Thet Naing Myint | Chemical Engineering | Research Excellence Award

Published on by Analytical Chemistry

Dr. Thet Naing Myint | Chemical Engineering | Research Excellence Award

MUCTR | Russia

Dr. Thet Naing Myint is a Chemical Engineer at D.I. Mendeleyev University of Chemical Technology of Russia, specializing in advanced inorganic binders and corrosion-resistant composite cement systems. He completed his PhD in Chemical Engineering with a dissertation focused on the development of composite cements with high corrosion resistance. Building on this foundation, he is currently pursuing a Doctor of Chemical Engineering degree, investigating the physicochemical principles governing the design of durable composite binders for concrete applications. His research addresses critical challenges in modern construction, particularly the degradation of concrete structures in aggressive chemical and environmental conditions. Dr. Myint integrates material chemistry, binder technology, and applied engineering to enhance durability, sustainability, and service life of concrete infrastructure. He has published his findings in peer-reviewed international journals, contributed to scholarly book publications, and holds patents related to corrosion-resistant cement formulations. Through academic and industrial collaborations in Russia and Myanmar, his work aims to translate fundamental research into practical solutions for global infrastructure development and long-term structural resilience.

View ORCID Profile

Featured Publication

Maria Zednikova | Chemical Engineering | Best Researcher Award

Published on by Analytical Chemistry

Dr. Maria Zednikova | Chemical Engineering | Best Researcher Award

Institute of Chemical Process Fundamentals of the CAS | Czech Republic

Profiles

Scopus 
Orcid
Google scholar

Early Academic Pursuits

Dr. Mária Zedníková began her academic journey in chemical engineering with a master’s degree followed by a doctoral degree, both from the Institute of Chemical Technology in Prague. Her strong foundational training laid the groundwork for her subsequent focus in multiphase systems, fluid mechanics, and process engineering. These formative years were marked by deep engagement with core engineering principles and practical laboratory experience, which shaped her research orientation toward hydrodynamics and gas-liquid interactions.

Professional Endeavors

Dr. Zedníková’s professional career is deeply rooted in the Institute of Chemical Process Fundamentals (ICPF), where she has steadily progressed from junior researcher to research scientist and eventually to a leadership role as Head of the Department of Chemical Engineering and Head of the Research Group for Multiphase Reactors. Her trajectory reflects both scientific depth and leadership capacity. She has also taken on academic responsibilities as a teacher at the University of Chemistry and Technology in Prague, expanding her influence to the educational sphere. Notably, her international experience includes collaborative research stays in the United Kingdom and Italy, reflecting her commitment to cross-border scientific exchange and cooperation.

Contributions and Research Focus

Dr. Zedníková’s research is centered on multiphase flow systems with a special emphasis on gas-liquid interactions, bubble dynamics, and mass transfer phenomena. Her work delves into the complex behaviors of bubbles and drops in turbulent environments, investigating how these particles deform, break up, and interact with fluid structures. She has developed theoretical models and experimental setups to study hydrodynamics, drop-particle collisions, and surfactant effects on fluid interfaces. Additionally, her research in stirred tank reactors and gas-lift systems addresses crucial industrial applications in chemical processing, biotechnology, and environmental engineering.

Impact and Influence

Her influence is visible both through her scholarly output and her engagement with the broader scientific community. Dr. Zedníková has authored 30 original research papers, the majority of which appear in peer-reviewed, high-impact journals. She has also contributed a chapter to a scientific monograph and holds a registered utility model. Her active presence at international conferences with over 90 contributions demonstrates her role in advancing and disseminating knowledge in her field. Furthermore, her involvement in national and international research projects as both leader and team member has positioned her as a respected figure in collaborative scientific networks.

Academic Citations and Recognition

With an H-index of 14 and nearly 700 citations most of which are from independent researchers Dr. Zedníková has established a significant academic footprint. Her research is regularly cited by peers, which confirms the value and relevance of her work in the scientific community. The Best Poster Award from the European Federation of Chemical Engineering and her active membership in professional societies and scientific committees further highlight her recognition and contributions on both national and European platforms.

Technical Skills

Dr. Zedníková possesses extensive technical expertise in experimental design, fluid flow diagnostics, multiphase reactor modeling, and mass transfer analysis. Her work includes advanced techniques for measuring bubble deformation, analyzing flow regimes, and modeling surfactant behavior in dynamic fluid systems. Her ability to integrate theoretical modeling with experimental validation distinguishes her technical acumen in the chemical engineering domain.

Teaching Experience

As an educator, Dr. Zedníková has taken a leading role in a wide range of chemical engineering subjects. She has conducted lectures and seminars on fluid mechanics, chemical technologies, process projects, and laboratory courses. Her engagement in mentoring includes the supervision of over 20 master’s, bachelor’s, and internship students. This dedication to teaching complements her research activities and ensures knowledge transfer to the next generation of engineers and scientists.

Legacy and Future Contributions

Dr. Zedníková’s career reflects a consistent drive for scientific innovation, education, and leadership. Her multidisciplinary collaborations, international exposure, and applied research make her a role model in the engineering sciences. Looking ahead, her ongoing research on bubble dynamics, reactor hydrodynamics, and surfactant behavior is expected to contribute significantly to chemical process optimization and sustainability. Her involvement in international committees and editorial boards also sets the stage for continued influence in shaping research agendas and policy in chemical engineering.

Notable Publications

  • Dynamic regimes in granular mixing: Effect of sliding friction and stirrer rotational frequency
    Authors: Martin Kozakovic, David Kramolis, Maria Zednikova, Stanislav Parez, Jaromir Havlica
    Journal: Powder Technology
    Year: 2025

  • Size distribution of daughter bubbles or drops resulting from binary breakup due to random initial deformation conditions
    Authors: Maria Zednikova, Petr Stanovsky, Sandra Orvalho
    Journal: Separation and Purification Technology
    Year: 2025

  • Gas phase behaviour in environment of fermentation processes
    Authors: Adrián Žák, Lukáš Valenz, Tomáš Moucha, Maria Zednikova
    Journal: Chemical Engineering Research and Design
    Year: 2025

  • Viscosity influence on hydrodynamics behaviour in a stirred tank reactor
    Authors: Adrián Žák, Mária Zedníková, Tomáš Moucha
    Journal: Chemical Engineering Research and Design
    Year: 2025

  • Surfactant effect on bubble deformation and breakup after interaction with vortex structure
    Authors: Maria Zednikova, Tereza Semlerová, Sandra Orvalho, Jaromir Havlica, Jaroslav Tihon
    Journal: Chemical Engineering Science
    Year: 2025

Conclusion

Dr. Mária Zedníková is a highly accomplished chemical engineering researcher with deep expertise in multiphase flow systems and hydrodynamics. Her balanced portfolio of research, teaching, leadership, and international collaboration reflects a dynamic and impactful career. Her academic and professional journey illustrates a strong commitment to advancing both fundamental science and its practical applications. She stands out as a leading figure in her field, with a legacy that is poised to grow in the coming years.

Avan Kumar | Chemical Engineering | Best Researcher Award

Published on by Analytical Chemistry

Dr. Avan Kumar | Chemical Engineering | Best Researcher Award

Arizona State University, United States

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Avan Kumar’s academic journey began with a Bachelor of Technology in Polymer Science and Chemical Technology from Delhi Technological University (DTU) (2013–2017). Building on this strong foundation, he pursued a Master of Technology in Chemical Engineering at the prestigious Indian Institute of Technology (IIT) BHU, Varanasi (2017–2019), where his research focused on enhancing solar module efficiency using luminescent dyes. His commitment to advancing sustainable technologies culminated in a Ph.D. in Chemical Engineering at IIT Delhi (2019–2023), specializing in the application of deep learning and natural language processing (NLP) for sustainable process development. This rigorous academic path laid the groundwork for his later innovations in AI-driven sustainability solutions.

🧑‍💼 Professional Endeavors

Dr. Kumar is currently serving as a Post-Doctoral Researcher at the School of Sustainability, Arizona State University (ASU), USA, under the mentorship of Prof. Bhavik R. Bakshi. Since December 2023, he has been actively engaged in designing customized large language models (LLMs) that extract structured databases from unstructured texts, aiming to create comprehensive life cycle inventories (LCIs) and circular reaction networks, particularly for chemical and plastic industries. His professional endeavors seamlessly blend chemical engineering with advanced AI technologies, showcasing his interdisciplinary expertise.

🧠 Contributions and Research Focus

Throughout his academic and research career, Dr. Kumar’s work has revolved around Generative AI, Large Language Models, Explainable AI, Natural Language Processing, and Sustainable Process Development. His doctoral research featured the development of a deep learning-integrated photo-catalyst classification model, data-driven optimization frameworks using Gaussian Process Regression and Multi-Objective Bayesian Optimization, and the creation of domain-specific LLMs such as “Extend-SciBERT,” “H2-BERT,” “Recycle-BERT,” and “CCU-LlaMA.” His innovative use of AI tools for chemical sustainability reflects his forward-thinking vision of the industry.

🌍 Impact and Influence

Dr. Kumar’s pioneering research has significant implications for green energy transition, plastic circular economy promotion, and carbon capture advancements. His customized language models have streamlined research processes across sectors like hydrogen production and plastic recycling, thus supporting industries to adapt more sustainable practices. By bridging AI and chemical engineering, he influences both academia and industry towards achieving climate goals and sustainability targets.

📚 Academic Citations

While still at an early stage of his postdoctoral career, Dr. Kumar’s contributions, particularly in AI-driven sustainability research, have begun attracting scholarly attention. His interdisciplinary approach promises a growing impact, with citations expected to increase as his LLM models and sustainable frameworks gain wider academic and industrial adoption.

🛠️ Technical Skills

Dr. Kumar possesses strong technical skills in Deep Learning, Natural Language Processing (NLP), Explainable Machine Learning (SHAP, GPR), Multi-Objective Optimization (MOBO), Large Language Model Fine-Tuning, and Life Cycle Inventory (LCI) Development. His interdisciplinary expertise also extends to Sustainable Process Design, Solar Energy Systems, and Circular Reaction Pathway Mapping, demonstrating a rare blend of computational and engineering acumen.

👨‍🏫 Teaching Experience

During his Ph.D. tenure at IIT Delhi, Dr. Kumar contributed actively to the academic community through mentorship roles and lab supervision. His engagement with students in interdisciplinary projects related to AI in chemical processes fostered a collaborative and innovative learning environment. His teaching philosophy focuses on integrating modern computational tools into chemical engineering curricula to prepare future-ready engineers.

🌟 Legacy and Future Contributions Highlight

Dr. Kumar’s legacy will be defined by his trailblazing integration of AI into chemical engineering to support sustainable development. His ongoing work at ASU promises to revolutionize the way industries build life cycle inventories and circular process models. In the future, he envisions advancing explainable, domain-specific AI systems that not only enhance industrial efficiency but also promote ecological responsibility. His contributions are poised to play a critical role in shaping next-generation sustainable technologies and AI innovations for environmental stewardship.

📖Notable Publications

An NLP-Based Framework for Extracting the Catalysts Involved in Hydrogen Production from Scientific Literature
Authors: Avan Kumar, Hariprasad Kodamana
Journal: Computer Aided Chemical Engineering (Book Chapter)
Year: 2023

A Convolutional Neural Network-Based Gradient Boosting Framework for Prediction of the Band Gap of Photo-Active Catalysts
Authors: Avan Kumar, Sreedevi Upadhyayula, Hariprasad Kodamana
Journal: Digital Chemical Engineering
Year: 2023

Recycle-BERT: Extracting Knowledge about Plastic Waste Recycling by Natural Language Processing
Authors: Avan Kumar, Bhavik R. Bakshi, Manojkumar Ramteke, Hariprasad Kodamana
Journal: ACS Sustainable Chemistry & Engineering
Year: 2023

Multiobjective Bayesian Optimization Framework for the Synthesis of Methanol from Syngas Using Interpretable Gaussian Process Models
Authors: Avan Kumar, K.K. Pant, Sreedevi Upadhyayula, Hariprasad Kodamana
Journal: ACS Omega
Year: 2023

A Text Mining Framework for Screening Catalysts and Critical Process Parameters from Scientific Literature – A Study on Hydrogen Production from Alcohol
Authors: Avan Kumar, Swathi Ganesh, Divyanshi Gupta, Hariprasad Kodamana
Journal: Chemical Engineering Research and Design
Year: 2022

 

Pravin Kodgire | Chemical Engineering | Best Researcher Award

Published on by Analytical Chemistry

Dr. Pravin Kodgire | Chemical Engineering | Best Researcher Award

Pandit Deendayal Energy University, India

Profiles

🎓 Early Academic Pursuits

Dr. Pravin Kodgire embarked on his academic journey with a Ph.D. from the prestigious Indian Institute of Technology Bombay (IIT Bombay), where he laid the foundation for a career steeped in innovation in chemical and environmental engineering. Following his doctoral studies, he enhanced his research acumen as a post-doctoral fellow at the Colorado School of Mines, USA, further deepening his expertise in energy and environmental technologies.

🧑‍🏫 Professional Endeavors

Currently serving as an Associate Professor in the Department of Chemical Engineering at Pandit Deendayal Energy University (PDEU) in Gandhinagar, Gujarat, Dr. Kodgire has held several pivotal roles, including that of the former Head of the Department. Over the past two decades, he has balanced teaching and research with leadership, playing a vital role in the department’s academic and infrastructural growth.

🔬 Contributions and Research Focus

Dr. Kodgire’s research intersects biofuels, sustainable energy, and environmental remediation, with a specialized focus on wastewater treatment aimed at providing clean and green technological solutions. As a founder member of the Centre for Biofuel and Bioenergy Studies (CBBS) at PDEU, he has been instrumental in establishing state-of-the-art research infrastructure that supports cutting-edge work in renewable energy technologies.

🌍 Impact and Influence

With over 75 peer-reviewed journal and conference publications, Dr. Kodgire has significantly contributed to the academic discourse in energy and environmental engineering. His research outcomes have had both academic and industrial implications, leading to several patents in process, product, and design innovations. His work not only informs scientific understanding but also translates into real-world applications that address global environmental challenges.

📚 Academic Citations and Research Recognition

Dr. Kodgire’s scholarly output has been cited by numerous researchers and professionals globally, underlining his contributions to the advancement of chemical engineering, particularly in renewable energy and sustainable waste management. His citations reflect a growing recognition of his thought leadership in biofuel and environmental technologies.

🛠️ Technical Skills and Expertise

His technical prowess includes biochemical process development, environmental process engineering, and energy systems modeling, making him a valued researcher in multidisciplinary projects. His command over both theoretical and applied aspects enables him to lead complex industrial consultancy and academic collaborations effectively.

🧑‍🏫 Teaching Experience

With 20 years of teaching experience, Dr. Kodgire has mentored undergraduate, postgraduate, and doctoral students, delivering courses in chemical engineering fundamentals, energy engineering, and environmental systems. His dedication to pedagogy ensures the development of future leaders equipped with both academic rigor and industrial relevance.

🏅 Legacy and Future Contributions

Dr. Kodgire’s legacy is marked by his holistic contribution to academia, research, and institutional development. His ongoing supervision of Ph.D. and PG students ensures a continuous stream of innovation and scholarship. Looking ahead, he is expected to play a leading role in integrating bioenergy solutions with national energy policies, while continuing to foster academic excellence and industrial partnerships.

Notable Publications

  • Title: Analysis of a novel high-speed homogenizer technique for methyl ester production using waste cooking oil: Multi-objective optimization and energy analysis
    Authors: Nirav Prajapati, Surendra Singh Kachhwaha, Pravin Kodgire, Rakesh Kumar Vij
    Journal: Chemical Engineering Research and Design
    Year: 2024

  • Title: Hydrogen - Imminent Clean and Green Energy: Hydrogen Production Technologies Life Cycle Assessment Review
    Authors: Pravin Kodgire, et al.
    Journal: Process Safety and Environmental Protection
    Year: 2024

  • Title: Enhanced castor seed oil extraction assisted by the synergistic effect of ultrasound and microwave: Impact on extraction effectiveness and oil quality
    Authors: Kartik Thakkar, Surendra Singh Kachhwaha, Pravin Kodgire
    Journal: Chemical Engineering and Processing: Process Intensification
    Year: 2023

  • Title: Microwave-assisted biodiesel production using bio-waste catalyst and process optimization using response surface methodology and kinetic study
    Authors: Pravin Kodgire, et al.
    Journal: Scientific Reports
    Year: 2023

  • Title: Optimization and kinetics of biodiesel production of Ricinus communis oil and used cottonseed cooking oil employing synchronised 'ultrasound + microwave' and heterogeneous CaO catalyst
    Authors: Pravin Kodgire, Anvita Sharma, Surendra Singh Kachhwaha
    Journal: Renewable Energy
    Year: 2023

 

 

 

 

 

Yeshui Zhang | Chemical Engineering | Best Researcher Award

Published on by Analytical Chemistry

Dr. Yeshui Zhang | Chemical Engineering | Best Researcher Award

University of Aberdeen, United Kingdom

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Yeshui Zhang began her academic journey with a BSc in Environmental Management from the University of Birmingham, where she established a strong foundation for her multidisciplinary approach to energy and environmental engineering. She then pursued an MSc in Environmental & Energy Engineering at the University of Sheffield, working under the guidance of Prof. Agba Salman. Her academic path culminated in a PhD in Chemical & Process Engineering at the University of Leeds (2014–2017), where her thesis focused on hydrogen and carbon nanotube materials derived from the pyrolysis-catalysis of waste, supervised by Prof. Paul Williams and Dr. Chunfei Wu.

💼 Professional Endeavors

Dr. Zhang currently serves as a Lecturer in Chemical Engineering at the University of Aberdeen, a position she has held since December 2021. She contributes to both research and teaching within the School of Engineering. Prior to this, she held several research-intensive roles at University College London (UCL), including a prestigious Faraday Institution Research Fellowship (2019–2021) on the NEXTRODE project, which aimed to enhance operando metrology in Li-ion battery electrode manufacturing. From 2018 to 2019, she worked as a Postdoctoral Research Associate, developing quartz crystal microbalance techniques for high-temperature applications—an initiative funded by the Qatar National Research Fund. Dr. Zhang also provided consultancy to Alchemy TT Corporation in the U.S., focusing on carbon nanomaterials from waste plastics, and previously served as Overseas Outreach Manager for Nangyang Weiter Chemical in China.

🔬 Research Focus and Contributions

Dr. Zhang’s research lies at the intersection of sustainable energy, waste valorization, and advanced materials. Her areas of expertise include energy storage materials, lithium-ion battery manufacturing, hydrogen production, plastic waste pyrolysis-catalysis, and the synthesis of carbon nanotubes. She is pioneering new approaches in in-situ acoustic diagnostics and high-temperature quartz crystal microbalance (QCM) systems, advancing real-time analysis in energy materials research. Her work is firmly rooted in circular economy principles, particularly with respect to converting plastic waste into valuable energy resources.

🌱 Impact and Influence

Dr. Zhang’s work is making a significant impact on green technology development and sustainability. She offers scalable, practical solutions for transforming plastic waste into high-value materials such as hydrogen and carbon nanostructures. Her role in the NEXTRODE project is helping to reshape Li-ion battery manufacturing through improved metrological precision and efficiency, contributing meaningfully to the global transition toward low-carbon energy systems.

📈 Academic Citations and Recognition

While specific citation metrics are not provided, Dr. Zhang’s continuous involvement in high-profile research projects—such as those funded by the Faraday Institution and the Qatar National Research Fund—reflects her growing academic stature and the broad relevance of her work in chemical engineering, energy technology, and materials science.

🛠️ Technical Skills

Dr. Zhang possesses a diverse and advanced technical skill set, including expertise in pyrolysis-catalysis systems, high-temperature QCM analysis, operando measurement technologies, battery metrology, and the synthesis of nanomaterials from recycled waste. She is also developing innovative acoustic monitoring systems for in-situ diagnostics in complex energy environments.

👩‍🏫 Teaching Experience

As a Lecturer at the University of Aberdeen, Dr. Zhang is actively involved in teaching and mentoring students in chemical and process engineering. She brings her cutting-edge research into the classroom, inspiring innovation and real-world application among her students. Her interdisciplinary background allows her to teach across a range of topics, including energy systems, environmental remediation, and advanced materials.

🌍 Legacy and Future Contributions

Dr. Zhang is positioned to become a leading figure in circular energy systems and sustainable battery technology development. Her future research will continue to integrate waste management with the creation of high-performance materials, particularly in the areas of green hydrogen and carbon-negative technologies. Through her academic and industrial partnerships, she is driving innovations that align with global sustainability goals and a cleaner, more efficient energy future.

📖Notable Publications

Catalysis and absorption behaviors of the shelled-hollow CaO-MgO microspheres on product distributions and desulfurization during waste tire fast pyrolysis
Authors: Qu, B.; Zhang, Y.; Wang, T.; Li, A.; Ji, G.
Journal: Fuel
Year: 2025

Effect of reduction temperatures of Ni-modified zeolites on the product distribution, catalyst deactivation, and reaction mechanism during polypropylene pyrolysis
Authors: Qu, B.; Wang, T.; Ji, X.; Zhang, Y.; Ji, G.
Journal: Fuel
Year: 2025

Pyrolysis-catalytic gasification of plastic waste for hydrogen-rich syngas production with hybrid-functional Ni-CaO–Ca₂SiO₄ catalyst
Authors: Qin, T.; Ji, G.; Qu, B.; Derksen, J.J.; Zhang, Y.
Journal: Carbon Capture Science and Technology
Year: 2025

Ni transformation and hydrochar properties during hydrothermal carbonization of cellulose
Authors: Zhao, P.; Yu, S.; Zhang, Y.; Zhang, Y.; Zhou, H.
Journal: Fuel
Year: 2025

Pyrolysis-catalysis of waste tire to enhance the aromatics selectivity via metal-modified ZSM-5 catalysts
Authors: Qu, B.; Zhang, Y.; Wang, T.; Li, A.; Ji, G.
Journal: Process Safety and Environmental Protection
Year: 2024