Moina Ajmeri | Sustainable Development | Best Research Article Award

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Dr. Moina Ajmeri | Sustainable Development | Best Research Article Award

Assitant Professor at National Institute of Technology Patna, India

Dr. Moina Ajmeri is a dedicated and accomplished academic serving as an Assistant Professor (Grade-II, Level-11) in the Department of Electrical Engineering at the National Institute of Technology (NIT) Patna. With an impressive h-index of 8 and over 298 citations, Dr. Ajmeri has made significant contributions to the fields of control systems, power electronics, and renewable energy systems. Throughout her career, she has demonstrated a strong commitment to research, teaching, and innovation, underlined by her involvement in several patents and high-impact journal publications. Her multidisciplinary approach and passion for advancing control techniques for complex industrial processes and energy applications have positioned her as an influential voice in her field.

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Education

Dr. Ajmeri holds a Ph.D. in Electrical Engineering from the prestigious Indian Institute of Technology (IIT) Patna, completed in 2016. Her doctoral research focused on the development of new two-degree-of-freedom control schemes tailored for integrating and unstable processes with time delay, and she graduated with a commendable CPI of 8.93/10. She also holds an M.Tech. in Electronics and Communication Engineering from Birla Institute of Technology, Mesra, Ranchi, which she completed in 2010, securing an excellent academic score of 88.50%. Her undergraduate foundation in engineering was established at Magadh University, Bodh Gaya, where she earned a B.Sc. Engineering in Electronics and Communication with distinction, obtaining 82.33% marks.

Experience

Dr. Ajmeri’s professional journey began at NIT Patna, where she joined as an Assistant Professor (On Contract) in the Department of Electronics and Communication Engineering in 2015. Post completion of her Ph.D., she transitioned to a permanent faculty role in the Department of Electrical Engineering in 2018, and since September 2022, she has held her current position as an Assistant Professor (Grade-II, Level-11). During this period, she has combined her academic instruction with active research, mentoring students, and contributing to the academic and administrative growth of the department.

Research Interest

Dr. Ajmeri’s research interests lie in process modeling and system identification, control design for both linear and nonlinear systems, and advanced control applications for power electronic circuits. Her expertise also extends to micro-grids and renewable energy systems, where she seeks to develop robust and efficient control strategies to meet the demands of modern sustainable energy networks. Her research stands at the crossroads of theory and application, striving to solve real-world industrial challenges while pushing the boundaries of control systems engineering.

Award

In recognition of her research excellence and commitment to innovation, Dr. Ajmeri has been an instrumental contributor to two patents related to high-gain DC-DC boost converter technologies, co-filed in 2023 under the aegis of NIT Patna. These patents are designed to address the challenges of high switching frequencies and multi-level energy conversion, which are pivotal in renewable energy and power electronic systems. These innovations showcase her practical problem-solving skills and her vision for transforming power electronics.

Publication

Dr. Ajmeri’s scholarly output features several high-impact journal articles. Selected examples include:

Ajmeri, M. (2024). “Novel twofold control for delayed industrial processes with integrating and inverse response characteristics,” IFAC Journal of Systems and Control (Q3).

Kumar, P., & Ajmeri, M. (2025). “A non-isolated buck-boost converter based on SEPIC topology for renewable energy applications,” Computers and Electrical Engineering, Volume 124, Part A.

Kumar, S., & Ajmeri, M. (2023). “Smith predictor–based sliding mode control with hyperbolic tangent function for unstable processes,” Transactions of the Institute of Measurement and Control (Q2).

Ajmeri, M. (2022). “Analytical design of enhanced PID controller with set-point filter for unstable processes with time delay,” International Journal of Dynamics and Control (Q2).

Ajmeri, M., & Ali, A. (2017). “Analytical design of modified Smith predictor for unstable second-order processes with time delay,” International Journal of Systems Science (Q1).

Ajmeri, M., & Ali, A. (2015). “Two degree of freedom control scheme for unstable processes with small time delay,” ISA Transactions (Q1).

Ajmeri, M., & Ali, A. (2013). “Direct synthesis based tuning of the parallel control structure for integrating processes,” International Journal of Systems Science (Q1).

These publications have not only been cited by numerous international researchers but have also inspired new studies in both academic and industrial circles, attesting to their significant scholarly impact.

Conclusion

Dr. Moina Ajmeri’s research work exemplifies academic excellence, innovation, and societal relevance. Her consistent contributions to the field of advanced control systems and renewable energy technologies have set a high benchmark for scientific research. The nominated article reflects both technical brilliance and real-world applicability, making her an ideal candidate for the Research for Best Research Article Award. Dr. Ajmeri’s dedication to pushing the boundaries of engineering knowledge and her impactful publications make her deserving of this prestigious recognition.

Tarek Ahasan | Photocatalytic Water Splitting for Hydrogen Production | Best Researcher Award

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Mr Tarek Ahasan | Photocatalytic Water Splitting for Hydrogen Production | Best Researcher Award

Graduate Research Assistant, New Mexico State University, United States

Tarek Ahasan is an accomplished Ph.D. candidate in Environmental Engineering at New Mexico State University, specializing in sustainable energy and water treatment technologies. With a strong academic foundation, including dual master’s degrees in Environmental Engineering and Environmental Science, Tarek focuses on innovative solutions for green hydrogen production and advanced water desalination. His research integrates photocatalysis and electromagnetic field applications to address global energy and water security challenges. Recognized for his contributions, Tarek has received prestigious awards, published in high-impact journals, and filed a patent for his groundbreaking work in photocatalytic systems. He is an active member of professional organizations and a leader in academic communities, dedicated to advancing sustainable technologies for a decarbonized future.

Professional Profile

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Education 🎓

Tarek Ahasan is pursuing a Ph.D. in Environmental Engineering at New Mexico State University (NMSU), expected to graduate in Fall 2025, with a concurrent Master of Science in Environmental Engineering (CGPA: 4.00/4.00). He holds a Master of Science in Environmental Science (CGPA: 3.92/4.00) and a Bachelor of Science in Soil, Water, and Environment (CGPA: 3.57/4.00) from the University of Dhaka, Bangladesh. His academic journey reflects a strong focus on sustainable energy, water treatment, and environmental systems, equipping him with the expertise to drive innovative research in green technologies.

Experience 🔬

As a Graduate Research Assistant at NMSU, Tarek has led groundbreaking projects on photocatalytic hydrogen production and electromagnetic field-enhanced desalination. He developed a novel Ag-G-TiO2 nanocomposite photocatalyst, achieving 97% dye degradation efficiency and 191 μmoles g⁻¹ h⁻¹ hydrogen production. Additionally, he optimized electromagnetic field pretreatment for membrane scaling control, achieving 51.3% water recovery. Previously, at the University of Dhaka, he advanced sustainable coagulation techniques for dye effluent treatment and conducted nationwide soil health assessments to address climate change impacts on agriculture. His work bridges research and practical applications, contributing to global sustainability goals.

Awards and Honors 🏆

Tarek has been recognized with multiple awards, including the 2023-2024 New Mexico Water Resources Research Institute (NM WRRI) student grant and the National Science and Technology Fellowship (2019-20) from the Government of Bangladesh. He earned Second Place for Outstanding Poster Presentation at the 20th Annual RMSAWWA/RMWEA Student Conference (2024) and the Texas Desal Annual Conference (2023). His research has been featured in the NMWRRI Online Newsletter, highlighting his contributions to sustainable energy and water technologies.

Research Focus 🔍

Tarek’s research centers on developing sustainable alternatives to fossil fuels, focusing on green hydrogen production through advanced photocatalysis and innovative water treatment technologies. His work includes synthesizing nanocomposite photocatalysts for visible light-driven hydrogen production and optimizing electromagnetic field applications for membrane scaling control in desalination. By integrating renewable energy systems with water security solutions, Tarek aims to address global decarbonization and resource sustainability challenges, contributing to a cleaner, more resilient future.

Publication Top Notes 📚

  1. Ahasan, T., Xu, P., & Wang, H. (2024). Dual-Function Photocatalysis in the Visible Spectrum: Ag-G-TiO2 for Simultaneous Dye Wastewater Degradation and Hydrogen Production. Catalysts, 14(8), 530.
  2. Ahasan, T., Edirisooriya, E. M. N. T., Senanayake, P. S., Xu, P., & Wang, H. (2025). Advanced TiO2-Based Photocatalytic Systems for Water Splitting: Comprehensive Review from Fundamentals to Manufacturing. Molecules, 30(5), 1127.
  3. Du, X., Perera, H., Ahasan, T., Wang, Y., Shu, F., Wang, H., Yuan, K., Anovitz, L. M., Ben Ishai, P., & Xu, P. (2025). Mechanisms of Electromagnetic Field Control on Mineral Scaling in Brackish Water Reverse Osmosis: Combined Homogenous and Heterogeneous Nucleation. Separation and Purification Technology, 355(B), 129630.

Conclusion 🌍

Tarek Ahasan is a visionary researcher dedicated to advancing sustainable energy and water treatment technologies. Through his innovative work in photocatalysis and desalination, he is paving the way for a greener, more sustainable future. His achievements in research, publications, and professional recognition underscore his commitment to addressing global energy and water challenges. Tarek’s contributions exemplify the transformative potential of environmental engineering in achieving decarbonization and resource security.

 

Eliseu Monteiro | Energy | Best Researcher Award

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Assist. Prof. Dr Eliseu Monteiro | Energy | Best Researcher Award

Asssitant Professor, University of Porto, Portugal

Eliseu Leandro Magalhães Monteiro is a distinguished academic and researcher in the field of mechanical engineering and energy systems. With a strong background in combustion, gasification, and renewable energy technologies, he has made significant contributions to the field of sustainable energy solutions. Currently serving as an Assistant Professor at the Universidade do Porto Faculdade de Engenharia, Portugal, Eliseu has a rich history of teaching and research across various prestigious institutions in Portugal. His work focuses on the development of innovative energy recovery systems, particularly through gasification processes, aiming to address global energy challenges and promote environmental sustainability.

Professional Profile

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Education 🎓

Eliseu Monteiro holds a Ph.D. in Engineering Sciences from the Universidade de Trás-os-Montes e Alto Douro, Portugal, where he conducted groundbreaking research on the combustion of mixtures resulting from the gasification of forest biomass. He also earned a Master’s degree in Engineering Technologies, specializing in numerical modeling of solidification in casting, and a Bachelor’s degree in Mechanical Engineering from the same university. His academic journey is marked by a commitment to excellence, earning distinctions and accolades for his research and academic performance.

Experience 💼

Eliseu Monteiro has a wealth of experience in both academia and research. He has held various teaching positions, including Assistant Professor roles at the Universidade do Porto and Universidade de Coimbra. Additionally, he has served as an Adjunct Teacher at the Instituto Politécnico de Portalegre. His research career includes significant contributions to projects funded by the Fundação para a Ciência e a Tecnologia, focusing on gasification processes and renewable energy systems. His work has been instrumental in advancing the understanding and application of gasification technologies for sustainable energy production.

Awards and Honors 🏆

Eliseu Monteiro has received numerous awards and honors throughout his career, recognizing his contributions to the field of engineering and renewable energy. His Ph.D. thesis was awarded with distinction and praise, highlighting the innovative nature of his research. He has also been recognized for his teaching excellence and his role in advancing sustainable energy technologies through various research grants and projects. His work has been published in high-impact journals, further cementing his reputation as a leading figure in his field.

Research Focus 🔬

Eliseu Monteiro’s research focuses on the development and optimization of gasification processes for sustainable energy production. His work encompasses the study of biomass gasification, plasma gasification, and the co-gasification of various waste materials. He is particularly interested in the production of hydrogen-rich syngas and the application of computational modeling to optimize these processes. His research aims to provide innovative solutions for energy recovery from waste materials, contributing to the global transition towards renewable energy sources.

Publication Top Notes 📚

  1. “Energy recovery from infectious hospital waste and its safe neutralization”
  2. “Hydrogen-Rich Syngas Production Based on a Co-Gasification Process Coupled to a Water–Gas Shift Reactor Without Steam Injection”
  3. “Fundamental designs of gasification plants for combined heat and power”
  4. “Hydrogen-Rich Syngas Production from Gasification of Sewage Sludge: Catalonia Case”
  5. “Analysis of Forest Residues pretreatment using solar photovoltaic”
  6. “Air-Blown Biomass Gasification Process Intensification for Green Hydrogen Production: Modeling and Simulation in Aspen Plus”
  7. “Hydrogen supply chain: Current status and prospects”
  8. “Numerical analysis of plasma gasification of hazardous waste using Aspen Plus”
  9. “Some Perspectives for the Gasification Process in the Energy Transition World Scenario”
  10. “On the operating parameters for hydrogen-rich syngas production in a plasma co-gasification process of municipal solid wastes and polypropylene using a constrained model in Aspen plus”
  11. “On the green hydrogen production through gasification processes: A techno-economic approach”
  12. “Parametric studies over a plasma co-gasification process of biomass and coal through a restricted model in Aspen Plus”
  13. “Gasification of Solid Recovered Fuels with Variable Fractions of Polymeric Materials”
  14. “Plasma gasification process using computational fluid dynamics modeling”
  15. “Biomass pre-treatment techniques for the production of biofuels using thermal conversion methods: A review”
  16. “Optimizing the operating conditions for hydrogen-rich syngas production in a plasma co-gasification process of municipal solid waste and coal using Aspen Plus”
  17. “Performance assessment of the co-gasification for sustainable management of municipal solid waste: Moroccan Case”
  18. “A Review on Plasma Gasification of Solid Residues: Recent Advances and Developments”
  19. “Improvement of the Crude Glycerol Purification Process Derived from Biodiesel Production Waste Sources through Computational Modeling”
  20. “Modeling and simulation of a fixed bed gasification process for thermal treatment of municipal solid waste and agricultural residues”
  21. “Numerical modeling of plasma gasification process of polychlorinated biphenyl wastes”
  22. “Techno-economic study for a gasification plant processing residues of sewage sludge and solid recovered fuels”
  23. “Effects of dry and hydrothermal carbonisation on the properties of solid recovered fuels from construction and municipal solid wastes”
  24. “A Comprehensive Review on Biomass Gasification Modified Equilibrium Models”
  25. “Parametric studies in the gasification agent and fluidization velocity during oxygen-enriched gasification of biomass in a pilot-scale fluidized bed: Experimental and numerical assessment”
  26. “Numerical investigation of optimum operating conditions for syngas and hydrogen production from biomass gasification using Aspen Plus”
  27. “Characterization of Municipal, Construction and Demolition Wastes for Energy Production Through Gasification – A Case Study for a Portuguese Waste Management Company”
  28. “Co-Gasification of Sewage Sludge Mixed with Waste Wood in Different Proportions”
  29. “Plasma fixed bed gasification using an Eulerian model”
  30. “Experimental and Modeling Analysis of Brewers´ Spent Grains Gasification in a Downdraft Reactor”
  31. “An Eulerian model for forest residues gasification in a plasma gasifier”
  32. “Numerical approaches and comprehensive models for gasification process: A review”
  33. “Experimental Analysis of Brewers’ Spent Grains Steam Gasification in an Allothermal Batch Reactor”
  34. “A Holistic Review on Biomass Gasification Modified Equilibrium Models”
  35. “A review on occupational risk in gasification plants processing residues of sewage sludge and refuse-derived fuel”
  36. “Energetic valorisation of lignocellulosic and industrial wastes by thermal gasification”
  37. “Modelling higher heating value of different separated fractions from municipal and construction and demolition wastes”
  38. “Solidificação de Metais: Modelação e Simulação”
  39. “Environmental impact and occupational risk in gasification plants processing residues of sewage sludge and refuse-derived fuel: a review”
  40. “Assessment of Municipal Solid Wastes Gasification Through CFD Simulation”
  41. “Fluid dynamics model on fluidized bed gasifier using agro-industrial biomass as fuel”
  42. “Co-gasification and recent developments on waste-to-energy conversion: A review”
  43. “Experimental and modeling studies of Portuguese peach stone gasification on an autothermal bubbling fluidized bed pilot plant”
  44. “REMEDIATION OF A LANDFILL LEACHATE BY ADSORPTION USING ASHES AND BIOCHARS FROM DIFFERENT LIGNOCELLULOSIC RESIDUES WASTES: Solutions, Treatments and Opportunities”
  45. “Biomass resources in Portugal: Current status and prospects”
  46. “Remediation of a landfill leachate by adsorption using ashes and biochars from different lignocellulosic residues”
  47. “An experimental and numerical study on the Miscanthus gasification by using a pilot scale gasifier”
  48. “Assessment of the miscanthus gasification in a semi-industrial gasifier using a CFD model”
  49. “Pulsating Flow Effects on Hydrodynamics in a Desalination Membrane Filled with Spacers”
  50. “Hydrogen production using plasma gasification with steam injection”

Conclusion 🌍

Eliseu Leandro Magalhães Monteiro is a leading figure in the field of mechanical engineering and renewable energy, with a career marked by significant contributions to the development of sustainable energy technologies. His research on gasification processes and computational modeling has provided innovative solutions for energy recovery from waste materials, contributing to the global transition towards renewable energy sources. Through his teaching and research, Eliseu continues to inspire and educate the next generation of engineers, driving forward the field of sustainable energy and environmental conservation.

Tao Zhu | Air Pollution Control | Best Researcher Award China

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Prof Tao Zhu | Air pollution control | Best Researcher Award

Director, University of Mining & Technology-Beijing, China

Tao Zhu, Ph.D., is a distinguished professor and director of the Institute of Atmospheric Environment Management and Pollution Control at China University of Mining and Technology (Beijing). He has authored over 100 research papers, including more than 30 SCI-indexed publications in renowned journals such as Environmental Science & Technology and Journal of Hazardous Materials. Dr. Zhu has applied for 30 patents in the past five years, with over 10 authorized and six successfully implemented in industrial applications. He has also published eight books, including four monographs. His contributions to air pollution control include the development of plasma-based treatment technologies and the co-processing of PM2.5 and heavy metals. He has led numerous national and industrial projects, generating significant economic and environmental impacts. His work in ultra-high-temperature plasma gasification and hazardous waste treatment has been widely recognized.

PROFESSIONAL PROFILE

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EDUCATION

🎓 Ph.D. in Environmental Engineering – China University of Mining and Technology (Beijing)
🎓 Master’s in Environmental Science – China University of Mining and Technology (Beijing)
🎓 Bachelor’s in Chemical Engineering – China University of Mining and Technology (Beijing)

Dr. Tao Zhu’s academic journey has been marked by a focus on air pollution control, plasma catalysis, and sustainable environmental technologies. His doctoral research contributed to the advancement of plasma-assisted air pollution mitigation techniques. Through rigorous academic training, he developed expertise in non-thermal plasma technology, single-atom catalysis, and volatile organic compound (VOC) decomposition. His educational background laid the foundation for his groundbreaking work in environmental protection and atmospheric pollution control.

EXPERIENCE

👨‍🏫 Professor & Director – Institute of Atmospheric Environment Management and Pollution Control, CUMT (Beijing)
🔬 Principal Investigator – 4 National Vertical Projects, 15 Ministry-Level Projects, 20+ Industrial Projects
🛠️ Technology Developer – Developed three-stage plasma treatment technology for industrial air pollution control
🌍 Environmental Consultant – Led hazardous waste management projects using plasma gasification
📖 Author & Researcher – Published over 100 papers and eight books on environmental science and pollution control

Dr. Zhu has pioneered several cutting-edge environmental technologies, contributing to academia and industry through his extensive research, project leadership, and consulting efforts. His plasma-based pollution control solutions have been implemented in large-scale environmental projects, significantly impacting China’s industrial waste management and air quality improvement.

AWARDS & HONORS

🏆 Outstanding Talent of the New Century – China
🏆 Outstanding Talent Award – Beijing
🏆 Sun Yuezaki Energy Science & Technology Award – National Science and Technology Development Foundation
🏆 Young Science & Technology Award – Chinese Society of Environmental Sciences
🏆 3 Provincial & Ministerial Science & Technology Progress Awards (First Completer)

Dr. Zhu’s pioneering research has been recognized nationally and internationally. His contributions to environmental engineering, particularly in air pollution control and plasma-based treatment methods, have earned him prestigious accolades, solidifying his reputation as a leading scientist in his field.

RESEARCH FOCUS

🌱 Air Pollution Control – Development of advanced plasma-assisted VOC and PM2.5 mitigation technologies
⚛️ Single-Atom Catalysis – Design of catalysts for effective gas-phase pollutant decomposition
🔥 Plasma Treatment Technologies – Application of non-thermal plasma for industrial waste gas purification
♻️ Hazardous Waste Management – Implementation of ultra-high-temperature plasma gasification solutions
🏭 Environmental Impact Assessment – Research on emission reduction strategies in coal-fired power plants

Dr. Zhu’s research integrates innovative environmental engineering solutions with industrial applications. His work aims to enhance pollution control efficiency, reduce emissions, and develop cost-effective technologies for sustainable industrial practices.

PUBLICATION TOP NOTES 📚

📖 Decomposition of benzene by non-thermal plasma processing: Photocatalyst and ozone effectInternational Journal of Environmental Science & Technology (2008)

📖 Life cycle carbon emission modelling of coal-fired power: Chinese caseEnergy (2018)

📖 An improved approach to estimate methane emissions from coal mining in ChinaEnvironmental Science & Technology (2017)

📖 Synergistic mechanism of Ce-Mn in ZSM-5 carrier catalysts for catalytic oxidation of tolueneFuel (2023)

📖 Gaseous phase benzene decomposition by non-thermal plasma coupled with nano titania catalystInternational Journal of Environmental Science & Technology (2009)

📖 Plasma-catalyzed combined dynamic wave scrubbing: A novel method for highly efficient removal of multiple pollutants from flue gas at low temperaturesJournal of Hazardous Materials (2024)

📖 Volatile organic compounds decomposition using nonthermal plasma coupled with a combination of catalystsInternational Journal of Environmental Science & Technology (2011)

📖 Preparation of zeolite X by the aluminum residue from coal fly ash for the adsorption of volatile organic compoundsFrontiers in Chemistry (2019)

📖 CO2 and SO2 emission characteristics of the whole process industry chain of coal processing and utilization in ChinaInternational Journal of Coal Science & Technology (2020)

📖 Effects of Mn, Cu, Sb, La on V–Mo–Ce/Ti SCR catalystsJournal of Rare Earths (2020)

📖 VOCs decomposition via modified ferroelectric packed bed dielectric barrier discharge plasmaIEEE Transactions on Plasma Science (2011)

📖 Porous materials confining single atoms for catalysisFrontiers in Chemistry (2021)

📖 Volatile organic compounds emission control in industrial pollution source using plasma technology coupled with F-TiO2/γ-Al2O3Environmental Technology (2015)

📖 Selective Catalytic Reduction of NO by NH3 Using a Combination of Non-Thermal Plasma and Mn-Cu/ZSM5 CatalystCatalysts (2020)

📖 Study on decomposition mechanism of toluene by non-thermal plasma coupled with catalysisJournal of Chemical Engineering of China (2011)

CONCLUSION

Dr. Tao Zhu is a leading researcher in atmospheric environment management and air pollution control, making significant contributions through innovative plasma treatment technologies and catalysis research. His extensive academic and industrial experience has led to impactful environmental solutions, shaping policies and practices in pollution control. With numerous prestigious awards, over 100 research publications, and multiple patents, he continues to push the boundaries of environmental science. His pioneering work in ultra-high-temperature plasma gasification and hazardous waste management has established him as a key figure in sustainable environmental engineering.

Baolin Liu | Electrochemical energy storage | Best Researcher Award

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Dr Baolin Liu | Electrochemical energy storage | Best Researcher Award

Postdoctor, Southern University of Science and Technology, China

Baolin Liu is a dedicated researcher with a strong academic background in chemistry and physics. He holds a Doctor of Science in Chemistry from Xinjiang University and is currently a post-doctoral fellow at the Southern University of Science and Technology. His research focuses on advanced materials for energy storage and conversion, particularly in sodium-ion batteries, supercapacitors, and catalytic applications. With over 30 publications in high-impact journals, Baolin has made significant contributions to the field of materials science. His work emphasizes the development of nanostructured materials, defect engineering, and heterostructures to enhance electrochemical performance. Baolin is also an active member of the scientific community, contributing to various collaborative projects and mentoring students.

Professional Profile

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Education 🎓

  • 2024.01-Present: Post-doctoral Fellow, Physics, Southern University of Science and Technology, China.
  • 2019.09-2023.12: Doctor of Science, Chemistry, Xinjiang University, China.
  • 2016.09-2019.06: Master of Science, Chemistry, Xinjiang University, China.
  • 2014.09-2015.06: Bachelor of Engineering, Chemical Engineering, Beijing University of Chemical Technology, China.
  • 2012.09-2016.06: Bachelor of Engineering, Chemical Engineering, Tarim University, China.

Experience 💼

  • Post-doctoral Research: Focused on advanced materials for energy storage and conversion, including sodium-ion batteries and supercapacitors.
  • Doctoral Research: Specialized in catalytic materials for CO oxidation and coal liquefaction, with expertise in nanostructured materials and defect engineering.
  • Collaborative Projects: Worked on interdisciplinary projects involving nanomaterials, electrochemistry, and catalysis.
  • Mentorship: Guided graduate and undergraduate students in research methodologies and experimental techniques.

Awards and Honors 🏆

  • Scopus Author ID: Recognized for high-impact publications in materials science and chemistry.
  • Research Excellence: Multiple papers published in top-tier journals like Journal of Colloid and Interface ScienceSmall, and Chemical Engineering Journal.
  • Collaborative Achievements: Contributed to projects funded by national and institutional grants.
  • Academic Recognition: Received accolades for innovative research in energy storage and catalytic materials.

Research Focus 🔬

Baolin Liu’s research focuses on the design and synthesis of advanced materials for energy storage and conversion. His work includes:

  • Sodium-ion Batteries: Developing high-performance anode materials using nanostructured composites and defect engineering.
  • Supercapacitors: Exploring carbon-based materials and heterostructures for enhanced electrochemical performance.
  • Catalysis: Investigating catalytic materials for CO oxidation, hydrogenation, and environmental applications.
  • Nanomaterials: Engineering nanostructured materials with tailored properties for energy and catalytic applications.

Publication Top Notes 📚

  1. 2D heterostructural Mn2O3 quantum dots embedded N-doped carbon nanosheets with strongly stable interface enabling high-performance sodium-ion hybrid capacitors
  2. Construction of WS2/NC@C nanoflake composites as performance-enhanced anodes for sodium-ion batteries
  3. Enhancing sodium-ion battery performance through crystalline water-assisted Zn2V2O7 anode material
  4. High quality bifunctional cathode for rechargeable zinc-air batteries using N-doped carbon nanotubes constrained CoFe alloy
  5. Metal-electronegativity-induced sulfur-vacancies and heterostructures of MnS1-x/ZnS-NC@C with dual-carbon decoration for high-performance sodium-ion storage
  6. Nano-bowl-like carbon confined 1T/2H-MoS2 hybrids as anode for high-performance sodium-ion storage
  7. Remarkable upgrade of hydrogen evolution activity up to 40.8 folds and mechanistic investigation of expediting charge transfer achieved by Bi2O3-modified TiO2 photocatalyst
  8. Structure and Defect Engineering of V3S4−xSex Quantum Dots Confined in a Nitrogen-Doped Carbon Framework for High-Performance Sodium-Ion Storage
  9. Synergistic promotion for the performance of photocatalytic carbon dioxide reduction by vacancy engineering and N-doped carbon nanotubes
  10. Bi@C sandwiched carbon nanolayers enables remarkable cyclability at high current density for lithium-ion batteries
  11. Construction of oxygen vacancies and heterostructure in VO2-x/NC with enhanced reversible capacity, accelerated redox kinetics, and stable cycling life for sodium ion storage
  12. Honeycomb carbon obtained from coal liquefaction residual asphaltene for high-performance supercapacitors in ionic and organic liquid-based electrolytes
  13. Oxygen self-doped hierarchical porous carbons derived from coal liquefaction residue for high-performance supercapacitors in organic and ionic liquid-based electrolytes
  14. Sulfur-Bridged Bonds Heightened Na-Storage Properties in MnS Nanocubes Encapsulated by S-Doped Carbon Matrix Synthesized via Solvent-Free Tactics for High-Performance Hybrid Sodium Ion Capacitors
  15. Constructing ultrafine Cu nanoparticles encapsulated by N-doped carbon nanosheets with fast kinetics for high-performance lithium/sodium storage
  16. Phosphorus/sulfur co-doped hard carbon with a well-designed porous bowl-like structure and enhanced initial coulombic efficiency for high-performance sodium storage
  17. Solid-State Construction of CuOx/Cu1.5Mn1.5O4 Nanocomposite with Abundant Surface CuOx Species and Oxygen Vacancies to Promote CO Oxidation Activity
  18. Copper-based catalysts for CO oxidation, 用于CO氧化的铜基催化剂研究进展
  19. In-situ impregnation of β-FeOOH on coal by solid-state reaction toward direct coal liquefaction
  20. Insight into the Crystal Structures and Surface Property of Manganese Oxide on CO Catalytic Oxidation Performance
  21. A “two-pronged” strategy: Boosting electrocatalytic oxygen reduction reaction property based on the Ni–MnO synergistic effect and high conductivity of rod-like Ni–MnO/N–C composites prepared via simple solution-free route
  22. Engineering CuOx–ZrO2–CeO2 nanocatalysts with abundant surface Cu species and oxygen vacancies toward high catalytic performance in CO oxidation and 4-nitrophenol reduction
  23. The solid-state in situ construction of Cu2O/CuO heterostructures with adjustable phase compositions to promote CO oxidation activity
  24. Fe3O4 Nanoparticles Supported on Modified Coal toward Catalytic Hydrogenation of Coal to Oil
  25. Solvent‐Free Chemical Approach to Synthesize Co Nanoparticles Supported on N‐doped Porous Carbon for Efficient Electrocatalytic Oxygen Reduction
  26. Room-Temperature Solid-State Preparation of CoFe2O4@Coal Composites and Their Catalytic Performance in Direct Coal Liquefaction
  27. Cu/Cu2O/rGO nanocomposites: solid-state self-reduction synthesis and catalytic activity for p-nitrophenol reduction
  28. Optimum Balance of Cu + and Oxygen Vacancies of CuO x ‐CeO 2 Composites for CO Oxidation Based on Thermal Treatment
  29. V-modified Co3O4 nanorods with superior catalytic activity and thermostability for CO oxidation

Conclusion 🎯

Baolin Liu is a highly deserving candidate for the Best Researcher Award. His prolific publication record, innovative research contributions, and interdisciplinary expertise make him a standout researcher in materials science and chemistry. While there are areas for improvement, such as expanding international collaborations and industry engagement, his strengths far outweigh these considerations. His work has already made a significant impact, and with continued dedication, he is poised to achieve even greater heights in his research career.

Aldona Migała-Warchoł | Sustainable Energy | Best Paper Award

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Dr Aldona Migała-Warchoł | Sustainable Energy | Best Paper Award

Depertment of Enterprise Management, Rzeszow University of Technology, Poland

Aldona Migała-Warchoł is an Assistant Professor at the Rzeszów University of Technology in Poland. With extensive expertise in quantitative methods, she specializes in Descriptive and Mathematical Statistics, Econometrics, Forecasting, and Statistical Analysis. She has actively participated in international conferences across Europe, presenting research on socio-economic development and human development indices. As a lecturer under the Erasmus+ Programme, she has conducted seminars at universities in Turkey, Portugal, Lithuania, and Cyprus. Her research focuses on modeling socio-economic development, living standards, and economic indicators within the European Union. She has contributed significantly to academia through numerous peer-reviewed publications and collaborations. Additionally, she has served as an Economic Expert for the Regional Center for International Debate, supporting budget planning initiatives. With a Ph.D. in Economics from the Cracow University of Economics, her dissertation analyzed spatial differentiation in quality of life. Her work continues to impact economic modeling and policy-making.

PROFESSIONAL PROFILE

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STRENGTHS FOR THE AWARD

  1. Extensive Academic and Research Experience – With over a decade as an Assistant Professor, Aldona Migała-Warchoł has significantly contributed to quantitative methods, econometrics, and statistical analysis.
  2. Significant Contributions to Socio-Economic Development Research – Her work focuses on modeling socio-economic development in the European Union, using advanced statistical and econometric methods.
  3. International Recognition and Engagement – She has presented research at prestigious international conferences in Turkey, Lithuania, France, and Cyprus, demonstrating global influence.
  4. Strong Publication Record – With multiple publications in peer-reviewed journals and contributions to international conferences, her research is widely cited, especially in socio-economic modeling and quality-of-life assessments.
  5. Involvement in European Research Initiatives – Participation in the Erasmus+ Programme as a lecturer and seminar leader highlights her contribution to academic exchange and collaboration.
  6. Diverse Research Topics – Her studies cover human development indices, economic security, sustainable development, and statistical modeling, showcasing interdisciplinary expertise.

AREAS FOR IMPROVEMENT

  1. Higher Citation Impact – While her research is well-recognized, increasing citations in high-impact journals could further solidify her influence in the field.
  2. Expanded Collaboration – More international research collaborations, particularly in cross-country comparative studies, could enhance the global reach of her work.
  3. Policy Implementation – Bridging the gap between theoretical models and real-world policy applications could increase the practical impact of her research.

EDUCATION 

Aldona Migała-Warchoł earned her Ph.D. in Economics from the Cracow University of Economics in 2010, with a dissertation titled “Spatial Differentiation of Quality of Life and Standard of Living in Podkarpackie Voivodeship,” supervised by Professor Tadeusz Grabiński. She previously obtained a Master of Science degree from the same institution in Information Technology and Econometrics, specializing in Information Technology in Economics. As part of her master’s program, she participated in the English Track Program for one semester. Her master’s thesis, supervised by Professor Ryszard Tadeusiewicz, focused on “Artificial Neural Networks and Their Use in Economics and Management.” Throughout her academic journey, she has developed expertise in quantitative methods, economic modeling, and statistical analysis. Her education laid the foundation for her extensive research on socio-economic development, human development indices, and statistical applications in economic forecasting, influencing her contributions to academia and international research collaborations.

EXPERIENCE 

Aldona Migała-Warchoł has been an Assistant Professor at Rzeszów University of Technology since 2013, teaching courses such as Descriptive Statistics, Econometrics, and Forecasting. Previously, she was an Assistant Professor at the University of Information Technology and Management in Rzeszów (2010–2012), where she taught statistical analysis and economic modeling. She has actively participated in the Erasmus+ Programme as a visiting lecturer at universities in Turkey, Portugal, Lithuania, and Cyprus. As a conference speaker, she has presented research on socio-economic development in European countries at international events in France, Turkey, and Lithuania. Additionally, she worked as an Economic Expert at the Regional Center for International Debate (2008–2016), focusing on budget planning. She also served as the University Coordinator for ECTS at the University of Information Technology and Management (2003–2012), managing student exchange programs. Her experience bridges academia and applied economic research in international contexts.

AWARDS AND HONORS 

Aldona Migała-Warchoł has received multiple recognitions for her contributions to socio-economic research and quantitative analysis. Her work in modeling economic development has been acknowledged through invitations to present at prestigious international conferences. She has been a keynote speaker at various academic events, including the International Science and Technology Conference (ISTEC) in Paris. Under the Erasmus+ Programme, she has been recognized as a distinguished visiting lecturer at institutions such as Akdeniz University in Turkey and Universidade Lusófona de Humanidades e Tecnologias in Portugal. Her research publications in high-impact journals on socio-economic indicators and economic forecasting have garnered citations and recognition within the academic community. Her role as an Economic Expert at the Regional Center for International Debate under the Ministry of Foreign Affairs further highlights her expertise in policy-driven economic planning. Her consistent contributions continue to shape economic research and policy discussions in the European Union.

RESEARCH FOCUS 

Aldona Migała-Warchoł specializes in socio-economic modeling, statistical analysis, and economic forecasting. Her research primarily focuses on the application of quantitative methods to assess economic development, living standards, and the Human Development Index (HDI) in European Union countries. She has conducted extensive studies on the impact of education, innovation, and economic indicators on human development. Her work integrates econometric models, cluster analysis, and artificial intelligence-based techniques such as neural networks to analyze economic trends. She has examined spatial differentiation in living standards, analyzing regional disparities and economic growth patterns. Additionally, her research extends to sustainable development and the circular economy within the European context. Her contributions, including high-impact journal publications and conference presentations, provide valuable insights for policymakers, economists, and researchers. Through interdisciplinary approaches, she continues to explore innovative methodologies in economic modeling, contributing to academic advancements and practical applications in economic planning.

PUBLICATION TOP NOTES

  1. Living Standards of EU Countries’ Residents: Impact of Education and Innovation
  2. Ranking Poziomu Życia w Powiatach w Latach 2003-2012 z Uwzględnieniem Korelacji Przestrzennych
  3. Ocena Zróżnicowania Poziomu Życia Mieszkańców Województwa Podkarpackiego
  4. The Application of Customized Human Development Index to the Analysis of Socio-Economic Development of the European Union Member States
  5. Testing the Polish Society Security
  6. Perspektywy Rozwoju Transportu Lotniczego Typu Cargo
  7. Wpływ Kapitału Ludzkiego na Wyniki Finansowe Organizacji
  8. Forecasting the Number of Cases and Deaths from COVID-19
  9. Wykorzystanie Analizy Skupień do Klasyfikacji Powiatów Województwa Podkarpackiego według Wybranych Wskaźników Rozwoju Społeczno-Gospodarczego
  10. Specyfika Systemu Rachunkowości Krajów Reprezentujących Model Anglosaski i Kontynentalny
  11. The Circular Economy vs the Sustainable Development Approach to Production and Consumption: The Case of the European Union Countries
  12. The Influence of the Economic Situation on the Socio-Economic Development in the European Union Countries by Means of the Modified HDI Index
  13. The Research of Socio-Economic Development in the European Union Countries with an Application of the Modified HDI Indicator
  14. Modeling of Socio-Economic Development in European Union Countries
  15. Wykorzystanie Analizy Korespondencji do Opisu Jakości Życia Mieszkańców Województwa Podkarpackiego
  16. Wykorzystanie Metodologii Wskaźnika HDI do Badania Poziomu Życia Mieszkańców Krajów Unii Europejskiej
  17. Classification of the European Union Countries with an Application of the Modified Human Development Index
  18. Innowacyjność Gospodarki a Poziom Życia Mieszkańców Państw Unii Europejskiej
  19. The Analysis of Changes in Mortality in Traffic in the European Union Countries in the Period 1991-2011
  20. Ograniczenia Funkcji Komunikacyjnej Opakowań Produktów Spożywczych Użytkowanych Przez Starszych Konsumentów

CONCLUSION

Aldona Migała-Warchoł is a highly qualified candidate for the Best Researcher Award due to her impactful research in socio-economic development, extensive teaching experience, and global academic engagements. Strengthening citation impact and enhancing practical policy applications could further solidify her candidacy.

CENKER AKTEMUR | Energy | Best Researcher Award

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Assist. Prof. Dr CENKER AKTEMUR | Energy | Best Researcher Award

Assistant Professor, Sivas University of Science and Technology, Turkey

Asst. Prof. Dr. Cenker Aktemur is a distinguished academic in Mechanical Engineering, specializing in thermodynamics, refrigeration systems, energy storage, and renewable energy. He completed his PhD at Kocaeli University, focusing on solar-assisted absorption and vapor compression cascade refrigeration systems. Dr. Aktemur’s extensive academic journey includes earning his MSc and BSc from Eastern Mediterranean University. Currently, he serves as an Assistant Professor at Sivas University of Science and Technology. Dr. Aktemur has an impressive publication record with notable works in energy analysis and optimization, showcasing his dedication to sustainability and energy efficiency.

PROFESSIONAL PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARDS

  1. Extensive Academic Background
    • PhD in Mechanical Engineering with a focus on thermodynamics and renewable energy at Kocaeli University, supported by a prestigious scholarship under CoHE’s 100/2000 Program.
    • Master’s and Bachelor’s degrees in Mechanical Engineering, demonstrating a robust foundation in the field and fluency in English as the medium of education.
  2. Research Excellence
    • Published extensively in high-impact journals, covering topics like energy systems, thermodynamics, and renewable energy technologies.
    • Citations reflect strong contributions to refrigeration, thermal management, and sustainable energy systems, with notable works like:
      • Energy and exergy analysis of environmentally friendly refrigerants.
      • Optimization studies for insulation and energy savings.
  3. Professional Experience
    • Current role as an Assistant Professor at Sivas University of Science and Technology, leading research and academic initiatives.
    • Previous industrial experience as an R&D Engineer at CMAK Crane Systems, adding a practical dimension to theoretical expertise.
  4. Recognition and Awards
    • Scholarships for both undergraduate and graduate studies.
    • Consistent academic excellence, highlighted by Certificates of Honor and High Honor during undergraduate education.
  5. Interdisciplinary Focus
    • Expertise spans thermodynamics, refrigeration, solar energy, energy storage, and energy management, making a versatile and impactful researcher.

AREAS FOR IMPROVEMENT

  1. Collaboration and Visibility
    • Expanding international collaborations can increase the global visibility of research and diversify perspectives.
    • More active participation in international conferences and symposia to enhance networking opportunities.
  2. Grant Acquisition and Projects
    • Leadership in obtaining competitive research grants could further validate the impact and applicability of research.
    • Initiating or leading large-scale projects on renewable energy systems would strengthen professional credentials.
  3. Broader Dissemination
    • While publications are numerous, outreach through public lectures, workshops, or policy recommendations could amplify the societal impact of research.

EDUCATION

🎓 PhD in Mechanical Engineering – Kocaeli University (2018-2023)

  • Dissertation: Thermodynamic Performance Enhancement of Solar-Assisted Absorption and Vapor Compression Cascade Refrigeration Cycle
    🎓 MSc in Mechanical Engineering – Eastern Mediterranean University (2015-2017)
  • Thesis: Energy and Economic Analyses of Natural Gas Heating Systems
    🎓 BSc in Mechanical Engineering – Eastern Mediterranean University (2010-2015)
  • Capstone Project: Design and Manufacturing of Reverse Shoulder Prosthesis

EXPERIENCE

💼 Assistant Professor – Sivas University of Science and Technology (2024–Present)
💼 R&D Engineer – CMAK Crane Systems (2023-2024)

AWARDS AND HONORS

🏆 PhD Scholarship from CoHE 100/2000 Program (2018-2022)
🏆 MSc Scholarship (100%) and BSc Scholarship (50%) (2010-2017)
🏆 Certificates of Honor and High Honor during Undergraduate Studies (2011-2015)

RESEARCH FOCUS

🔬 Thermodynamic optimization of refrigeration systems
🔬 Renewable energy integration with advanced energy storage
🔬 Energy management and efficiency
🔬 Sustainable thermodynamic cycles

PUBLICATION TOP NOTES

  • Comparative energy and exergy analysis of a subcritical cascade refrigeration system using low global warming potential refrigerants 🌍
  • Optimum insulation thickness for the exterior walls of buildings in Turkey 🏠
  • Energy and exergy analysis of a subcritical cascade refrigeration system with internal heat exchangers ♻️
  • Thermodynamic performance enhancement of booster-assisted ejector expansion refrigeration systems 🌞
  • An overview of natural gas as an energy source for various purposes 🔥
  • Thermodynamic optimization of booster-ejector vapor compression refrigeration systems with R152a/Cu nano-refrigerant 🌱
  • A comparison of optimization techniques for energy systems design 🤖
  • Determination of optimum insulation thicknesses for Turkey’s climate regions 🌐
  • Optimization on the thermal insulation layer thickness in buildings 📐
  • Estimation of heating energy requirement and fuel consumption in prototype buildings 🏢
  • Optimizing insulation thickness based on wall orientations 🌅
  • Thermodynamic optimization of LiBr+LiCl/H2O absorption chillers 🌡️
  • Advanced exergy approaches on R41/R1233ZD cascade refrigeration systems 🧪
  • Energetic analysis of solar-driven absorption refrigeration systems ☀️
  • Integrated ORC-VCR system assessment 🔧
  • Overview of trigeneration systems 📊

CONCLUSION

Cenker Aktemur demonstrates a remarkable combination of academic rigor, research productivity, and professional expertise. His work in thermodynamic performance optimization and energy-efficient systems addresses critical global challenges in energy sustainability. While opportunities exist to broaden his influence through collaborations and leadership in large-scale projects, his accomplishments and trajectory strongly position him as a deserving candidate for the Best Researcher Award.

Hurayra Md Abu | Energy Power | Best Researcher Award

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Mr Hurayra Md Abu | Energy Power | Best Researcher Award

Student/Member, North China Electric Power University, China

Md Abu Hurayra is a dedicated mechanical engineering student at North China Electric Power University (NCEPU), Beijing, China. Specializing in heat and mass transfer, energy storage, computational fluid dynamics (CFD), new energy materials, and mechanical design, Hurayra is committed to pushing the boundaries of sustainable energy solutions. With a top rank in both his Bachelor’s and Diploma programs, he has established a solid foundation in mechanical engineering. His research interests focus on enhancing energy efficiency, exploring innovative energy storage materials, and applying AI in mechanical design. Hurayra is recognized for his contributions to green technologies and sustainable practices, which are reflected in his published work. He continues to pursue academic excellence, aiming to drive advancements in energy and mechanical engineering. Hurayra’s dedication to his field is evident in his achievements, and he is poised to make significant contributions to the industry.

Profile

Google Scholar

Strengths for the Award

Md Abu Hurayra demonstrates exceptional academic and research capabilities, which make him a strong contender for the Best Researcher Award. His academic achievements, including being ranked 1st in both his Bachelor’s and Diploma programs, highlight his commitment to excellence. His research focuses on critical areas such as heat and mass transfer, energy storage, new energy materials, and the application of AI in mechanical design. His work on biomaterials for energy storage, published in Green Technologies and Sustainability, reflects his contribution to sustainable technologies, a key area of global importance. Hurayra has shown solid potential in translating theoretical knowledge into practical, innovative solutions for energy efficiency and sustainability, positioning him as a future leader in the field.

Areas for Improvement

While Hurayra has made impressive strides in his academic journey, there are a few areas where further development could strengthen his profile for the award. His citation index, publication count, and involvement in industry-sponsored projects could be expanded to demonstrate the broader impact and recognition of his research. Gaining more hands-on experience in applied industry research, as well as publishing more articles in high-impact journals, could further establish his research visibility. Also, leadership in collaborative research and editorial roles in high-tier journals could amplify his academic influence.

Education 

Md Abu Hurayra is currently pursuing a Bachelor of Science in Mechanical Engineering at North China Electric Power University (NCEPU), Beijing, China, with an impressive score of 87.73% in the 6th semester and ranking 1st out of 35 students. He has demonstrated outstanding academic performance, reflecting his passion and commitment to the field of mechanical engineering. Prior to his undergraduate studies, Hurayra completed a Diploma in Mechanical Technology at the Bangladesh Sweden Polytechnic Institute (BSPI) in Chittagong, Bangladesh, where he earned a CGPA of 3.93 out of 4.00, securing the top rank in his class. His educational background provides him with a comprehensive understanding of mechanical engineering principles, reinforced by his expertise in energy systems, heat transfer, and mechanical design. Hurayra’s academic achievements highlight his strong technical abilities and potential for future innovation in the mechanical and energy engineering sectors.

Experience 

Md Abu Hurayra has been actively involved in various research and consultancy projects during his academic journey. At North China Electric Power University, he has participated in cutting-edge research related to heat and mass transfer, energy storage, and CFD. His involvement in these projects has allowed him to apply theoretical knowledge to real-world challenges, particularly focusing on enhancing energy storage systems and exploring new energy materials. Hurayra has also contributed to collaborative industry projects, where he worked alongside professionals to develop innovative mechanical design solutions, integrating AI to optimize performance. His technical skills, combined with his ability to collaborate effectively with diverse teams, have positioned him as a valuable asset to research initiatives. Additionally, Hurayra’s experience in publishing research articles and presenting at conferences further demonstrates his growing influence in the field of mechanical engineering, particularly in energy and sustainability-related projects.

Awards and Honors

Md Abu Hurayra has received several academic and research-related honors in recognition of his dedication and excellence. He was ranked 1st in both his Bachelor’s program at North China Electric Power University (NCEPU) and his Diploma course at Bangladesh Sweden Polytechnic Institute (BSPI), reflecting his academic prowess and commitment to mechanical engineering. His research in energy storage and sustainable technologies has been acknowledged by peers and faculty, positioning him as a promising young researcher. Hurayra’s scholarly achievements include recognition for his work in heat and mass transfer, where he has contributed valuable insights into energy efficiency. His leadership in various research initiatives, combined with his ability to apply theoretical concepts to real-world applications, has earned him respect within the academic community. As he continues his studies and research, Hurayra is expected to receive further recognition for his contributions to energy technologies and mechanical design.

Research Focus 

Md Abu Hurayra’s primary research focus lies at the intersection of heat and mass transfer, energy storage systems, and the application of AI in mechanical design. His research interests extend to developing new energy materials that can enhance the efficiency and sustainability of energy storage technologies. Hurayra’s work in computational fluid dynamics (CFD) explores how fluid dynamics can be optimized in energy systems, such as batteries and renewable energy systems, to maximize performance. He is passionate about green technologies and sustainable solutions that address the growing energy challenges of today’s world. Hurayra also focuses on the application of AI in mechanical design to improve system optimization, reduce energy consumption, and foster innovation in energy-efficient products. His interdisciplinary approach, integrating material science, thermodynamics, and advanced computational techniques, places him at the forefront of research into next-generation energy solutions.

Publication Top Notes

  1. Biomaterials for energy storage: Synthesis, properties, and performance 🌱🔋 (MS Chowdhury, MS Oliullah, RT Islam, MA Hurayra, MZ Al Mahmud, et al.) Green Technologies and Sustainability, 100152

Conclusion

Md Abu Hurayra possesses a strong foundation in mechanical engineering and energy systems. His research contributions to sustainable energy storage and mechanical design are notable, and his potential for future innovation is clear. While there is room for further growth in terms of publishing more research and gaining wider industry exposure, his dedication, academic achievements, and the impact of his work on energy solutions make him a highly suitable candidate for the Best Researcher Award. With continued research contributions and collaborations, Hurayra is poised to become a leading figure in the field of mechanical and energy engineering.

 

Fanghua Li | Geothermal Energy | Best Researcher Award

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Dr. Fanghua Li | Geothermal Energy | Best Researcher Award

Research Assistant , Guangxi University ,China

Dr. Fanghua Li is a highly accomplished researcher in civil and communication engineering. Born on March 1, 1986, in Nanning, Guangxi, she is currently pursuing a Ph.D. in Civil Engineering at Guangxi University, where she has been a key figure in research and development. Dr. Li has a strong foundation in communication engineering, having completed her master’s degree at Hunan University and undergraduate studies at Xi’an University of Technology. With a unique combination of civil and communication engineering expertise, Dr. Li’s work focuses on sustainable infrastructure, energy systems, and environmental impact. She has contributed significantly to several high-impact research projects, particularly those addressing urban heat islands, energy storage, and nanotechnology applications. Dr. Li’s interdisciplinary research has earned her recognition in the field of engineering, and her publications continue to influence both academic and practical applications in civil and energy systems engineering.

Profile

Scopus

Strengths for the Award

  1. Diverse and High-Impact Research Dr. Fanghua Li’s research spans several critical areas, including civil engineering, communication engineering, and the application of nanotechnology in thermal energy systems. Her work on permeable concrete, urban heat island effects, roadbed reflectivity, and energy storage materials is both innovative and impactful.Notably, she has contributed to the following areas:
    • Evaporation resistance and urban heat island effects: This research addresses environmental and sustainability concerns that have wide-ranging urban applications.
    • Reflectivity of roadbeds in cold regions: The ability to regulate temperature through reflective materials can lead to more sustainable infrastructure in cold climates.
    • Thermal performance in energy systems: Her work on nanofluid behavior and thermal storage in porous media is important for enhancing the efficiency of renewable energy systems and buildings.

    These projects, especially those funded by national science foundations, demonstrate the significance and practical applications of her work.

  2. Publication Record Dr. Li has published extensively in reputable journals such as Energy and Buildings, Journal of Molecular Liquids, Powder Technology, and Cold Regions Science and Technology. Her papers cover a range of important topics from heat flux in pavement structures to the use of nanomaterials in improving thermal energy storage. Her publications have attracted significant citations (e.g., over 160 citations for one of her papers), highlighting her influence in her field.Notable publications include:
    • Energy storage and thermal management: Studies on improving heat transfer through nanomaterials in porous structures and phase change materials (PCMs) highlight her contribution to sustainable energy solutions.
    • Cooling performance of materials: Research into materials that can mitigate heat absorption in urban environments directly addresses climate change concerns.
  3. Research Leadership and Project Management Dr. Li’s leadership roles in various research projects, including her position as a key laboratory manager at Guangxi University, demonstrate strong organizational and collaborative skills. She has led several successful research initiatives, evidenced by the substantial funding received for her projects and her active involvement in guiding young researchers in the field.
  4. Multidisciplinary Expertise Dr. Li’s background in communication engineering, combined with her advanced studies in civil engineering, allows her to approach problems from a multidisciplinary perspective, which is essential in today’s research landscape. Her ability to bridge the gap between different fields enhances the quality and depth of her research.

Areas for Improvement

  1. Broader Interdisciplinary Collaboration While Dr. Li’s work is multidisciplinary, there could be further opportunity to collaborate with researchers in adjacent fields such as urban planning, environmental sciences, and policy to expand the practical applications of her findings. Collaborations in these areas could enhance the societal impact of her work, especially in urban sustainability.
  2. Public Engagement and Outreach Given the relevance of Dr. Li’s research to current global challenges such as climate change and urban heat islands, there is a potential to improve the visibility of her work outside the academic community. Engaging with policymakers, urban planners, and the public could help translate her research into real-world solutions.
  3. Research Diversification While Dr. Li’s focus on thermal management and nanomaterials is vital, expanding her research into other emerging areas such as smart cities or advanced materials for infrastructure resilience could further elevate her profile as a researcher. Additionally, exploring more innovative technological solutions like AI-driven modeling for energy systems could be a valuable direction for future research.

Education 

Dr. Fanghua Li began her academic journey at Xi’an University of Technology, where she earned her Bachelor’s degree in Communication Engineering (2005–2009). Building on her undergraduate education, she pursued a Master’s degree in Communication Engineering at Hunan University (2009–2012), where she gained expertise in communications technology. Following this, Dr. Li furthered her academic career by enrolling in a PhD program at Guangxi University (2020–present), focusing on Civil Engineering. Her current doctoral research explores innovative solutions for urban sustainability, with an emphasis on materials science, thermal management, and energy-efficient infrastructures. With a background that combines communication systems and civil engineering, Dr. Li is uniquely positioned to contribute to interdisciplinary research, particularly in the fields of urban planning, environmental engineering, and energy efficiency. Her commitment to education and research exemplifies her dedication to advancing both scientific knowledge and practical applications.

Experience 

Dr. Fanghua Li’s professional career began in 2012 when she joined the Huizhou Branch of China Mobile in Network Maintenance, where she worked until March 2013. This early role helped her develop a solid foundation in communication systems and infrastructure maintenance. In 2013, she transitioned to Guangxi University, where she took on a leadership role as the Key Laboratory Manager from 2013 to 2020. In this position, Dr. Li managed various cutting-edge research projects and was responsible for overseeing laboratory operations and fostering collaborative research initiatives. Her time at Guangxi University provided her with significant experience in managing large-scale research projects and mentoring junior researchers. Throughout her career, Dr. Li has contributed to a range of impactful research projects in civil and environmental engineering, particularly in areas related to sustainable infrastructure and energy efficiency. Her ability to bridge research with practical applications has positioned her as a leader in her field.

Awards and Honors 

Dr. Fanghua Li has earned multiple recognitions for her contributions to civil and environmental engineering. Notably, she was involved in NSFC Youth Projects such as “Evaporation Resistance Characteristics of Permeable Concrete” and “Reflectivity of Roadbeds in Cold Regions”, both of which were ranked third in their respective categories. These projects brought her recognition in the field of urban heat island mitigation and infrastructure sustainability. In addition, Dr. Li has received funding from prestigious institutions such as the Guangxi Natural Science Foundation for her research on urban canyon reflectivity and its environmental applications. Her publications in leading academic journals, including Energy and Buildings and Journal of Molecular Liquids, have attracted significant citations, further establishing her as a recognized leader in her research areas. Her interdisciplinary expertise in civil engineering, energy systems, and nanotechnology has earned her a reputation for innovation and excellence within the academic and professional communities.

Research Focus 

Dr. Fanghua Li’s research primarily focuses on sustainable infrastructure, energy systems, and the integration of nanotechnology in civil engineering applications. Her research addresses critical environmental challenges such as the urban heat island effect, the reflectivity of roadbeds, and energy storage systems. Dr. Li has conducted extensive studies on permeable concrete and its role in mitigating urban heat, as well as nanofluids for enhancing heat transfer in energy systems. She has also explored the use of phase change materials (PCMs) and porous media for improving the efficiency of thermal energy storage. A particular area of interest is her work on energy-efficient building materials and thermal management systems, which includes developing strategies for controlling temperature variations in urban environments. Dr. Li’s interdisciplinary expertise allows her to approach these problems from multiple angles, integrating civil engineering, material science, and energy technology to create practical, sustainable solutions.

Publications

  • “An innovative simplified approach for conductive heat flux in pavement structures”Energy and Buildings, 2024 🔥
  • “Free convection simulation of hybrid nanomaterial in permeable cavity with inclusion of magnetic force”Journal of Molecular Liquids, 2021 🔬
  • “Influences of imposed magnetic force on treatment of hybrid nanofluid involving non-Darcy porous model”International Communications in Heat and Mass Transfer, 2021 💨
  • “Melting process of nanoparticle enhanced PCM through storage cylinder incorporating fins”Powder Technology, 2021 ❄️
  • “Performance of ventilation system involving thermal storage unit considering porous media”Journal of Energy Storage, 2020 🔋
  • “Finned unit solidification with use of nanoparticles improved PCM”Journal of Molecular Liquids, 2020 🌡️
  • “Numerical study for nanofluid behavior inside a storage finned enclosure involving melting process”Journal of Molecular Liquids, 2020 💧
  • “Experimental study on the cooling performance of shading boards with different emissivities at the underside”Cold Regions Science and Technology, 2020 🏙️
  • “Moist curing increases the solar reflectance of concrete”Construction and Building Materials, 2019 🌞
  • “The amplitude and maximum of daily pavement surface temperature increase linearly with solar absorption”Road Materials and Pavement Design, 2017 🌡️

Conclusion

Dr. Fanghua Li is a highly accomplished and innovative researcher whose work addresses important environmental and energy challenges. She demonstrates excellence in both the quality and impact of her research, which is backed by substantial funding and numerous high-impact publications. Her interdisciplinary expertise, leadership skills, and contribution to sustainable infrastructure and energy solutions make her a strong candidate for the Best Researcher Award.While there is room for growth in terms of broadening interdisciplinary collaborations and engaging with external stakeholders, her research record, leadership, and significant contributions to both academia and society strongly support her candidacy for this prestigious award.

Dimitris Aivaliotis | Nanotechnology for Energy Applications | Best Innovation Award

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Mr Dimitris Aivaliotis | Nanotechnology for Energy Applications | Best Innovation Award

Graduate, Hellenic Mediterranean University – HMU, Greece

Dimitris Aivaliotis is a dedicated electrical engineer from Greece, currently pursuing an MSc in Nanotechnology for Energy Applications at the Hellenic Mediterranean University. With a strong foundation in Electrical and Computer Engineering, he has engaged in practical training in electronics laboratories, enriching his technical skills and hands-on experience. Passionate about advancing energy technologies, Dimitrios actively contributes to research and development in nanotechnology. He is committed to leveraging innovative solutions for energy applications and has collaborated with esteemed researchers in his field.

Profile

ORCID

Strengths for the Award

Dimitris Aivaliotis demonstrates a robust foundation in Electrical and Computer Engineering, supported by his practical training and ongoing Master’s studies in Nanotechnology for Energy Applications. His publication, “Metal-Ion Intercalation Mechanisms in Vanadium Pentoxide and Its New Perspectives,” reflects a significant contribution to understanding energy materials, showcasing his ability to engage in impactful research. Collaborating with established researchers indicates his capability to work within a team, enhancing the quality of his work. His commitment to sustainability and innovation positions him as a forward-thinking researcher in the energy sector.

Areas for Improvement

While Dimitris has made noteworthy contributions, expanding his research portfolio could further strengthen his candidacy. Engaging in more diverse projects or interdisciplinary collaborations would enhance his experience and visibility in the field. Additionally, seeking opportunities for public speaking or presenting at conferences could improve his communication skills and networking capabilities, which are essential for a successful research career.

Education 

Dimitrios Aivaliotis began his academic journey at the Hellenic Mediterranean University in October 2010, where he earned a degree in Electrical Engineering T.E. in January 2022. His education laid a solid foundation in Electrical and Computer Engineering, equipping him with essential skills and knowledge. In March 2022, he embarked on a Master’s program focused on Nanotechnology for Energy Applications, where he is currently deepening his expertise. His coursework emphasizes the intersection of nanotechnology and energy systems, preparing him to tackle contemporary challenges in sustainable energy solutions.

Experience 

Dimitrios Aivaliotis has gained valuable practical experience through his training at the Hellenic Mediterranean University, where he worked in an electronics laboratory from June to November 2020. This role allowed him to apply theoretical knowledge in a real-world setting, enhancing his understanding of electronic systems and instrumentation. His involvement in research projects, particularly in the field of nanotechnology, showcases his ability to collaborate with peers and contribute to cutting-edge scientific inquiries. Dimitrios’s hands-on experience and academic background uniquely position him to pursue innovative solutions in energy applications.

Awards and Honors 

While specific awards and honors are not listed, Dimitrios Aivaliotis’s academic achievements and contributions to research signify his commitment to excellence in his field. His ongoing studies in Nanotechnology for Energy Applications reflect his ambition and dedication to advancing energy technologies. Engaging in collaborative research and publishing a journal article demonstrates his capability and recognition within the academic community. As he continues his educational journey, Dimitrios aims to contribute significantly to the field, potentially earning accolades and recognition for his innovative work in sustainable energy solutions.

Research Focus

Dimitrios Aivaliotis’s research focus lies at the intersection of nanotechnology and energy applications. He is particularly interested in the mechanisms of metal-ion intercalation, as explored in his published work, “Metal-Ion Intercalation Mechanisms in Vanadium Pentoxide and Its New Perspectives.” His studies aim to advance the understanding of materials that can enhance energy storage and conversion technologies. By investigating the properties and applications of nanomaterials, Dimitrios seeks to contribute to the development of more efficient energy systems. His passion for sustainability drives his research, with the ultimate goal of addressing global energy challenges through innovative nanotechnology solutions.

Publication Top Notes

📄 Metal-Ion Intercalation Mechanisms in Vanadium Pentoxide and Its New Perspectives

Conclusion

Dimitrios Aivaliotis is a promising candidate for the Best Researcher Award. His solid academic background, practical experience, and significant contributions to energy research underscore his potential. By addressing areas for improvement, he can elevate his research profile and make even greater strides in the field of nanotechnology and sustainable energy solutions.