Young Il Kim | Energy | Best Researcher Award

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Prof. Young Il Kim | Energy | Best Researcher Award

Professor of School of Architecture at Professor of School of Architecture, China.

Professor Young Il Kim is a distinguished academic and researcher in the fields of mechanical engineering and architecture, currently serving as a Professor at the School of Architecture, Seoul National University of Science and Technology. With a career spanning over three decades, he has made significant contributions to HVAC systems, indoor air quality, and building energy simulation. Known for his expertise in sustainable and smart building systems, Professor Kim holds numerous leadership positions in professional societies dedicated to air-conditioning, energy, and smart building innovations. His research has helped advance eco-friendly and energy-efficient technologies in building design. He is currently the Dean of the Graduate School of Housing and Urban Studies, where he is pioneering research on smart urban living. His technical skills and commitment to the integration of environmental considerations into urban design make him a leading figure in sustainable building technologies in Korea and beyond.

Professional Profile

Education

Professor Kim holds a robust academic background in mechanical engineering, with both B.S. and M.S. degrees from Seoul National University, completed in 1984 and 1986, respectively. He further pursued his studies abroad, obtaining a Ph.D. from the University of Michigan in 1993. This blend of education from top institutions in South Korea and the United States provided him with a broad, international perspective and a rigorous foundation in engineering principles, particularly in thermal systems and environmental control. His academic background underpins his research into complex energy systems and building sustainability. The education he received at these esteemed institutions has been instrumental in shaping his approach to urban sustainability and innovative building systems, and continues to support his contributions to academic and professional communities in Korea and internationally.

Professional Experience

Professor Kim has an extensive career that blends academic research with practical applications in building systems and mechanical engineering. Beginning as a researcher at the Korea Advanced Institute of Science and Technology, he further honed his expertise as a student researcher at Ford Motor Company and a post-doctoral fellow at the University of Michigan. His career progressed with his role as Center Head at the Korea Institute of Science and Technology, where he was involved in leading critical projects in environmental and building systems research. Since 2005, he has been a Professor at Seoul National University of Science and Technology, actively contributing to both research and education in sustainable architecture. Currently, he serves as Dean of the Graduate School of Housing and Urban Studies, a role in which he oversees research into eco-friendly and smart housing solutions, further cementing his leadership in the academic field.

Research Interests

Professor Kim’s research interests lie primarily in thermal and environmental control within building systems, focusing on innovations in HVAC systems, indoor air quality management, and energy-efficient building design. He is particularly interested in the development of sustainable technologies that reduce energy consumption and improve air quality in buildings. In recent years, his research has expanded to include the “smartification” of urban spaces, exploring how advanced technologies can create more eco-friendly and resilient cities. He is dedicated to addressing the environmental challenges posed by urban growth through smart building systems that prioritize resource efficiency and sustainable design. His research aligns with the global movement toward greener architecture and reflects his commitment to creating healthy, energy-efficient indoor environments.

Research Skills

Professor Kim is skilled in various research techniques integral to sustainable building and HVAC systems. He has expertise in building energy simulation, allowing him to model and analyze energy flows within buildings to optimize their efficiency. His technical skills extend to indoor air quality assessments, a crucial factor in developing healthier indoor environments. He is also proficient in managing complex research projects, having led teams in various national and international collaborative studies. Furthermore, his role as a professional engineer in air-conditioning and building mechanical systems enables him to apply his research findings to practical implementations. Professor Kim’s combination of simulation, analytical, and project management skills makes him a highly capable researcher in the fields of smart building and sustainable urban design.

Awards and Honors

Throughout his career, Professor Kim has been recognized for his contributions to engineering and sustainable building practices. He has held prestigious roles such as President of the South Korea Chapter of ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning Engineers) and the Korean Society for Geothermal and Hydrothermal Energy. Additionally, he served as President of the Korea Intelligent Smart Building Association, a position that highlights his influence on the development of smart and energy-efficient building technologies in Korea. These leadership positions, along with various professional recognitions, underscore his commitment to advancing engineering practices in air-conditioning and building energy efficiency. Professor Kim’s accolades reflect his dedication to fostering eco-friendly practices in urban development and his influence as a respected leader in the field of sustainable architecture.

Conclusion

Professor Young Il Kim is a highly accomplished researcher whose work in thermal and environmental control, building energy simulation, and sustainable urban planning is well-aligned with the aims of the Best Researcher Award. His leadership in professional organizations, technical expertise, and dedication to eco-friendly solutions make him a strong candidate for this award. Enhancing his application with more evidence of mentorship, recent research publications, and global collaboration would provide additional support to his already impressive profile. Overall, he is a commendable candidate for the Best Researcher Award.

Publication Top  Notes

  1. “Analysis of in situ performance of rooftop PV system in Seoul, South Korea”
    Authors: Singh, R., Nam, A.Y., Park, J.J., Kim, Y.I.
    Year: 2023
    Journal: International Journal of Air-Conditioning and Refrigeration, 31(1), 10
    Citations: 3
  2. “Model Selection and Verification Approach for Green Remodeling of Non-residential Buildings Using Building Management Information and Energy Simulation”
    Authors: Ji, M.-H., Kim, Y.I.
    Year: 2023
    Journal: Journal of the Architectural Institute of Korea, 39(11), pp. 169–178
    Citations: 0
  3. “Economic Evaluation of Small Public Office Buildings with Class 1 of Zero Energy Building (ZEB) in Korea by Reflecting Life Cycle Assessment (LCA)”
    Authors: Lee, D., Kim, J., Kim, Y.I.
    Year: 2023
    Journal: Buildings, 13(7), 1693
    Citations: 0
  4. “A Proposal for Improvement of Zero Energy Building Certification System through Energy, Environmental and Economic Evaluation of Small-Sized Public Office”
    Authors: Lee, D.H., Kim, Y.I., Kim, J.M.
    Year: 2023
    Journal: Journal of the Architectural Institute of Korea, 39(3), pp. 201–212
    Citations: 1
  5. “Review of Machine Learning for Building Energy Prediction”
    Authors: Kwon, O.I., Kim, Y.I.
    Year: 2023
    Journal: Journal of the Architectural Institute of Korea, 39(5), pp. 133–140
    Citations: 1
  6. “Indoor Air Quality Diagnosis Program for School Multi-Purpose Activity and Office Spaces”
    Authors: Lee, Y.-K., Kim, Y.I., Kim, G.-H.
    Year: 2022
    Journal: Energies, 15(21), 8134
    Citations: 1
  7. “Selection of Energy Improvement Factors and Economic Analysis of Standard MDU Complexes in Korean Metropolitan Regions”
    Authors: Lee, K.-W., Kim, Y.I.
    Year: 2022
    Journal: Energies, 15(11), 4042
    Citations: 1
  8. “Cooling Performance Enhancement of a 20 RT (70 kW) Two-Evaporator Heat Pump with a Vapor–Liquid Separator”
    Authors: Yang, W.-S., Kim, Y.I.
    Year: 2022
    Journal: Energies, 15(11), 3849
    Citations: 0
  9. “Development of CO2 Concentration Prediction Tool for Improving Office Indoor Air Quality Considering Economic Cost”
    Authors: Lee, Y.-K., Kim, Y.I., Lee, W.-S.
    Year: 2022
    Journal: Energies, 15(9), 3232
    Citations: 5
  10. “Analysis of indoor air pollutants and guidelines for space and physical activities in multi‐purpose activity space of elementary schools”
    Authors: Lee, Y.-K., Kim, Y.I.
    Year: 2022
    Journal: Energies, 15(1), 220
    Citations: 15

Syed Shazaib Shah | Renewable Energy | Young Scientist Award

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Syed Shazaib Shah | Renewable Energy | Young Scientist Award

Postgraduate Student, Beihang University, China.

Syed Shazaib Shah is an enthusiastic and motivated engineer with a strong commitment to advancing the fields of power engineering and renewable energy. His academic journey, marked by impressive research and significant industry experience, reflects his dedication to solving complex engineering problems and contributing to innovative solutions. Shazaib’s pursuit of knowledge and excellence has positioned him as a promising young scientist eager to collaborate with esteemed faculty and peers in the dynamic landscape of energy and engineering.

Profile

ORCID

Education📝

Shazaib holds a Master of Engineering in Power Engineering and Engineering Thermophysics from Beihang University, China, where he is currently furthering his studies (2021-2024). He previously earned his Bachelor of Science in Mechanical Engineering from the University of Engineering and Technology Lahore, Pakistan (2016-2020). His educational background has equipped him with a solid foundation in engineering principles, advanced computational methods, and deep learning applications. Throughout his academic career, he has demonstrated a strong focus on research, particularly in areas related to renewable energy and predictive maintenance.

Experience👨‍🏫

Shazaib has gained valuable industry experience through various roles that complement his academic pursuits. He served as a Production Engineer at Synthetic Products Enterprises Limited, where he directed machinery maintenance and improvements. Later, he advanced to the position of Assistant Head of Quality, managing quality control processes and engaging with multinational clients to enhance product quality and testing standards. His practical experience in power generation, including a month-long internship at the Northern Power Generation Company Limited, allowed him to collaborate with site engineers and gain hands-on knowledge of complex systems such as boilers and steam turbines.

Research Interest🔬 

Shazaib’s research interests lie primarily in renewable energy systems, specifically focusing on wind turbines and predictive maintenance using deep learning techniques. His master thesis project on Remaining Useful Life (RUL) estimation for wind turbines underscores his commitment to advancing predictive maintenance strategies in the energy sector. Additionally, he has worked on geometric optimization of gas turbine blade cooling passages, utilizing computational fluid dynamics (CFD) to enhance performance. Shazaib is particularly interested in exploring control optimization and smart systems integration for renewable energy technologies.

Awards and Honors🏆

Throughout his academic and professional journey, Shazaib has received several prestigious awards that highlight his innovative spirit and dedication to excellence. He was honored with the ASME Innovative Idea Award in 2018 during his time at UET Lahore, showcasing his ability to think creatively and develop impactful engineering solutions. Furthermore, he received the Takmeel-e Pakistan Modern Trends Debate Award in the same year, reflecting his strong communication skills. His achievements also include being awarded the CSC Scholarship from the Chinese government, enabling him to pursue his master’s degree in China, and obtaining professional engineering certification from the Pakistan Engineering Council.

Skills🛠️

Syed Shazaib Shah possesses a diverse skill set that enhances his capability as an engineer and researcher. He is proficient in various engineering software, including SolidWorks, AutoCAD, Ansys, and specialized tools like dt-Bladed and Simpack, essential for simulation and modeling in renewable energy applications. His programming skills in Python facilitate the development of neural networks for predictive maintenance, showcasing his technical versatility. Additionally, Shazaib’s excellent communication skills in English allow him to effectively convey complex engineering concepts to diverse audiences. His strong analytical and problem-solving abilities, coupled with a commitment to continuous learning, make him a valuable asset in any engineering context.

Conclusion 🔍 

Engr. Shazaib Shah exemplifies the qualities sought after for the Research for Young Scientist Award. His innovative research, collaborative efforts, technical skills, and commitment to academic excellence position him as a promising young scientist. By addressing the areas for improvement, he can further enhance his candidacy and contribute meaningfully to advancements in engineering and technology. Overall, he is a commendable candidate for the award, reflecting the future potential of young researchers in his field.

Publication Top Notes

Title: RUL Forecasting for Wind Turbines
Authors: Syed Shazaib Shah, Tan Daoliang, Chandan Kumar Sah
Year: 2024
Citation: Shah, S. S., Daoliang, T., & Kumar Sah, C. (2024). RUL Forecasting for Wind Turbines. [Journal/Conference Name]. Retrieved from [URL or DOI if available].

Title: RUL Forecasting for Wind Turbines (Poster)
Authors: Syed Shazaib Shah
Year: 2024
Citation: Shah, S. S. (2024). RUL Forecasting for Wind Turbines (Poster). [Event Name]. Retrieved from [URL or DOI if available].

Title: Geometric Optimization of a Gas Turbine Blade Cooling Passage Using CFD
Authors: Syed Shazaib Shah
Year: 2020
Citation: Shah, S. S. (2020). Geometric Optimization of a Gas Turbine Blade Cooling Passage Using CFD. [Thesis/Institution Name], Beihang University, Beijing, China. Retrieved from [URL or DOI if available].

S. Mojtaba Varedi-Koulaei | Engineering | Best Researcher Award | 12980

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Dr. S. Mojtaba Varedi-Koulaei | Engineering | Best Researcher Award

Faculty of Mechanical Engineering , Iran.

Dr. S. Mojtaba Varedi-Koulaei is an Associate Professor in the Faculty of Mechanical Engineering at Shahrood University of Technology. He completed his PhD in Mechanical Engineering (Applied Design) in 2015 from Babol Noshirvani University of Technology, where he was supervised by Dr. H. Mohammadi Daniali. His doctoral thesis focused on the optimal design of parallel mechanisms considering joints clearances, a subject that highlights his strong expertise in mechanical design. Throughout his academic career, he has made significant contributions to fields like machine learning, neural networks, robotics, and optimization, gaining recognition for his innovative approach to solving complex engineering problems.

Profile

Education

Dr. Varedi-Koulaei holds a PhD in Mechanical Engineering from Babol Noshirvani University of Technology, where he graduated with an impressive GPA of 18.99/20 (3.79/4.00). His research during this period primarily revolved around designing optimal parallel mechanisms. He also earned his M.Sc. in Mechanical Engineering from the University of Mazandaran in 2008, with a GPA of 18.03/20 (3.61/4.00). His master’s thesis explored the analytical-numerical solutions of the forward and inverse kinematic equations of robots, further cementing his interest and skills in robotic mechanisms. His educational journey began with a B.Sc. in Mechanical Engineering, also from the University of Mazandaran, where he graduated in 2006 with a GPA of 17.00/20 (3.4/4.00). His final project involved designing systems for transferring objects in a production line, showcasing his practical engineering skills early on.

Professional Experience

In terms of work experience, Dr. Varedi-Koulaei has been an Associate Professor at Shahrood University of Technology, where he continues to advance the field of mechanical engineering. His role includes not only teaching but also supervising students on various research projects, particularly in applied design, robotics, and optimization. His expertise extends to guiding graduate students in their thesis work, building upon his strong background in both theoretical and practical aspects of mechanical engineering.

 

Membership

Dr. Varedi-Koulaei is also an active member of several professional associations in the field of mechanical engineering, through which he continues to contribute to global research discussions. He regularly shares his work on platforms like Google Scholar and ResearchGate, connecting with a broader academic and professional audience.

 

Research focuses

Dr. Varedi-Koulaei’s research focuses on several key areas, including parallel robots, mechanism design and synthesis, and the application of machine learning and neural networks to optimize mechanical systems. His work in these areas has resulted in numerous publications and ongoing projects, contributing to advancements in both academia and industry.

Award and Recognition

Among his awards and honors, Dr. Varedi-Koulaei is recognized for his high academic achievements, particularly his outstanding GPA during his PhD studies. His innovative research on optimizing mechanical systems and robotic design has earned him respect in the academic community, and he is regarded as a key contributor in his field.

 

Teaching experience

In his teaching experience, Dr. Varedi-Koulaei has taught a range of subjects, including dynamics, dynamics of machinery, mechanism design, robotics, advanced mathematics, mechatronics, neural networks, optimization, and advanced dynamics. His courses are known for their practical applications and integration of cutting-edge research, which reflects his expertise in the field of mechanical engineering.

 

Publication Top Notes

  1. Title: Nitrogen-doped graphene and graphene quantum dots: A review on synthesis and applications in energy, sensors and environment
    • Authors: M. Kaur, M. Kaur, V.K. Sharma
    • Journal: Advances in Colloid and Interface Science
    • Year: 2018
    • Volume: 259
    • Pages: 44-64
    • Citations: 376
  2. Title: All-ceramic microfibrous solar steam generator: TiN plasmonic nanoparticle-loaded transparent microfibers
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: ACS Sustainable Chemistry & Engineering
    • Year: 2017
    • Volume: 5 (10)
    • Pages: 8523-8528
    • Citations: 153
  3. Title: Heteroatom-doped graphene as sensing materials: A mini review
    • Authors: S. Kaushal, M. Kaur, N. Kaur, V. Kumari, P.P. Singh
    • Journal: RSC Advances
    • Year: 2020
    • Volume: 10 (48)
    • Pages: 28608-28629
    • Citations: 112
  4. Title: All‐Ceramic Solar‐Driven Water Purifier Based on Anodized Aluminum Oxide and Plasmonic Titanium Nitride
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: Advanced Sustainable Systems
    • Year: 2019
    • Volume: 3 (2)
    • Article ID: 1800112
    • Citations: 83
  5. Title: Nanocomposites of carbon quantum dots and graphene quantum dots: Environmental applications as sensors
    • Authors: A. Kaur, K. Pandey, R. Kaur, N. Vashishat, M. Kaur
    • Journal: Chemosensors
    • Year: 2022
    • Volume: 10 (9)
    • Article ID: 367
    • Citations: 57
  6. Title: Synthesis and characterization of graphene oxide using modified Hummer’s method
    • Authors: M. Kaur, H. Kaur, D. Kukkar
    • Journal: AIP Conference Proceedings
    • Year: 2018
    • Volume: 1953 (1)
    • Citations: 44
  7. Title: Boron-and phosphorous-doped graphene nanosheets and quantum dots as sensors and catalysts in environmental applications: A review
    • Authors: M. Kaur, M.K. Ubhi, J.K. Grewal, V.K. Sharma
    • Journal: Environmental Chemistry Letters
    • Year: 2021
    • Volume: 19 (6)
    • Pages: 4375-4392
    • Citations: 34
  8. Title: Solvothermal assisted phosphate functionalized graphitic carbon nitride quantum dots for optical sensing of Fe ions and its thermodynamic aspects
    • Authors: D. Vashisht, E. Sharma, M. Kaur, A. Vashisht, S.K. Mehta, K. Singh
    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2020
    • Volume: 228
    • Article ID: 117773
    • Citations: 31
  9. Title: Marimo-bead-supported core–shell nanocomposites of titanium nitride and chromium-doped titanium dioxide as a highly efficient water-floatable green photocatalyst
    • Authors: M. Kaur, S.L. Shinde, S. Ishii, W. Jevasuwan, N. Fukata, M.W. Yu, Y. Li, J. Ye, …
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2020
    • Volume: 12 (28)
    • Pages: 31327-31339
    • Citations: 27
  10. Title: Hydropower generation by transpiration from microporous alumina
    • Authors: M. Kaur, S. Ishii, R. Nozaki, T. Nagao
    • Journal: Scientific Reports
    • Year: 2021
    • Volume: 11 (1)
    • Article ID: 10954
    • Citations: 17

Manpreet Kaur | Sustainable Energy | Best Researcher Award

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Dr. Manpreet Kaur | Sustainable Energy | Best Researcher Award

Post Doctoral Researcher of University of Calgary, Canada.

Manpreet Kaur, PhD, is a Postdoctoral Research Associate and Sessional Instructor at the University of Calgary’s Department of Chemical and Petroleum Engineering. Her research focuses on advancing energy conversion and storage technologies through metal-semiconductor nanostructures. She has a strong background in electrochemistry, nano-material synthesis, and plasmonic catalysis, having worked internationally at institutions such as the Regional Centre of Advanced Technologies and Materials (Czech Republic), the University of Turin, and the National Institute for Materials Science (Japan). Dr. Kaur’s work includes the development of core-shell nanomaterials for fuel cells and sensors, catalytic processes for methane and nitrogen upcycling, and hybrid nanostructures for energy applications. She has received several accolades, including the Young Scientist Award from the Japan Society of Vacuum and Surface Science and multiple best presentation awards. Her teaching experience spans courses in engineering materials and nanomaterials.

Profile

Education

Manpreet Kaur completed her Ph.D. in Materials Science with a focus on Condensed Matter Physics at Hokkaido University, Japan, from October 2016 to September 2019. Her doctoral research concentrated on photothermal and photoelectric conversion using plasmonic nanomaterials for water purification and splitting. Prior to this, she earned a Master of Nanotechnology Engineering (a 5-year integrated program) from Sri Guru Granth Sahib World University, Punjab, India, graduating in 2016 with a CGPA of 8.4/10. Her master’s thesis focused on titanium nitride (TiN) nanoparticles for energy harvesting applications. This strong educational foundation provided her with extensive knowledge and expertise in materials science, nanotechnology, and their applications in energy and environmental technologies.

Professional Experience

Dr. Manpreet Kaur is a distinguished Postdoctoral Research Associate at the University of Calgary’s Department of Chemical and Petroleum Engineering, specializing in advanced energy conversion and storage technologies. Her current research involves designing and synthesizing nanomaterials for applications in fuel cells, sensors, and batteries, focusing on core-shell and hybrid nanostructures. Prior to this role, Dr. Kaur conducted postdoctoral research at the Regional Centre of Advanced Technologies and Materials in the Czech Republic and the University of Turin, where she explored catalytic processes and quantum dot synthesis. She also worked at the National Institute for Materials Science in Japan, investigating plasmonic nanomaterials for energy harvesting. Dr. Kaur’s earlier experience includes a role as a Junior Researcher at the same institute, where she studied photothermal effects in nanocomposites. Her extensive experience spans various research environments and advanced techniques, underscoring her expertise in materials science and energy applications.

Research Interest

Manpreet Kaur’s research interests revolve around advancing energy conversion and storage technologies through innovative material science. Her work focuses on electrochemistry and nanomaterial synthesis, particularly in developing and optimizing metal-semiconductor nanostructures for energy applications. She investigates core-shell nanomaterials and hybrid nanostructures for use in polymer electrolyte fuel cells, electrolysers, and batteries, aiming to enhance their performance and efficiency. Additionally, her research explores electro- and photocatalytic processes to convert methane and nitrogen into valuable chemicals and fuels. She is also involved in the synthesis of advanced materials such as graphene and MXenes for various applications, including ammonia and methanol production. Kaur’s expertise extends to plasmonic catalysis and the use of quantum dots in selective catalytic oxidation, contributing to more sustainable and efficient energy systems. Her work integrates theoretical and practical approaches to address global energy challenges.

Research Skills

Manpreet Kaur, PhD, exhibits a robust set of research skills crucial for advancing the field of materials science and energy conversion. Her expertise in electrochemistry and nano-materials synthesis is demonstrated through her work with core-shell nanomaterials and hybrid nanostructures, essential for applications in fuel cells, electrolysers, and sensors. Proficient in electrochemical measurements using techniques such as Rotating Disk Electrode (RDE) and gas chromatography–mass spectrometry (GC–MS), she excels in analyzing volatile components and optimizing catalytic reactions. Her skills extend to cleanroom techniques including reactive ion etching and chemical vapor deposition, supporting her research on plasmonic materials and photovoltaics. Additionally, Manpreet is adept in software tools like RSOFT and COMSOL for electromagnetic and energy transfer simulations. Her extensive training in synthesis methods, including wet-chemical and solvothermal techniques, underscores her versatility in developing advanced materials for energy and environmental applications.

Award and Recognition

Dr. Manpreet Kaur has received notable accolades throughout her career, reflecting her significant contributions to materials science and energy research. She was honored with the “Young Researcher Presentation Award” at the 11th Indian Scientist Association in Japan for her work on plasmonic core-shell nanocomposites in 2020. Additionally, she received the Young Scientist Award from the Japan Society of Vacuum and Surface Science in 2020 for her advancements in solar energy harvesting devices. Her achievements also include the Best Oral Presentation Award at the 9th ISAJ symposium and the Excellent Poster Presentation Award at the 10th International MANA Symposium. Dr. Kaur’s innovative work has been highlighted in media, such as TV Tokyo’s World Business Satellite. She has also secured significant research funding, including for seawater desalination and plasma-assisted ammonia production, underscoring her impactful contributions to her field.

Conclusion

Manpreet Kaur is a highly qualified candidate for the Research for Best Researcher Award. Her innovative research, strong publication record, and international experience demonstrate her significant contributions to her field. Addressing the areas for improvement could further enhance her impact and recognition in the scientific community. Overall, Kaur’s achievements and dedication to advancing sustainable technologies make her a strong contender for this award.

Publication Top Notes

  1. Title: Nitrogen-doped graphene and graphene quantum dots: A review on synthesis and applications in energy, sensors and environment
    • Authors: M. Kaur, M. Kaur, V.K. Sharma
    • Journal: Advances in Colloid and Interface Science
    • Year: 2018
    • Volume: 259
    • Pages: 44-64
    • Citations: 376
  2. Title: All-ceramic microfibrous solar steam generator: TiN plasmonic nanoparticle-loaded transparent microfibers
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: ACS Sustainable Chemistry & Engineering
    • Year: 2017
    • Volume: 5 (10)
    • Pages: 8523-8528
    • Citations: 153
  3. Title: Heteroatom-doped graphene as sensing materials: A mini review
    • Authors: S. Kaushal, M. Kaur, N. Kaur, V. Kumari, P.P. Singh
    • Journal: RSC Advances
    • Year: 2020
    • Volume: 10 (48)
    • Pages: 28608-28629
    • Citations: 112
  4. Title: All‐Ceramic Solar‐Driven Water Purifier Based on Anodized Aluminum Oxide and Plasmonic Titanium Nitride
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: Advanced Sustainable Systems
    • Year: 2019
    • Volume: 3 (2)
    • Article ID: 1800112
    • Citations: 83
  5. Title: Nanocomposites of carbon quantum dots and graphene quantum dots: Environmental applications as sensors
    • Authors: A. Kaur, K. Pandey, R. Kaur, N. Vashishat, M. Kaur
    • Journal: Chemosensors
    • Year: 2022
    • Volume: 10 (9)
    • Article ID: 367
    • Citations: 57
  6. Title: Synthesis and characterization of graphene oxide using modified Hummer’s method
    • Authors: M. Kaur, H. Kaur, D. Kukkar
    • Journal: AIP Conference Proceedings
    • Year: 2018
    • Volume: 1953 (1)
    • Citations: 44
  7. Title: Boron-and phosphorous-doped graphene nanosheets and quantum dots as sensors and catalysts in environmental applications: A review
    • Authors: M. Kaur, M.K. Ubhi, J.K. Grewal, V.K. Sharma
    • Journal: Environmental Chemistry Letters
    • Year: 2021
    • Volume: 19 (6)
    • Pages: 4375-4392
    • Citations: 34
  8. Title: Solvothermal assisted phosphate functionalized graphitic carbon nitride quantum dots for optical sensing of Fe ions and its thermodynamic aspects
    • Authors: D. Vashisht, E. Sharma, M. Kaur, A. Vashisht, S.K. Mehta, K. Singh
    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2020
    • Volume: 228
    • Article ID: 117773
    • Citations: 31
  9. Title: Marimo-bead-supported core–shell nanocomposites of titanium nitride and chromium-doped titanium dioxide as a highly efficient water-floatable green photocatalyst
    • Authors: M. Kaur, S.L. Shinde, S. Ishii, W. Jevasuwan, N. Fukata, M.W. Yu, Y. Li, J. Ye, …
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2020
    • Volume: 12 (28)
    • Pages: 31327-31339
    • Citations: 27
  10. Title: Hydropower generation by transpiration from microporous alumina
    • Authors: M. Kaur, S. Ishii, R. Nozaki, T. Nagao
    • Journal: Scientific Reports
    • Year: 2021
    • Volume: 11 (1)
    • Article ID: 10954
    • Citations: 17

Andrii Hrubiak | Renewable Energy Sources | Best Researcher Award

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Dr. Andrii Hrubiak | Renewable Energy Sources | Best Researcher Award

Emeritus at Cornell University, School of Integrative Plant Science, United States.

Dr. Andrii Hrubiak is a distinguished Senior Researcher at the G. V. Kurdyumov Institute for Metal Physics of the NAS of Ukraine. With a PhD in Physical and Mathematical Sciences, his research specializes in the physics and chemistry of surfaces, focusing on nanostructured materials, high-capacity electrochemical energy storage, photocatalysis, and Mossbauer spectroscopy. His work involves developing functional nanomaterials for energy storage and conversion and enhancing photocatalytic efficiency. Dr. Hrubiak has earned multiple accolades, including scholarships from the President of Ukraine and the Verkhovna Rada of Ukraine Prize for Young Scientists. His research contributions are well-recognized through numerous publications and patents, underscoring his impact in advancing material science and technology. His expertise extends to optimizing synthesis methods and improving performance characteristics of electrochemical and photocatalytic systems, making him a leading figure in his field.

Profile

Education🎓

Dr. Andrii Hrubiak’s educational journey reflects a robust foundation in physical and mathematical sciences with a focus on materials science. He began his academic path at the Galician Secondary School, where he graduated with honors in 2007. Pursuing higher education, he enrolled in the Faculty of Physics and Technology at Vasyl Stefanyk Precarpathian National University, Ivano-Frankivsk, earning a Master’s degree in Physics in 2012. His dedication to the field continued through postgraduate studies at the same institution, where he specialized in the physics of colloidal systems from 2012 to 2015. Building on this, Dr. Hrubiak furthered his expertise by completing doctoral studies at the G. V. Kurdyumov Institute for Metal Physics of the National Academy of Sciences of Ukraine, focusing on applied physics and nanomaterials between 2020 and 2022. This rigorous educational background underpins his significant contributions to nanomaterials and energy storage systems.

Professional Experience 🏢

Dr. Andrii Hrubiak has a distinguished career at the G. V. Kurdyumov Institute for Metal Physics of the N.A.S. of Ukraine, where he has served as a Senior Researcher in the Laboratory of Magnetic Film Physics since 2016. His expertise lies in the physics and chemistry of surfaces, focusing on nanostructured materials, high-capacity electrochemical energy storage, and photocatalysis. Prior to this role, Dr. Hrubiak conducted significant research as a Junior Researcher at Vasyl Stefanyk Precarpathian National University, contributing to international projects on nanodispersed rutile and iron oxides. His career also includes experience with Horizon 2020 programs and various national research grants. Dr. Hrubiak’s work has earned him several prestigious awards, including the Verkhovna Rada of Ukraine Prize and Scholarships from the President of Ukraine, underscoring his impactful contributions to the field of applied physics and nanomaterials.

Environmental Health

Dr. Hrubiak’s work in photocatalysis contributes to environmental health by developing materials that can efficiently degrade organic pollutants. His research on titanium dioxide and iron oxide composites aims to address environmental contamination and improve air and water quality.

Research Interests 🔬

Dr. Andrii Hrubiak’s research interests are centered on the development and application of advanced nanomaterials with a focus on the physics and chemistry of surfaces. His work predominantly explores nanostructured materials, including high-capacity electrochemical energy storage and generation systems. Dr. Hrubiak is deeply engaged in photocatalysis and Mossbauer spectroscopy, aiming to enhance the performance of functional materials. His research involves optimizing sol-gel and hydrothermal synthesis methods to create mesoporous systems based on transition metal oxides and hydroxides. These materials are tailored for use as active photocatalysts and electrode components in energy storage devices. His investigations have led to significant findings, such as improved photocatalytic activity in anatase/brookite composites and enhanced capacitance in hybrid supercapacitors. Dr. Hrubiak’s work contributes to advancements in both energy technology and environmental remediation.

Award and Honors

Dr. Andrii Hrubiak has been recognized with several prestigious awards for his significant contributions to the field of physical and mathematical sciences. In 2023, he was honored with the Scholarship named after Academician B.E. Paton for young scientists of the National Academy of Sciences of Ukraine. His innovative research also earned him the Scholarship of the President of Ukraine for young scientists in 2020, reflecting his impactful work in nanomaterials and energy storage. Dr. Hrubiak was awarded the Verkhovna Rada of Ukraine Prize for Young Scientists in 2019 for his pioneering work on nanostructured electrodes. Additionally, he received multiple grants from the National Academy of Sciences of Ukraine and the President of Ukraine, underscoring his excellence in advancing scientific knowledge. His accomplishments are further highlighted by his international accolades, including grants for research conducted in the United States and China.

Research Skills

Dr. Andrii Hrubiak possesses a robust skill set in the field of nanostructured materials and electrochemical energy systems. His expertise encompasses the synthesis and characterization of advanced nanomaterials, particularly transition metal oxides and hydroxides, which are pivotal for energy storage and photocatalysis. He excels in employing sol-gel and hydrothermal methods to create materials with optimized structural and electrochemical properties. Dr. Hrubiak is proficient in techniques such as Mossbauer spectroscopy, which he uses to investigate material properties at a microscopic level. His skills extend to the development of innovative electrode materials and photocatalysts, where he has significantly contributed to enhancing the performance of energy storage devices and environmental remediation processes. His ability to integrate theoretical research with practical applications underscores his proficiency in advancing the field of materials science and energy technologies.

Conclusion

Dr. Andrii Hrubiak is a distinguished researcher whose work has made substantial contributions to the fields of nanomaterials, energy storage, and photocatalysis. His international collaborations, applied research, and numerous awards highlight his impact and recognition in the scientific community. His innovative approaches and dedication to advancing material science and environmental technologies make him a strong candidate for the Research for Best Researcher Award.

Publications Top Notes 📚
  1. Insight into the Slag Foaming Behavior Utilizing Biocoke as an Alternative Carbon Source in Electric Arc Furnace-Based Steel Production
    • Authors: Kieush, L., Schenk, J., Koveria, A., Hrubiak, A.
    • Year: 2024
  2. Biocoke Thermochemical Properties for Foamy Slag Formations in Electric Arc Furnace Steelmaking
    • Authors: Kieush, L., Schenk, J., Koveria, A., Hrubiak, A.
    • Year: 2024
  3. Structurally dependent electroconductivity properties of ultrafine composites α-FeOOH/α-Fe2O3
    • Authors: Hrubiak, A.B., Ostafiychuk, B.K., Gasiuk, M.I., Gasiuk, I.M., Bushkova, V.S.
    • Year: 2024
  4. Evaluation of Slag Foaming Behavior Using Renewable Carbon Sources in Electric Arc Furnace-Based Steel Production
    • Authors: Kieush, L., Schenk, J., Koveria, A., Hopfinger, H., Zheng, H.
    • Year: 2023
  5. Influence of machining duration of 0.8SiO2/ 0.2Al2O3 nanopowder on electrochemical characteristics of lithium power sources
    • Authors: Yavorskyi, Y.V., Hrubiak, A.B., Zaulychnyy, Y.V., Gun’ko, V.M., Dudka, O.I.
    • Year: 2023
  6. Utilization of Renewable Carbon in Electric Arc Furnace-Based Steel Production: Comparative Evaluation of Properties of Conventional and Non-Conventional Carbon-Bearing Sources
    • Authors: Kieush, L., Schenk, J., Koveria, A., Hrubiak, A., Hopfinger, H.
    • Year: 2023
  7. Influence of biocoke on iron ore sintering performance and strength properties of sinter
    • Authors: Kieush, L., Hrubiak, A., Koveria, A., Molchanov, L., Moklyak, V.
    • Year: 2022
  8. Electroconductive Properties of Carbon Biocomposites Formed by the Precipitation Method
    • Authors: Hrubiak, A.B., Moklyak, V.V., Yavorsky, Yu.V., Ivanichok, N.Ya., Ilnitsky, N.R.
    • Year: 2022
  9. Transformation of the electrical impedance spectra of biological tissues under the influence of destructive factors
    • Authors: Pryimak, T.V., Gasyuk, I.M., Grubyak, A.V., Chervinko, D.M.
    • Year: 2022
  10. Structurally dependent electrochemical properties of ultrafine superparamagnetic ‘core/shell’ γ-Fe2O3/defective α-Fe2O3 composites in hybrid supercapacitors
    • Authors: Bazaluk, O., Hrubiak, A., Moklyak, V., Lozynskyi, V., Fedorov, S.
    • Year: 2021

 

 

Hossein Haghani | Sustainable Energy | Sustainable Engineering Leadership Award

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Dr. Hossein Haghani | Sustainable Energy | Sustainable Engineering Leadership Award

Researcher of Chulalongkorn University, Thailand .

Hossein Haghani is a distinguished researcher in the Department of Chemical Technology at Chulalongkorn University, specializing in sustainable energy and CO2 capture. His academic journey includes a B.Sc. in Applied Chemistry from Kharazmi University, an M.Sc. in Physical Chemistry from Sistan and Baluchestan University, and a Ph.D. in Physical Chemistry from Bu-Ali Sina University. His research encompasses thermodynamic properties of ionic liquids, theoretical and computational chemistry, and molecular dynamics simulations. Haghani’s work also explores the quantum mechanics of lithium-ion batteries. His expertise is highlighted by his awards and achievements, including top ranks in his master’s program and roles on editorial boards. His professional experience includes postdoctoral research at Chulalongkorn University and various invited research positions. Haghani is also a well-regarded speaker and workshop facilitator, contributing significantly to his field

Professional Profiles:

Education

Hossein Haghani completed his B.Sc. in Applied Chemistry at Kharazmi University, Tehran, Iran, in 2002. He pursued his M.Sc. in Physical Chemistry at Sistan and Baluchestan University, Zahedan, Iran, from 2008 to 2010, focusing on the investigation of intermolecular hydrogen bonds in damaged base pairs under the supervision of Prof. A. Ebrahimi. Haghani earned his Ph.D. in Physical Chemistry from Bu-Ali Sina University, Hamedan, Iran, between 2011 and 2016. His doctoral research, supervised by Prof. H. Iloukhani, explored the thermodynamic properties of binary and ternary solutions consisting of ionic liquids. He also undertook a sabbatical at the State University of New York, College at Brockport, USA, from January to July 2015, working with Prof. M. Hoffmann.

Professional Experience

Hossein Haghani has held several academic and research positions throughout his career. From September 2016 to September 2022, he served as an Assistant Professor and Researcher at Lamerd Higher Education Center, Shiraz University of Technology, Shiraz, Iran. He has also been an Invited Researcher at Beifang University of Nationalities, Yinchuan, China, multiple times (June to September 2016, June to July 2017, and June to July 2018), where he focused on ionic liquids and molecular dynamics simulations. Currently, he is a Postdoctoral Fellow at Chulalongkorn University, Bangkok, Thailand. His career includes international engagements, such as his Ph.D. candidate research role at the State University of New York, College at Brockport, USA, from January to July 2015.

Research Interest

Hossein Haghani’s research interests are centered around several advanced topics in chemistry and sustainable technologies. He focuses on sustainable energy and CO2 capture, aiming to develop effective methods for reducing carbon emissions and enhancing energy efficiency. His work on the thermodynamic properties of fluids, particularly ionic liquids, involves detailed studies to better understand their behavior and applications. Haghani employs theoretical and computational chemistry techniques, including Density Functional Theory (DFT) calculations, to explore complex chemical systems. His use of molecular dynamics (MD) simulations allows for precise modeling of chemical interactions and behaviors. Additionally, he investigates quantum mechanics in lithium-ion batteries, seeking improvements in battery performance and longevity. Through these diverse research areas, Haghani contributes to advancing both theoretical understanding and practical applications in chemistry and sustainable energy technologies.

Award and Honors

Hossein Haghani has received several notable awards and honors throughout his academic career. He graduated with a Master’s degree with a GPA of 3.70 out of 4, ranking first in his class, and his thesis earned a high score of 3.96/4.00. Haghani is recognized as a Talented Student at Bu-Ali Sina University, reflecting his exceptional academic performance. He has been honored as a Review Editor on the editorial boards of Molecular Liquids (Frontiers in Chemistry) and MDPI publisher. His contributions to research and academia are further acknowledged by his international participation, including presenting at various conferences and receiving accolades for his research on CO2 capture and other advanced chemical processes. These awards highlight his significant impact and commitment to advancing the field of chemistry.

Research Skills

Hossein Haghani excels in a range of research skills essential for advancing chemistry and materials science. He specializes in sustainable energy and CO2 capture, focusing on designing and analyzing methods to mitigate carbon emissions. His work in thermodynamic properties of fluids, particularly ionic liquids, involves detailed studies of fluid dynamics and their applications. Haghani is adept in theoretical and computational chemistry, using Density Functional Theory (DFT) calculations to explore chemical properties and reactions. His proficiency in molecular dynamics (MD) simulation allows him to model and analyze the behavior of molecules under various conditions. Additionally, he investigates the quantum mechanics of lithium-ion batteries, aiming to improve their performance. These diverse skills enable Haghani to contribute significantly to research in chemical technology and sustainable energy solutions.

 

 

Long Phan | Renewable Energy | Young Scientist Award

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Mr. Long Phan | Renewable Energy | Young Scientist Award

Hanoi University of Science and Technology, Vietnam.

Long Phan is an accomplished electrical engineer and renewable energy expert based in Ho Chi Minh City, Vietnam. With a Bachelor of Engineering in Electrical Engineering from Hanoi University of Science and Technology (HUST), Long has demonstrated a strong commitment to advancing sustainable energy solutions. His professional journey includes notable roles such as Lab Leader at the 100% Renewable Energy (100RE) Lab, where he managed research projects and fostered innovation in areas like hydrogen integration and renewable energy systems. Long’s expertise extends to roles as a Graduate Engineer and Junior Engineer at OWC, where he contributed to groundbreaking projects in hydrogen and ammonia technologies. Additionally, Long has served as a National Consultant for the United Nations Development Programme (UNDP), focusing on sustainable energy transition and climate action in Vietnam. Throughout his career, Long has showcased exceptional research skills, including data analysis, experimental design, and project management, enabling him to make significant contributions to the field of renewable energy. His dedication to driving innovation and sustainability underscores his commitment to shaping a greener future.

Professional Profiles:

Education:

Long Phan earned his Bachelor of Engineering with First-Class honors in Electrical Engineering from Hanoi University of Science and Technology (HUST) in Hanoi, Vietnam. This rigorous five-year program equipped him with a solid understanding of electrical engineering principles and their practical applications. Through a combination of theoretical coursework and hands-on projects, Long developed expertise in various areas, including power systems, electronics, control systems, and renewable energy technologies. Additionally, in the fall of 2023, Long participated in the Young Southeast Asian Leaders Initiative (YSEALI) program at the University of Montana in the United States. Focused on environmental issues, this initiative provided Long with a unique opportunity to engage with peers from the Southeast Asian region, exchange ideas, and deepen his knowledge of global environmental challenges and solutions. Through this program, Long expanded his perspective and explored avenues for collaborative action on environmental issues.

Professional Experience:

Long Phan has made significant contributions in electrical engineering and renewable energy. Currently serving as a Graduate Engineer at OWC, he focuses on researching emerging technologies like hydrogen and ammonia, aiding regional and international projects with his expertise. As the former Lab Leader at the 100% Renewable Energy Lab, Long managed research endeavors, emphasizing hydrogen society, wind power, and microgrids. In his past roles at OWC, including Junior Engineer and intern, he played pivotal roles in developing tools for renewable-hydrogen feasibility assessment and supporting consulting projects. Additionally, his stint as a National Consultant for the UNDP underscored his commitment to sustainable energy transition and climate action in Vietnam. Through project management and coordination, Long contributed significantly to advancing sustainable development goals. With a robust background in electrical engineering, a passion for renewable energy, and a dedication to sustainable solutions, Long Phan continues to drive innovation and progress in the field, making a tangible impact on the future of energy.

Research Interest:

Long Phan’s research interests revolve around advancing renewable energy technologies and promoting sustainable practices. Specifically, he is passionate about exploring the potential of hydrogen integration in power systems and microgrids, as well as its applications in various sectors. Additionally, Long is intrigued by electricity markets and seeks to understand how renewable energy sources can be effectively integrated into existing grids to optimize efficiency and reliability. Furthermore, he focuses on techno-economic assessment and optimization for power-to-X systems, aiming to develop cost-effective solutions for converting renewable energy into valuable resources such as hydrogen or ammonia. Through his research endeavors, Long aims to contribute to the development of a more sustainable energy landscape, with a focus on addressing climate change and promoting energy security.

Award and Honors:

Long Phan has garnered several awards and honors in recognition of his outstanding contributions to the field of electrical engineering and renewable energy. Notable among these accolades is the recognition received during his tenure as Lab Leader at the 100% Renewable Energy (100RE) Lab, where his leadership and research efforts were commended for their impact on advancing renewable energy technologies. Additionally, Long has been honored for his innovative work in developing tools for renewable-hydrogen feasibility assessment, which have been lauded for their significance in the industry. Furthermore, his contributions to national projects focused on sustainable energy transition and climate action in Vietnam have earned him recognition from esteemed organizations such as the United Nations Development Programme (UNDP). Through these awards and honors, Long Phan’s dedication to driving innovation and promoting sustainability in the field of energy has been widely acknowledged and celebrated.

Research Skills:

Long Phan possesses a comprehensive array of research skills developed through both academic study and professional practice in electrical engineering and renewable energy. These skills encompass various facets of the research process, including data analysis, experimental design, literature review, quantitative analysis, simulation and modeling, statistical analysis, critical thinking, report writing, project management, and collaboration. With proficiency in data analysis, Long can extract valuable insights from large datasets relevant to renewable energy systems. He demonstrates adeptness in experimental design, conducting experiments to investigate the performance and efficiency of renewable energy technologies. Long’s skill in literature review ensures he remains updated with the latest advancements in the field, while his quantitative and statistical analysis abilities enable him to assess the feasibility of renewable energy projects accurately. Moreover, he employs simulation and modeling tools to simulate renewable energy systems and optimize their performance. With strong critical thinking skills, Long identifies research gaps and formulates innovative solutions to complex energy challenges. He effectively communicates his findings through technical reports, research papers, and project proposals. Furthermore, Long excels in project management, ensuring the efficient execution of research projects, and collaborates effectively with multidisciplinary teams to drive sustainable solutions in renewable energy.