Balaji Panchal | Innovation Strategy | Young Scientist Award

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Dr. Balaji Panchal – Innovation Strategy – Young Scientist Award

Alignment with Award Category

Balaji Panchal’s receipt of the International Chemical Scientist Award (2025) aligns perfectly with his extensive contributions to innovative chemical research. His work on biodiesel synthesis, waste-to-energy conversion, and catalyst development exemplifies groundbreaking advancements in chemical engineering. This award acknowledges his dedication to addressing global energy challenges through scientific ingenuity and technological development.

 

Hebei University of Engineering, Handan, | China

Profile

Scholar

Scopus

🎓Early Academic Pursuits 

Education and Training

Balaji Panchal, born on May 4, 1978, embarked on his academic journey with a strong inclination towards chemical engineering and sustainable energy solutions. His early education laid the foundation for a career dedicated to innovative research in biofuel and catalysis. His commitment to academic excellence was evident during his studies at Dr. Babasaheb Ambedkar Marathwada University, Aurangabad, Maharashtra, where he received the University Junior Research Fellowship (UJRF) in 2005. This recognition marked the beginning of his deep engagement in advanced chemical research, particularly focusing on alternative fuels and green chemistry.

💼Professional Endeavors 

Academic Positions

With over 12 years of experience in research and academia, Balaji Panchal has held various prestigious positions across institutions in India, China, and Taiwan. Currently serving as a Research Associate Professor in the Chemical Engineering Department at Ming Chi University of Technology, Taiwan, he leads significant projects on biomass carbon catalysts and biodiesel production. His role also includes mentoring Ph.D. and master’s students, guiding them in research areas related to sustainable fuel technology.

📚Contributions and Research Focus on Innovation Strategy

Balaji Panchal’s research contributions span various aspects of biofuel synthesis, catalyst development, and green energy solutions. His expertise includes: Transesterification of non-edible oils catalyzed by polymeric ionic liquids for biodiesel production. Development of low-cost methods to reduce solvent and biodiesel costs. Conversion of waste cooking oil and municipal solid lipids into biofuel. Synthesis and application of polymer ionic liquid catalysts in biofuel processes. Electrolysis and kinetic studies in esterification processes.

🏆Accolades and Recognition 

Balaji Panchal’s groundbreaking work has earned him several prestigious awards. Notably, he is the recipient of the International Chemical Scientist Award (2025) for his contributions to innovative research. This recognition, organized by Scifax, Sciencefather, and Record MEET, underscores his influence in the field of chemical sciences.

🌍 Impact and Influence 

Community Impact

Balaji Panchal’s research has significantly influenced the field of sustainable energy and green fuel production. His work in developing biodiesel synthesis techniques has provided cost-effective and environmentally friendly alternatives to conventional fuels. By collaborating with global institutions and industry partners, he has facilitated the commercial adoption of innovative biofuel technologies, bridging the gap between academic research and practical implementation.

🔮Legacy and Future Contributions 

As a thought leader in biofuel research, Balaji Panchal continues to push the boundaries of sustainable energy development. His future work aims to refine biofuel synthesis methods, enhance catalyst efficiency, and expand the practical applications of biomass-derived fuels. His commitment to reducing greenhouse gas emissions aligns with global sustainability goals, making his research increasingly relevant in the fight against climate change.

Conclusion

Balaji Panchal’s career is a testament to the power of innovation in chemical research and sustainability. His extensive experience, research contributions, and mentorship have solidified his reputation as a leading figure in biofuel technology. As he continues to drive forward advancements in green energy, his work will remain instrumental in shaping the future of sustainable fuel production and environmental conservation.

📚Publications

Tectonic-driven thermal alteration of organic matter in the Permian high-rank coals in the southern North China Basin

Authors: C., Zhao, Cunliang, X., Guo, Xu, A., Bechtel, Achim, … S., Liu, Shiming, B., Liu, Bangjun

Journals: Fuel

Geochemistry Characteristics and Coal-Forming Environments of Carboniferous–Permian Coal: An Example from the Zhaokai Mine, Ningwu Coalfield, Northern China

Authors: M., Hou, Meili, J., Wang, Jinxi, Y., Liu, Yurong, Z., Bao, Zewen, B.M., Panchal, Balaji M.

Journals: Sustainability

Reusable CFA250–PA–SO3H catalyst derived from coal ash a potential method for fuel synthesis

Authors: B.M., Panchal, Balaji M., Y., Sun, Yuzhuang, C., Su, Chiahung, … K., Bian, Kai, J., Wang, Jinxi

Journals: Sustainability

Quantitative analysis of molecular structure characterization of different liptinite-rich coals using FTIR spectroscopy

Authors: J., Li, Jingzhi, X., Guo, Xu, B.M., Panchal, Balaji M., … Y., Yuan, Yue, S., Liu, Shiming

Journals: Infrared Physics and Technology,

Chuangwei Liu | Sustainable development | Best Researcher Award

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Prof. Dr. Chuangwei Liu  – Sustainable development  –  Best Researcher Award

Alignment with Award Category

Dr. Chuangwei Liu’s groundbreaking research in sustainable catalysis, computational materials science, and machine learning-based modeling aligns perfectly with awards recognizing excellence in Sustainable Development, Computational Chemistry, and Advanced Materials Research. His innovative approach contributes directly to green energy solutions, carbon reduction, and industrial efficiency, making him a prime candidate for such accolades.

 

Chinese Academy of Sciences | China

Profile

Orcid

🎓Early Academic Pursuits 

Education and Training

Chuangwei Liu’s academic journey began at Northeastern University, China, where he earned a Bachelor of Science in Metallurgical Engineering (2008–2012). His undergraduate studies laid a strong foundation in materials science, thermodynamics, and process engineering, igniting his passion for advanced materials research.

💼Professional Endeavors 

Academic Positions

Dr. Liu’s career has spanned multiple countries and industries, reflecting his versatility and global impact. Mechanical Engineer, Helios Oil and Gas Equipment, Houston, USA (2014–2016): Before his Ph.D., he worked on advanced mechanical systems, gaining hands-on experience in industrial applications of materials science. Postdoctoral Fellow, Technical University of Denmark (2019–2022): He further refined his expertise in computational materials science, focusing on catalyst design and sustainable energy applications. Associate Professor, Northeastern University, Shenyang, China (2022–2023): Returning to China, he took on a faculty role, mentoring students and leading cutting-edge research in computational chemistry. Professor, Chinese Academy of Sciences, Dalian, China (2023–Present): Currently, he is a full professor at one of China’s premier research institutions, where he continues to push the boundaries of catalyst design and materials theory.

📚Contributions and Research Focus on Sustainable development

Dr. Liu’s research centers on multi-scale quantum mechanics simulations to understand reaction mechanisms at an atomic level and rationally design advanced materials for industrial catalysts. His key contributions include: Development of materials theory for designing new catalysts, which has led to improved industrial processes and energy-efficient solutions. Accelerated discovery of novel materials through computational modeling, bridging theory and real-world applications. Computational method development using machine learning, enabling predictive modeling for materials science.

🏆Accolades and Recognition 

Dr. Liu’s work has been widely recognized through prestigious awards: JACS Young Investigators 2020 by the Journal of The American Chemical Society – A prestigious recognition of outstanding contributions to chemistry. Most Popular Article in 2019 for Journal of Materials Chemistry A, awarded by the Royal Society of Chemistry. Postgraduate Publications Award (PPA), Monash University (2019) – Recognizing his groundbreaking Ph.D. research.

🌍 Impact and Influence 

Community Impact

As a researcher and educator, Dr. Liu has significantly influenced both academia and industry: Teaching & Mentorship: He has guided numerous undergraduate and graduate students, teaching courses in Physical Chemistry and Computational Materials Science at Northeastern University. Research Leadership: As the Principal Investigator (PI) of major research projects, he has secured substantial funding, including:

    • China’s National Key R&D Programme (2024–2026): A$ 680,000
    • Start-up Funding of Northeastern University (2023–2025): A$ 170,000
    • Fundamental Research Funds for Central Universities (2023–2024): A$ 21,000

 

🔮Legacy and Future Contributions 

Dr. Liu’s pioneering research is set to leave a lasting impact in the fields of sustainable materials science and computational chemistry. His future contributions are expected to: Advance machine learning-driven catalyst design, optimizing reaction pathways for cleaner energy production. Enhance global collaboration, bringing together researchers from China, Europe, and the U.S. Train the next generation of scientists, ensuring continuity in cutting-edge materials research.

Conclusion

Dr. Chuangwei Liu exemplifies the fusion of academic excellence, scientific innovation, and industrial impact. With a distinguished career spanning multiple disciplines and institutions, his research in computational chemistry and sustainable catalysis continues to shape the future of energy and materials science. As a professor, mentor, and thought leader, he remains dedicated to advancing knowledge, fostering innovation, and contributing to a more sustainable world.

📚Publications

2D, Metal‐Free Electrocatalysts for the Nitrogen Reduction Reaction

Authors:  Chuangwei Liu; Ang Tian; Qinye Li; Tianyi Wang; Gaowu Qin; Song Li; Chenghua Sun

Journals: Advanced Functional Materials

Knowledge‐Driven Design and Lab‐Based Evaluation of B‐doped TiO2 Photocatalysts for Ammonia Synthesis

Authors: Chuangwei Liu; Derek Hao; Jin Ye; Sheng Ye; Fengling Zhou; Hongbo Xie; Gaowu Qin; Jiating Xu; Jian Liu; Song Li et al.

Journals: Advanced Energy Materials

Bulk-immiscible CuAg alloy nanorods prepared by phase transition from oxides for electrochemical CO2 reduction

Authors:  Yihong Yu; Di Wang; Yimeng Hong; Teng Zhang; Chuangwei Liu; Jing Chen; Gaowu Qin; Song Li

Journals: Chemical Communications

Oxygen-regulated carbon quantum dots as an efficient metal-free electrocatalyst for nitrogen reduction

Authors:  Yaqian Han; Xiaoteng Ding; Jingrui Han; Yanfeng Fang; Zhaoyong Jin; Wenhan Kong; Chuangwei Liu

Journals: Nanoscale

Camilla Lops | Climate Change and Energy | Best Researcher Award

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Dr. Camilla Lops   –  Climate Change and Energy  –  Best Researcher Award

UNICH | Italy

      Profiles

Orcid

📍Current Position

Camilla Lops is a dedicated Postdoctoral Research Associate at the University ‘G. D’Annunzio’ Chieti-Pescara, in the Department of Engineering and Geology (INGEO), where she has been actively contributing since June 2021. Her current research focuses on multiscale approaches in building thermophysics, with an emphasis on innovative and sustainable design principles. Camilla’s role involves collaborating on projects aimed at enhancing energy efficiency and environmental sustainability within the building sector.

 

📝Publication Achievements

Camilla has an impressive publication record, contributing to research on various topics within engineering and sustainability. She is a reviewer for the journal Cogent Engineering, demonstrating her expertise in the field. Additionally, Camilla’s work on energy efficiency and sustainability in buildings has been published in reputable scientific journals, further solidifying her standing as a key contributor to research in these areas.

 

🔍Ongoing Research

Currently, Camilla’s research grant is centered on a multiscale approach in building thermophysics, which involves analyzing energy use at different scales to optimize the energy efficiency of buildings. She is also working on other projects such as the GENESIS and ENERGIDRICA initiatives, funded by the National Operational Program for Research and Innovation, which aim to improve the sustainability of engineering projects through innovative techniques.

 

🔬 Research Interests

Camilla’s primary research interests lie in environmental sustainability, energy efficiency, and building thermophysics. She focuses on analyzing building structures and systems to develop strategies that reduce energy consumption and enhance environmental impact. Additionally, her interest in Life Cycle Assessment reflects her commitment to a holistic approach, ensuring that the materials and methods used in construction are environmentally responsible from start to finish.

 

🎓Academic Background

Camilla holds a Double Degree Ph.D. from the University ‘G. D’Annunzio’ Chieti-Pescara and Universitat Politècnica de Catalunya in Barcelona, completed in 2020. Her dissertation, “Integrated Solutions for the Energy and Seismic Retrofit of Existing Buildings,” demonstrates her expertise in creating sustainable solutions for building structures. Camilla also has a Master’s and Bachelor’s degree in Civil Engineering from the same Italian university, both of which she completed with distinction.

 

🏆Scholarships and Awards 

Throughout her academic journey, Camilla has earned numerous accolades, including scholarships that facilitated her participation in international programs like the ERASMUS Programme at the Czech Technical University in Prague. Her achievements are a testament to her commitment to advancing her knowledge and skills in engineering and sustainability.

 

🧬Bioinformatics 

Camilla’s research also delves into bioinformatics, particularly concerning the environmental impacts of construction materials and processes. Her work uses sophisticated modeling tools to analyze data and predict the effects of various construction choices on the environment, making her a pioneer in integrating bioinformatics with engineering.

 

🌐Professional Associations 

She has participated in notable events such as the Advanced Building Skins Conference and the Heat Transfer and CFD with Comsol Multiphysics course, where she enhanced her skills in thermal and fluid dynamics modeling.

 

 📚Training & Workshops 

Camilla is an active member of various professional associations and regularly attends training workshops to stay updated on the latest advancements in her field.

 

🎤Oral Presentations and🗣️Thought Leadership 

Camilla has presented at numerous conferences, sharing her findings on energy efficiency and sustainable building design. Her presentations have been well-received, with particular acclaim for her work presented at the 36th UIT Heat Transfer Conference and the AICARR International Conference, which addressed innovative methods in heat transfer and building thermodynamics.

 

🧑‍🔬Tasks Completed as a Researcher 

In her role as a researcher, Camilla has undertaken various tasks, including energy and fluid dynamic modeling, technical report preparation, and simulation of energy systems. Her responsibilities also encompass teaching support, where she guides students through complex engineering concepts as part of the Technical Physics and Climate Change courses.

 

🚀Success Factors 

Camilla attributes her success to her strong organizational skills, attention to detail, and her proactive approach to problem-solving. Her ability to manage multiple projects while maintaining a high level of performance has been a key factor in her professional accomplishments.

 

🧪Publications & Laboratory Experience

Camilla’s laboratory experience is extensive, covering areas such as energy simulation, fluid dynamics, and thermo-hygrometric comfort analysis. Her hands-on experience complements her theoretical knowledge, allowing her to conduct comprehensive research that translates into practical applications. Her publications on topics such as building energy efficiency and thermophysics reflect her in-depth laboratory work.

 

🔍 Conclusion

Camilla Lops has established herself as a dedicated and innovative researcher in the fields of engineering and environmental sustainability. Her diverse background, from research projects to professional training and academic excellence, has equipped her with the skills necessary to make significant contributions to sustainable building practices. With a clear commitment to improving energy efficiency and reducing environmental impact, Camilla is poised to continue making impactful strides in her field.

📚Publications

Climate Change and Building Renovation: The Impact of Historical, Current, and Future Climatic Files on a School in Central Italy

          Authors: Camilla Lops; Fabio Serpilli; Valerio D’Alessandro; Sergio Montelpare

          Journal : Applied Sciences

DL2F: A Deep Learning model for the Local Forecasting of renewable sources

           Authors: Luciano Caroprese; Mariano Pierantozzi; Camilla Lops; Sergio Montelpare

          Journal : Computers & Industrial Engineering

“Great food, but the noise?”: Relationship between perceived sound quality survey and non acoustical factors in one hotel restaurant in Italy

         Authors:  Samantha Di Loreto; Valter Lori; Fabio Serpilli; Camilla Lops; Alessandro Ricciutelli; Sergio Montelpare

         Journal : Building Acoustics

Double-Skin Façades for Building Retrofitting and Climate Change: A Case Study in Central Italy

          Authors:  Camilla Lops; Samantha Di Loreto; Mariano Pierantozzi; Sergio Montelpare

         Journal : Applied Sciences

Tanawan Kumpimpa | Energy | Best Researcher Award

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Ms. Tanawan Kumpimpa – Energy  – Best Researcher Award

Department of Shipping and Transportation Management, National Taiwan Ocean University | Taiwan

Author Profile 

Early Academic Pursuits 🎓

Her academic journey began with a strong foundation in economics. After earning her Bachelor’s degree in Economics from Kasetsart University, Thailand, in 2021, she pursued a Master of Business Management from Asia University, Taiwan, graduating in 2023. Her academic pursuits have laid a solid groundwork for her current research interests, which encompass energy, the circular economy, and sustainability.

 Professional Endeavors 💼

As a first-year PhD student at the National Taiwan Ocean University’s Department of Shipping and Transportation Management, Tanawan is delving deeper into her research fields. Despite being early in her academic career, she has already contributed significantly to the academic community through collaborative research projects. Her professional journey is marked by her dedication to understanding and improving energy resilience and supply chain finance risk management, particularly in the context of sustainability and circular economy principles.

Contributions and Research Focus on Energy 📚

Her research primarily focuses on energy resilience, the circular economy, and sustainability. She aims to bridge the gap between theoretical research and practical implementation. Her work provides valuable insights into improving government performance through the implementation of various attributes. By identifying causal relationships between these attributes, she guides stakeholders and policymakers to focus on critical areas, thereby enhancing industry-related practices.

In her recent publication, “Assessing energy resilience under uncertainty in Taiwan: System response ability and energy sufficiency,” published in the Energy Strategy Reviews, she explores the challenges and solutions related to energy resilience in Taiwan. Another significant publication is “A supply chain finance risk management model for the electric vehicle supply chain: a data-driven analysis,” in the International Journal of Logistics Research and Applications. These studies highlight her ability to address complex issues through data-driven analysis and strategic insights.

 Accolades and Recognition 🏆

While her academic career is still in its early stages, her contributions have already been recognized in the form of publications in reputable journals. Her work has been published alongside other prominent researchers, indicating her emerging presence in the academic community. Although she has not yet received formal awards, the impact of her research is beginning to be acknowledged by her peers and academic institutions.

 Impact and Influence 🌍

Her research has a significant impact on both academia and industry. By focusing on energy resilience and sustainability, she addresses some of the most pressing issues of our time. Her work on supply chain finance risk management for the electric vehicle sector is particularly relevant as the world transitions to more sustainable transportation options. Through her research, she provides actionable insights that can help policymakers and industry leaders make informed decisions, ultimately contributing to a more sustainable and resilient future.

 Legacy and Future Contributions 🔮

She is poised to make substantial contributions to her field in the coming years. Her commitment to sustainability and the circular economy aligns with global efforts to combat climate change and promote sustainable development. As she progresses through her PhD program, she will likely continue to produce high-impact research that influences policy and industry practices.

Her future contributions are expected to further the understanding of energy resilience and the implementation of circular economy principles. By offering a structured framework for enhancing societal and industrial practices, Her research will guide policymakers and industry leaders in developing more robust strategies, fostering greater sustainability.

Notable Publications