Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

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Dr. Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

Assistant Professor, Central Institute of Petrochemicals Engineering and Technology, India

Dr. Manish Choudhary is an Assistant Professor in Chemical Engineering at CIPET: IPT Lucknow, with a Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University. He also holds an M.Tech. from IIT Roorkee. Dr. Choudhary’s career is marked by a strong passion for teaching, research, and academic administration. He has published seven papers in SCI & Scopus indexed journals, focusing on topics such as polymer composites, recycling, and biomass thermodynamics. He has delivered invited talks at international conferences and mentors students for higher education and industry collaboration. Dr. Choudhary’s contributions to improving educational programs, such as hybrid classrooms and industry-academic ties, showcase his dedication to fostering student growth and innovation. His recognition spans across various academic and professional milestones, making him a noteworthy figure in the field of chemical engineering and environmental sustainability.

Profile

Education

Dr. Manish Choudhary completed his Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University (2019-2023). He earned his M.Tech. in Chemical Engineering from IIT Roorkee (2010-2012), a prestigious institute known for its excellence in engineering education and research. Prior to that, he obtained his B.Tech. in Chemical Engineering from UPTU (2005-2009). Dr. Choudhary’s academic journey reflects a solid foundation in chemical engineering principles, focusing on sustainable growth and innovative solutions in various sectors, including polymer composites and waste management. His advanced studies have equipped him with the expertise to conduct high-impact research, contribute to educational reforms, and engage in global academic discussions. His education from these esteemed institutions has been instrumental in shaping his career as a researcher and educator dedicated to both academic and professional excellence.

Experience

Dr. Manish Choudhary has accumulated extensive teaching and administrative experience at CIPET: IPT Lucknow. As an Assistant Professor since 2017, he has been instrumental in teaching both undergraduate and postgraduate students, with a focus on Chemical Engineering topics such as Thermodynamics, Heat and Mass Transfer, and Polymer Composites. Dr. Choudhary has played a pivotal role in academic and accreditation work, including NBA, NAAC, and NIRF-related activities. He is also a coordinator for ATAL FDPs and has introduced hybrid classroom learning to adapt to modern educational trends. Furthermore, Dr. Choudhary has been a mentor for student startups like SNOWFLAKE, facilitating innovation and industry collaboration. Previously, he served as a Lecturer (2012-2017), where he contributed to student development, extracurricular activities, and accreditation processes. His leadership has enhanced the overall quality of education and student engagement at CIPET, making him a valuable asset to the institution.

Research Focus

Dr. Manish Choudhary’s research primarily revolves around sustainable technologies, focusing on thermodynamics, biomass recycling, and polymer composites. His work in thermal degradation and kinetics of various biomass materials, such as rice husk and sun hemp, aims to improve waste management processes and environmental sustainability. He has conducted in-depth studies on the modification and characterization of agricultural waste for its use in polymer composites, with a strong emphasis on mechanical, thermal, and morphological properties. Dr. Choudhary also explores eco-friendly solutions for industrial safety and hazard management, contributing to safer manufacturing processes. His publications in SCI & Scopus indexed journals underline his contribution to advancing knowledge in chemical engineering and sustainable development. He is committed to applying his research to practical solutions for waste valorization, recycling, and the development of renewable materials. His future research trajectory is focused on improving sustainability practices and enhancing the circular economy in various industries.

Publication Top Notes

  1. Thermal kinetics and morphological investigation of alkaline treated rice husk biomass 🌾🔥
    Journal of the Indian Chemical Society, 2022

  2. Determination of thermal degradation behavior and kinetics parameters of chemically modified sun hemp biomass 🌿⚗️
    Bioresource Technology, 2023

  3. Impact of various surface modifications on agro waste rice husk and its reinforced polymer composites ♻️🔬
    Materials Today: Proceedings, 2021

  4. Study on mechanical, thermal and morphological properties of RHA filled PVC composite 🏗️🔍
    International Journal of Scientific Engineering and Applied Science, 2015

  5. Thermal and mechanical investigation of chemically treated hybrid biomass epoxy bio-composite: an approach of pyrolysis kinetics 🔬🔥
    Bioresource Technology Reports, 2023

  6. Kinetics modeling & comparative examine on thermal degradation of alkali treated Crotalaria juncea fiber using model fitting method 🔥🧬
    Journal of the Indian Chemical Society, 2023

  7. Sustainable valorization of rice husk: thermal behavior and kinetics after chemical treatments ♻️🌾
    Biomass Conversion and Biorefinery, 2023

  8. Phyto-Pharmacognostical and Hypocholesterolemic Activity of Morus alba L. 🌱🧪
    European Chemical Bulletin, 2023

 

 

 

 

Kai Zhang | Resource Recovery | Best Researcher Award

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Prof.Kai Zhang | Resource Recovery | Best Researcher Award

Professor at Inner Mongolia University of Science & Technology, China 

Professor Kai Zhang is a distinguished academic at Inner Mongolia University of Science & Technology in China, specializing in solid waste management and resource recovery. With a strong background in chemical engineering, he has dedicated his career to developing innovative methods for the extraction and utilization of valuable materials from mining byproducts. Professor Zhang’s research has led to significant advancements in the fields of iron and niobium extraction, catalytic technology, and environmental sustainability. He has published over 40 research papers and holds five national invention patents, reflecting his commitment to scientific excellence and practical solutions. His leadership in various funded research projects showcases his influence in advancing resource recovery initiatives.

Profile:

ORCID Profile

Strengths for the Award:

  1. Extensive Research Experience: Professor Kai Zhang has led numerous significant research projects, notably focusing on innovative solutions in solid waste management and the utilization of resources from the Bayan Obo mining processes. His expertise in extracting valuable materials like iron and niobium showcases his commitment to sustainable practices.
  2. Innovative Contributions: The development of novel technologies, such as magnetic microcrystals from steel slag and SCR catalysts from cerium-rich minerals, demonstrates his ability to address pressing environmental challenges through innovative research.
  3. Impressive Publication Record: With over 40 publications, including more than 10 in SCI-indexed journals, Professor Zhang has made substantial contributions to the field, indicating both productivity and recognition by peers.
  4. Patent Portfolio: Holding five national invention patents highlights his capacity to translate research into practical applications, furthering advancements in chemical engineering and environmental science.
  5. Successful Funding Acquisition: Leading multiple projects funded by significant bodies, such as the National Natural Science Foundation of China, illustrates his capability in securing competitive grants, ensuring the continuation and expansion of his research initiatives

Areas for Improvement:

  1. Interdisciplinary Collaboration: While Professor Zhang has extensive expertise in his domain, fostering more interdisciplinary partnerships could enhance the scope and impact of his research. Collaborations with fields such as biotechnology or environmental policy could yield comprehensive solutions to complex issues.
  2. Increased International Engagement: Engaging in more international collaborations or conferences could elevate the global visibility of his work. Building networks beyond China can facilitate knowledge exchange and introduce diverse perspectives.
  3. Public Communication of Research: Enhancing the dissemination of research findings to broader audiences, including policymakers and the public, can improve the impact of his work on societal issues related to waste management and environmental sustainability.

Education:

Professor Kai Zhang holds a Doctorate in Chemical Engineering from a renowned institution, where he focused on innovative methods for resource recovery from industrial waste. His educational journey began with a Bachelor’s degree in Chemical Engineering, followed by a Master’s degree that emphasized environmental technologies. During his doctoral studies, he developed a keen interest in solid waste management, particularly in the mining sector. This academic foundation laid the groundwork for his future research endeavors, where he combined theoretical knowledge with practical applications. Professor Zhang’s dedication to lifelong learning is evident in his participation in various workshops and conferences, keeping him updated with the latest advancements in his field. His educational background, combined with extensive research experience, positions him as a leader in resource recovery and environmental sustainability.

Experience:

With over a decade of teaching and research experience, Professor Kai Zhang has established himself as a prominent figure in the field of resource recovery. His tenure at Inner Mongolia University of Science & Technology includes roles as a principal investigator on numerous funded research projects, focusing on innovative extraction techniques and environmental catalytic materials. He has collaborated with various national and local research institutions, successfully securing competitive grants from the National Natural Science Foundation of China and other funding bodies. His experience also encompasses consulting roles in industry projects aimed at optimizing waste management practices. Through these experiences, Professor Zhang has not only contributed to scientific knowledge but has also facilitated technology transfer to practical applications, benefiting both academia and industry. His commitment to mentorship has inspired many students and young researchers, furthering the impact of his work in sustainable development.

Research Focus:

Professor Kai Zhang’s research primarily focuses on resource recovery from solid waste, particularly in the context of mining operations in the Bayan Obo region. His work addresses critical issues related to the sustainable extraction of valuable materials, such as iron and niobium, from low-grade ores and industrial byproducts. By developing innovative methodologies, including the creation of catalytic technologies and magnetic microcrystals from steel slag, he aims to optimize processes for environmental sustainability. Additionally, his research explores the performance of SCR catalysts derived from cerium-rich minerals, contributing to advancements in denitrification technologies. Professor Zhang’s interdisciplinary approach combines chemical engineering principles with environmental science, ensuring that his research not only enhances resource efficiency but also addresses ecological impacts. Through his projects, he strives to create practical solutions that support both economic viability and environmental stewardship in the mining and waste management sectors.

Publication Top Notes:

  • Research on the microscale effects of fuel pellets carrying chemical pesticide distillation residues 🌾
    Chemical Engineering Science | 2025-01 | DOI: 10.1016/j.ces.2024.120755

Conclusion:

Professor Kai Zhang is a highly qualified candidate for the Best Researcher Award due to his robust research portfolio, innovative approaches to environmental challenges, and significant contributions to chemical engineering. His ability to lead impactful projects and generate valuable patents underlines his dedication to advancing the field. By addressing areas for improvement, such as interdisciplinary collaboration and public engagement, he could further amplify the relevance and reach of his work. His nomination is strongly endorsed.

caiyan tian | Chemical Engineering | Best Researcher Award

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Mrs. caiyan tian | Chemical Engineering | Best Researcher Award

Research Associate, Leibniz-Institut für Analytische Wissenschaften – ISAS – e.V. Germany

Caiyan Tian is a dedicated Research Associate at the Leibniz-Institut für Analytische Wissenschaften-ISAS-e.V. in Dortmund, Germany. With a solid background in biochemistry and molecular biology, Caiyan is currently pursuing a PhD in Biochemical and Chemical Engineering at Technische Universität Dortmund. Her research focuses on innovative ionization mechanisms in plasma technologies, contributing significantly to advancements in mass spectrometry.

Publication Profile

Scopus

Strengths for the Award

  1. Strong Academic Background: Caiyan is currently pursuing a PhD in Biochemical and Chemical Engineering at the Technische Universität Dortmund, building on a solid foundation with a Master’s degree in Biochemistry and Molecular Biology and a Bachelor’s degree in Biological Science.
  2. Relevant Work Experience: As a Research Associate at the Leibniz-Institut für Analytische Wissenschaften, Caiyan is engaged in cutting-edge research, enhancing their practical knowledge in analytical sciences.
  3. Impressive Publication Record: Caiyan has authored multiple publications in reputable journals, focusing on innovative topics such as plasma ionization mechanisms and mass spectrometry. This indicates a strong contribution to the field and showcases their research impact.
  4. Patent Application: The development of a patent demonstrates Caiyan’s capacity for innovation and practical application of research findings, which is crucial for advancing scientific knowledge.
  5. Recognition at Conferences: Participation in international conferences, including receiving a best oral presentation award, underscores Caiyan’s ability to effectively communicate complex ideas and engage with the academic community.

Areas for Improvement

  1. Broaden Collaborative Networks: While Caiyan has demonstrated individual success, enhancing collaboration with other researchers and institutions could lead to more interdisciplinary projects, expanding the scope and impact of their research.
  2. Engagement in More Diverse Research Areas: Diversifying research interests to include more varied applications or techniques could broaden Caiyan’s expertise and make contributions to different fields.
  3. Increase Visibility in Public Engagement: Participating in public outreach or educational activities could help to raise awareness of their research and its implications, contributing to science communication and public understanding.

 

Education

Caiyan began her academic journey at Tianshui Normal University, where she earned her Bachelor’s degree in Biological Science (2010-2014). She then obtained a Master’s degree in Biochemistry and Molecular Biology from Sichuan University (2014-2017). Currently, she is a PhD student at Technische Universität Dortmund, specializing in Biochemical and Chemical Engineering since October 2020. 🎓

Experience

Caiyan has accumulated valuable experience in both research and project management. Since October 2020, she has been a Research Associate at the Leibniz-Institut für Analytische Wissenschaften-ISAS-e.V., where she conducts advanced research in analytical sciences. Prior to that, she worked at Sichuan Kelun Pharmaceutical Co., Ltd. from May 2018 to September 2020, where she gained hands-on experience in project management. 🔬

Research Focus

Caiyan’s research primarily investigates soft ionization mechanisms in flexible micro-tube plasma systems. She explores the interactions of different gases in plasma environments, aiming to improve mass spectrometry techniques for identifying and analyzing complex chemical samples. Her work has significant implications for the fields of analytical chemistry and environmental science. 🔍

Awards and Honours

Caiyan has received recognition for her outstanding presentations at international conferences, including the Best Oral Presentation Award at the 5th International Symposium on Frontiers of Plasma and Energy Conversion held in Beijing, China, in October 2023. 🏆

Publication Top Notes

Soft ionization mechanisms in flexible µ-tube plasma—elucidation of He-, Ar-, Kr-, and Xe-FµTP (Year: 2023, Journal: Journal of Plasma Research, Cited by: 10)

Soft ionization mechanisms in flexible µ-tube plasma—from FµTP to closed µ-tube plasma (Year: 2023, Journal: Plasma Chemistry and Plasma Processing, Cited by: 8)

Excitation and ionization of a diagnosis gas in front of the flexible µ tube plasma and in a diagnosis tube (Year: 2023, Journal: Journal of Applied Physics, Cited by: 5)

Elucidation of discharge mechanisms in He- and Ar-flexible µ-tube plasmas by temporally and spatially resolved plasma optical emission spectroscopy (Year: 2022, Journal: Journal of Plasma Science, Cited by: 7)

Ionization of semi-fluorinated n-alkanes in controlled atmosphere using flexible micro-tube plasma (FμTP) ionization source with square- and sine-wave voltage (Year: 2022, Journal: Journal of Mass Spectrometry, Cited by: 9)

Conclusion

Caiyan Tian is a strong candidate for the Best Researcher Award, demonstrating significant academic achievement, a robust publication record, and innovative contributions through patent development. Their active participation in conferences highlights their commitment to sharing knowledge and advancing the field of analytical sciences. By addressing areas for improvement, particularly in collaboration and public engagement, Caiyan can further enhance their research impact and recognition in the scientific community. Overall, Caiyan’s strengths outweigh the areas needing improvement, making them a commendable choice for this award.

Choong-Gon LEE | Chemical Engineering Award | Best Researcher Award

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Prof Choong-Gon LEE | Chemical Engineering Award | Best Researcher Award

Prof Choong-Gon LEE , Hanbat National University, South Korea

Professor Choong-Gon LEE, an esteemed faculty member at Hanbat National University, has a distinguished academic and professional background in chemical and electrochemical engineering. He obtained his Ph.D. in Applied Chemistry from Tohoku University, Japan, in 1997, and his M.S. (1988) and B.S. (1986) in Chemical Engineering from Yonsei University, Korea. Since 2004, Professor LEE has been dedicated to teaching and research at Hanbat National University, focusing on electrochemical engineering, fuel cells, and hydrogen production. His prolific research career includes over 60 journal publications, 4 patents, and numerous completed and ongoing research projects. Professor LEE collaborates with LowCarbon Co. on carbon dioxide recycling and is an active member of several prestigious professional societies. His contributions to the field, particularly in CO2 recycling and NaOH production through electrolysis, highlight his commitment to sustainable energy solutions and innovation in electrochemistry. 💧🔋🌍

Publication Profile

Scopus

Academic Background 🎓

Professor Choong-Gon LEE received his Ph.D. in Applied Chemistry from Tohoku University, Japan, in 1997. Prior to this, he earned his M.S. in Chemical Engineering in 1988 and his B.S. in Chemical Engineering in 1986, both from Yonsei University, Korea.

Professional Experience 👨‍🏫

Since 2004, Professor LEE has been a distinguished faculty member at Hanbat National University. In his role, he has been dedicated to teaching electrochemical engineering and conducting groundbreaking research in the field of electrochemistry. His primary focus areas include fuel cells and hydrogen production, where he has made significant contributions to the advancement of sustainable energy solutions.

 

Research Focus

Professor Choong-Gon LEE specializes in the field of electrochemical engineering, with a strong focus on sustainable energy solutions. His research encompasses the production of hydrogen (H2) and sodium hydroxide (NaOH) from alkaline solutions containing carbon dioxide (CO2) using cation exchange membranes. He also investigates the effects of temperature on electrode reactions in molten carbonate and solid oxide fuel cells, aiming to enhance their efficiency and performance. Professor LEE’s work is notable for its practical applications, such as developing methods for electrochemical hydrogen production utilizing captured CO2. His collaborative efforts with researchers and industry partners highlight his commitment to advancing electrochemical science and environmental sustainability. Through his numerous publications in high-impact journals, Professor LEE contributes significantly to the understanding and innovation in the fields of fuel cells, electrolysis, and carbon recycling. His research not only advances scientific knowledge but also addresses critical challenges in sustainable energy production. 🌱🔋🌍

Publication Top Notes

“Electrolytic production of NaOH and H2 from alkaline solution containing CO2 using cation exchange membranes” (2024) – 0 citations 🌱

“Effect of temperature on the electrode overpotential of molten carbonate electrolysis and fuel cells with inert-gas step addition method” (2023) – 0 citations 🌡️

“Effect of temperature on the electrode reactions in a planar solid oxide fuel cell” (2023) – 0 citations 🔋

“Reaction characteristics of molten carbonate cell operated in fuel cell and electrolysis modes with reactant gas addition method” (2023) – 0 citations ⚡

“Electrochemical hydrogen production using captured CO2 in alkaline solution” (2023) – 3 citations 💧

“Comparison of gas phase transport effects between fuel cell and electrolysis cell modes of a 100 cm2 class molten carbonate cell” (2022) – 2 citations 🔄

“Electrode reaction properties using a reactant gas addition method in a commercial 100 cm2 class solid oxide fuel cell” (2022) – 4 citations 🔍

“Experimental analysis of internal leakage current using a 100 cm2 class planar solid oxide fuel cell” (2021) – 4 citations 📈

“Lifetime expectancy of molten carbonate fuel cells: Part II. Cell life simulation using bench and coin-type cells” (2021) – 3 citations ⏳

“Lifetime Expectancy of molten carbonate fuel cells: Part I. Effect of temperature on the voltage and electrolyte reduction rates” (2021) – 4 citations 🔥