus

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🏆 Suitability for the Best Researcher Award :

Dr. Monjarul Alam’s profound research in nanomaterials, biosensing, and thin-film electronics positions him as an ideal candidate for the Best Researcher Award. His postdoctoral work in nanophotonics, Ph.D. on nanomaterials processing, and multiple government-funded projects on biosynthesis of nanoparticles for medical and sensor applications showcase a robust research portfolio. Dr. Alam has demonstrated academic leadership through his role as Vice-Chancellor, while also securing major research grants and publishing impactful findings. His awards, including an Ireland Government Scholarship and national-level presentation accolades, highlight his excellence and global recognition. With a strong record of interdisciplinary innovation and sustained academic output, Dr. Alam embodies the values of research excellence, innovation, and societal impact.

🎓 Education :

Dr. Alam holds a Ph.D. in Electronic Engineering with a specialization in nanomaterials and photonics from Dublin City University, Ireland, supported by an Ireland Government Scholarship. He completed a postdoctoral research program at City, University of London in Mechanical Engineering and Aeronautics. His earlier education includes an M.Phil. and an M.Sc. (with thesis) in Electrical and Electronic Engineering from the Islamic University, Kushtia, Bangladesh, both delivered in English. He earned a First Class B.Sc. in Electrical and Electronic Engineering from the same institution. Dr. Alam began his academic journey with top results in both SSC and HSC examinations under the Jessore Board. His rigorous academic foundation underpins his expertise in advanced materials and engineering research.

🏢 Work Experience :

Dr. Monjarul Alam serves as the Vice-Chancellor of Hamdard University Bangladesh, bringing over two decades of experience in academic leadership, research, and engineering education. He previously held positions at Islamic University, Kushtia, contributing significantly to research in nanotechnology and electronics. Dr. Alam has led national research projects funded by the Ministry of Science and Technology and University Grants Commission in Bangladesh. His research includes biosynthesis of nanoparticles, thin film synthesis, and biomedical applications. His postdoctoral research at City, University of London and doctoral work in Ireland enhanced his international academic exposure. Dr. Alam has mentored numerous students, published widely, and advanced institutional research capabilities, combining scholarly excellence with visionary administration.

🏅Awards and Honors

Dr. Alam has received several prestigious awards and fellowships throughout his academic career. These include the Ireland Government Scholarship for his Ph.D. studies in nanomaterials and the Ministry of Science and ICT Fellowship in Bangladesh for his M.Phil. His undergraduate achievements were recognized by the Bangladesh Government Higher Education Authority through a merit-based stipend. Additionally, Dr. Alam earned an Oral Presentation Award at the Faculty of Engineering and Computing, Dublin City University. His consistent recognition by national and international bodies reflects the impact and quality of his research. His awarded research projects on biosynthesis of nanoparticles further signify his contribution to scientific innovation and development in applied nanotechnology.

🔬 Research Focus :

Dr. Alam’s research is focused on nanotechnology, specifically the green biosynthesis of nanoparticles for biomedical and sensor applications. His projects investigate silver, copper oxide, and tin oxide nanoparticles, leveraging natural plant extracts for environmentally sustainable synthesis. His work spans thin-film technology, antibacterial coatings, gas sensors, and optoelectronic devices. Dr. Alam emphasizes the interface between nanophotonics, biocompatible materials, and electronic engineering to develop innovative solutions for healthcare and environmental monitoring. His interdisciplinary research integrates materials science, electronics, and biotechnology, aiming to produce cost-effective, high-performance materials. Through collaborations and national research grants, he is advancing the field of functional nanomaterials, contributing both to fundamental science and applied technologies in Bangladesh and beyond.

📊 Publication Top Notes:

🔬 Synthesis and characterization of barium titanate (BaTiO₃) nanoparticle
📅 Year: 2012 | 📑 Cited by: 65

🧵 Plasma treatment of natural jute fibre by RIE 80 plus plasma tool
📅 Year: 2010 | 📑 Cited by: 58

🪡 Application and Advances in Micro-Processing of Natural Fibre (Jute) Based Composites
📅 Year: 2014 | 📑 Cited by: 51

🧪 Numerical simulation of Dean number and curvature effects on magneto-biofluid flow through a curved conduit
📅 Year: 2013 | 📑 Cited by: 47

⚗️ Synthesis and characterization of Ni doped ZnO nanoparticles
📅 Year: 2014 | 📑 Cited by: 30

💧 Moisture Removal from Natural Jute Fibre by Plasma Drying Process
📅 Year: 2012 | 📑 Cited by: 24

🔋 Hybrid organic–inorganic spin-on-glass CuCl films for optoelectronic applications
📅 Year: 2009 | 📑 Cited by: 22

🏺 Effects of sintering temperature and zirconia content on the mechanical and microstructural properties of MgO, TiO₂ and CeO₂ doped alumina–zirconia (ZTA)
📅 Year: 2023 | 📑 Cited by: 18

Mahdi Zarnoush | Renewable Energy | Best Researcher Award

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Mr. Mahdi Zarnoush | Renewable Energy
| Best Researcher Award

Researcher at K. N. Toosi University of Technology, Iran.

Mahdi Zarnoush is a dedicated researcher in Mechanical Engineering at K. N. Toosi University of Technology, specializing in energy conversion, renewable energy, and energy storage systems. With a strong academic foundation and a passion for sustainable development, he has contributed to over 10 research projects and published four ISI-indexed journal papers, with additional work under review. His innovative research advances efficient and optimized energy solutions, aligning with global energy transition goals. As a journal reviewer and active member of scientific associations, he plays a pivotal role in maintaining academic integrity and excellence. His scholarly contributions and active engagement in the research community make him a compelling candidate for the Best Researcher Award.

🌍 Professional Profile:

ORCID

Scopus

Google scholar 

🏆 Suitability for the Best Researcher Award :

Mahdi Zarnoush exemplifies the qualities of a top-tier researcher through his impactful work in energy conversion and storage technologies. His contributions to the field, including peer-reviewed journal publications and a forthcoming book chapter, demonstrate both depth and innovation. Zarnoush’s research addresses pressing global energy challenges by enhancing energy system efficiency and sustainability. His active involvement in academic collaborations, reviewing duties for respected journals, and leadership in scientific associations highlight his professional maturity and scholarly commitment. These accomplishments, coupled with his drive for excellence in renewable energy and energy transition research, mark him as highly suitable for the Best Researcher Award and position him as a rising leader in sustainable energy solutions.

🎓 Education :

Mahdi Zarnoush holds an M.Sc. in Mechanical Engineering with a specialization in Energy Conversion from K. N. Toosi University of Technology, a premier institution in Iran. He earned his B.Sc. in Mechanical Engineering from the University of Kashan, where he built a strong foundation in thermodynamics, fluid mechanics, and system design. During his graduate studies, Zarnoush focused on advanced energy systems, optimizing energy conversion processes and exploring renewable technologies. His academic path was marked by a commitment to research, sustainability, and innovation, enabling him to contribute meaningfully to both theoretical and applied aspects of energy engineering. His educational background provides the technical depth and scientific rigor necessary for impactful contributions in academia and industry alike.

🏢 Work Experience :

Mahdi Zarnoush is currently a Research Associate at K. N. Toosi University of Technology, where he has led and contributed to over ten academic research projects in energy systems and sustainable technologies. His expertise spans energy conversion, renewable integration, and energy storage modeling. Zarnoush has also served as a reviewer for reputable journals, such as the Journal of Energy Storage, reflecting peer recognition of his analytical skills and subject expertise. He collaborates with leading researchers on energy optimization projects and contributes regularly to the university’s Mechanical Engineering Scientific Association. His experience blends rigorous research with practical insight, advancing the development of efficient energy systems and contributing to the knowledge base in clean energy transitions.

🏅 Awards and Honors :

While formal awards are not currently listed, Mahdi Zarnoush’s academic recognition is reflected in his publication record, peer review contributions, and active involvement in leading research initiatives. His four published ISI-indexed journal papers and two under-review manuscripts have garnered increasing citations, indicating growing impact. His selection as a reviewer for high-impact journals like the Journal of Energy Storage speaks to his credibility and expertise in the field. Zarnoush’s participation in multiple high-level academic projects and his contribution to an upcoming book chapter further demonstrate his recognized value in the research community. His work continues to receive acknowledgment through scholarly collaboration, invitations for academic contributions, and consistent involvement in scientific development platforms.

🔬 Research Focus :

Mahdi Zarnoush’s research is centered on the development of advanced, sustainable, and efficient energy systems. His key areas include energy conversion technologies, renewable energy integration, energy transition strategies, and storage systems. He emphasizes optimization and modeling of thermal and hybrid energy systems to improve reliability and reduce environmental impact. Zarnoush’s work bridges theory and application, targeting real-world solutions to pressing energy issues. He explores innovations in smart energy systems and sustainable infrastructure, with a commitment to facilitating the global shift toward clean energy. Through academic publications, ongoing research projects, and cross-disciplinary collaborations, he aims to contribute foundational knowledge and practical tools that accelerate progress in the fields of renewable energy and sustainable technology.

📊 Publication Top Notes:

📘 Comparative evaluation of advanced adiabatic compressed gas energy storage systems
📅 Year: 2023 | 📊 Cited by: 43 | 📰 Journal of Energy Storage

📘 Comparative investigation for sustainable freshwater production in hybrid multigrid systems based on solar energy
📅 Year: 2024 | 📊 Cited by: 11 | 📰 Journal of Cleaner Production

📘 Integration of Emerging Technologies in Next-Generation Electric Vehicles: Evolution, Advancements, and Regulatory Prospects
📅 Year: 2025 | 📊 Cited by: 8 | 📰 Results in Engineering

📘 Comprehensive examination of a green hybrid biomass-integrated compressed air energy storage system with PEM hydrogen production across various operating modes
📅 Year: 2025 | 📊 Cited by: 2 | 📰 Journal of Energy Storage

Hongyu Gao | Environmental Engineering | Best Researcher Award

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Assoc. Prof. Dr. Hongyu Gao |Environmental Engineering | Best Researcher Award

 

Associate professor at Shanxi University, China .

Dr. Gao H.Y. is a distinguished Doctor of Engineering and Master Supervisor at the Institute of Resources and Environmental Engineering, Shanxi University, China. With a robust academic background from the China University of Geosciences (Wuhan), he has established a prolific career in both academic and industrial research. His work emphasizes industrial solid waste utilization, in-situ treatment of mining waste, and industrial system design. He has held key research roles in esteemed institutions like the Chinese Academy of Sciences and contributed to environmental sustainability through innovative resource management. Dr. Gao actively participates in national expert committees and associations. His contributions make him a highly suitable candidate for the Best Researcher Award, recognizing his impactful research, dedication, and national-level influence.

🌍 Professional Profile:

Orcid 

🏆 Suitability for the Best Researcher Award

Dr. Gao H.Y. is a leading figure in environmental engineering, with significant contributions to industrial solid waste utilization and sustainable mining practices. His interdisciplinary expertise bridges academic innovation and industrial application, exemplified through his work at Shanxi University and the Chinese Academy of Sciences. As a recognized expert in over ten national committees and associations, he has played a vital role in shaping policy and advancing green technologies. His impactful research, national influence, and dedication to environmental sustainability mark him as an outstanding candidate for the Best Researcher Award. Dr. Gao’s efforts not only address pressing ecological challenges but also drive technological innovation and industrial transformation, making him a deserving recipient of this prestigious recognition.

🎓 Education 

Dr. Gao H.Y. has a comprehensive academic background from the China University of Geosciences (Wuhan). He earned his Doctorate in Engineering from 2014 to 2017, building a strong foundation in environmental and resource engineering. Prior to this, he completed his Master’s degree from 2006 to 2009, focusing on advanced studies in geosciences and waste utilization. His academic journey began with a Bachelor’s degree (2001–2005), where he gained essential knowledge in environmental and geological sciences. Throughout his education, Dr. Gao cultivated a multidisciplinary approach that combines environmental engineering, waste management, and sustainable development. His strong educational background has greatly contributed to his professional success and positions him as an authority in his research fields.

🏢 Work Experience 

Dr. Gao H.Y. brings extensive experience across academia, research, and industry. Since 2017, he has served as an Assistant Researcher at Shanxi University, contributing to advanced research and mentoring graduate students. From 2015 to 2017, he worked at the State Key Laboratory of Environmental Aquatic Chemistry, Chinese Academy of Sciences, where he led key projects in environmental science. Earlier, he held a technical management role at ZhongYang Steel Co., Ltd. (2010–2014), applying his knowledge to industrial innovation. He began his career as an Analytical Chemist in the Institute of Mineral Resources Utilization, Changsha. This diverse background enables Dr. Gao to bridge academic research with practical industrial applications, especially in solid waste treatment and resource optimization.

🏅 Awards and Honors 

Dr. Gao H.Y. has received multiple honors recognizing his expertise in environmental engineering and solid waste management. He was awarded the prestigious “Pearl River Talent” of Guangdong Province and has been selected as an expert in various national and regional organizations. His roles include Expert in the Industrial Solid Waste Special Committee (China Green Building Materials Industry), China Nonferrous Metals Think Tank, and the Chinese Ceramic Society. He also serves on expert committees of the China Energy Society and Western Chemical Society, and he is the Director of both the Shanxi Metal Society and Fly Ash Industry Association. These accolades reflect his national influence, leadership, and significant contributions to environmental sustainability and technological advancement in solid waste resource utilization.

🔬 Research Focus 

Dr. Gao H.Y.’s research primarily focuses on sustainable utilization and in-situ treatment of industrial solid waste, particularly in mining regions. He integrates environmental engineering principles with industrial system design to enhance waste management practices. His work involves developing innovative techniques for recycling tailings, fly ash, and other industrial by-products, aiming to transform them into valuable materials for construction and infrastructure. Dr. Gao is also dedicated to optimizing the operational models of industrial formats to align with environmental regulations and economic efficiency. His interdisciplinary research contributes to reducing environmental impacts, conserving natural resources, and promoting green industrial development. His focus areas support China’s circular economy goals and the global agenda for sustainable and responsible resource utilization.

📊 Publication Top Notes:

  • Gao, H. (2016). H₂S emission in sludge conditioning with different inorganic salt coagulants and its relationships with sludge properties. RSC Advances, Journal Article.

  • Gao, H. (2016). Removal of norfloxacin using coupled synthesized nanoscale zero-valent iron (nZVI) with H₂O₂ system: Optimization of operating conditions and degradation pathway. Separation and Purification Technology, Journal Article.

  • Gao, H. (2016). Synthesis Method of White Carbon Black Utilizing Water-Quenching Blast Furnace Slag. Energy & Fuels, Journal Article.

  • Gao, H. (2016). Synthesis of highly effective absorbents with waste quenching blast furnace slag to remove methyl orange from aqueous solution. Journal of Environmental Sciences, Journal Article.

  • Gao, H. (2016). The Study on Comprehensive Utilization of Blast Furnace Slag. Conference Paper.