Pavan Gupta | Heterogeneous catalysis | Best Researcher Award

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Dr. Pavan Gupta | Heterogeneous catalysis | Best Researcher Award

Doctorate at CSIR-Central Institute of Mining and Fuel Research, India

Pavan Kumar Gupta is a distinguished chemical engineer with extensive experience in catalysis and process development. With a background in Chemical Engineering from prestigious institutions including HIT, Haldia, IIT-BHU, and IIT-ISM, he has built a strong reputation in the field of chemical engineering. His expertise spans various domains such as heterogeneous catalysis, syngas conversion, and the utilization of coal fly ash in catalytic processes. Gupta’s work contributes significantly to advancing sustainable technologies and resource utilization in the chemical industry.

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Pavan Kumar Gupta has published extensively in high-impact scientific journals, with several papers in prestigious SCI journals. His research has garnered significant attention, as evidenced by his numerous citations and the high visibility of his work in the field of chemical engineering. His author metrics reflect a strong impact on both academic research and practical applications, showcasing his contributions to advancements in catalysis and sustainable technologies.

  • Citations: 162 citations accumulated across 154 documents, highlighting the impact and relevance of his research.
  • Documents: A total of 18 published documents, showcasing a substantial body of work.
  • h-index: 6, indicating that Gupta has at least 6 papers each cited at least 6 times, reflecting a balanced combination of productivity and citation impact.

Education

Pavan Kumar Gupta’s academic journey began with a B.Tech in Chemical Engineering from HIT, Haldia in 2013. He furthered his studies with an M.Tech in Chemical Engineering from IIT-BHU in 2015. His dedication to the field culminated in a PhD in Chemical Engineering from IIT-ISM in 2024. His educational background provided him with a solid foundation in both theoretical and practical aspects of chemical engineering, shaping his expertise in catalysis and process development.

Research Focus

Gupta’s research primarily focuses on heterogeneous catalysis, specifically in areas such as syngas conversion, CO2 absorption, and the development of advanced catalytic materials. He is particularly interested in the utilization of waste materials, like coal fly ash, to create valuable catalysts for processes such as Fischer-Tropsch synthesis. His work aims to advance sustainable technologies and improve the efficiency and environmental impact of industrial chemical processes.

Professional Journey

Pavan Kumar Gupta’s professional journey is marked by significant contributions to both research and industry. He has been involved in various projects related to coal-to-liquid (CTL) technologies, catalyst development, and resource utilization from waste materials. His role in the CSIR-CIMFR includes leading research projects and developing innovative solutions for energy and chemical industries. His experience reflects a commitment to addressing both scientific and practical challenges in chemical engineering.

Honors & Awards

Throughout his career, Pavan Kumar Gupta has received recognition for his contributions to chemical engineering and catalysis. His awards and honors reflect his dedication to advancing scientific knowledge and his impact on sustainable technological solutions. These accolades underscore his role as a leading researcher and innovator in his field.

Publications Noted & Contributions

Gupta’s notable publications span various high-impact journals, highlighting his contributions to the field of chemical engineering. His work includes influential papers on catalysis, waste utilization, and renewable fuels. Key publications include studies on Fischer-Tropsch synthesis using coal fly ash-derived catalysts, and reviews on biomass conversion. His contributions are widely recognized for advancing both theoretical knowledge and practical applications in catalysis.

Enhanced CO2 Methanation over Nickel‐Based Unsupported Catalyst Synthesized by Chemical Precipitation Method

  • Journal: ChemistrySelect
  • Date: August 12, 2024
  • DOI: 10.1002/slct.202400572
  • Contributors: Abhay Kumar Choudhary, Sudeep Yadav, Pavan Kumar Gupta
  • Summary: This study explores the synthesis of a nickel-based unsupported catalyst using a chemical precipitation method and its application in CO2 methanation. The research highlights advancements in catalytic performance and efficiency for CO2 conversion, contributing to sustainable energy solutions.

Significance and Influence of Various Promoters on Cu‐Based Catalyst for Synthesizing Methanol from Syngas: A Critical Review

  • Journal: Journal of Chemical Technology & Biotechnology
  • Date: May 2023
  • DOI: 10.1002/jctb.7331
  • Contributors: Shiva Kumar Saw, Sudipta Datta, PD Chavan, Pavan K Gupta, Shweta Kumari, Gajanan Sahu, Vishal Chauhan
  • Summary: This critical review examines the role of various promoters in enhancing the performance of Cu-based catalysts for methanol synthesis from syngas. The paper provides a comprehensive analysis of promoter effects, offering valuable insights for optimizing catalytic processes in industrial applications.

Comparative Studies of Co/SBA‐15 Catalysts Synthesized with Different Silica Sources Including Coal Fly Ash for Fischer‐Tropsch Synthesis

  • Journal: ChemistrySelect
  • Date: March 20, 2023
  • DOI: 10.1002/slct.202204962
  • Contributors: Pavan K. Gupta, Vineet Kumar, Sudip Maity, Goutam Kishore Gupta, Sudipta Datta, Arvind Singh, Siddhartha Sengupta
  • Summary: This research investigates the performance of Co/SBA-15 catalysts synthesized from various silica sources, including coal fly ash, in Fischer-Tropsch synthesis. The study emphasizes the potential of using waste materials as silica sources for catalyst preparation, contributing to more sustainable catalytic processes.

Effect of Char Temperature on CO2 Gasification of High Ash Coal and Biomass

  • Journal: ChemistrySelect
  • Date: 2022
  • DOI: 10.1002/SLCT.202201551
  • WOSUID: WOS:000863629400001
  • Contributors: Neelam Kumari, Sudipta Datta, Gajanan Sahu, Pinaki Sarkar, Sujan Saha, Prakash D. Chavan, Vishal Chauhan, Pavan Kumar Gupta
  • Summary: This article examines the impact of char temperature on the CO2 gasification process of high ash coal and biomass. The findings provide insights into optimizing gasification conditions for improved efficiency and resource utilization in energy production.

Heterogeneous Nanocatalyst for Biodiesel Synthesis

  • Journal: ChemistrySelect
  • Date: 2022
  • DOI: 10.1002/SLCT.202201671
  • WOSUID: WOS:000828851400001
  • Contributors: Deshal Yadav, Sudipta Datta, Sujan Saha, Subhalaxmi Pradhan, Shweta Kumari, Pavan Kumar Gupta, Vishal Chauhan, Shiva Kumar Saw, Gajanan Sahu
  • Summary: This research focuses on the development of a heterogeneous nanocatalyst for biodiesel synthesis. The study highlights advancements in catalyst design and performance for efficient biodiesel production, addressing key challenges in sustainable fuel generation.

Research Timeline

Pavan Kumar Gupta’s research timeline illustrates a trajectory of increasing specialization and impact. Starting with foundational research during his B.Tech and M.Tech studies, his focus evolved towards advanced catalysis and sustainable processes during his PhD. Over the years, he has managed and participated in numerous research projects, contributing to significant advancements in chemical engineering. His timeline reflects a consistent commitment to addressing complex challenges in catalysis and resource utilization.

Collaborations and Projects

Gupta’s work involves extensive collaborations with national and international research institutions. His projects span diverse areas, including the development of catalysts for syngas conversion, utilization of coal fly ash, and quality monitoring in energy production. Notable collaborations include projects with CSIR-CIMFR and CMPDI Ranchi, where he has played key roles in various research initiatives. His collaborative efforts underscore his ability to work effectively across different teams and contribute to multidisciplinary research projects.

Strengths of the Best Researcher Award

  1. Innovative Research Contributions: Dr. Pavan Kumar Gupta’s work in heterogeneous catalysis and sustainable technologies, such as utilizing coal fly ash in catalytic processes and advancing CO2 methanation, demonstrates a strong commitment to innovation in the field. His contributions to enhancing catalytic performance and resource utilization have significant practical implications.
  2. High Citation Impact: With 162 citations across 154 documents, Gupta’s research has had a notable impact on the scientific community. His work is highly regarded and frequently referenced, reflecting its relevance and influence in advancing catalysis and chemical engineering.
  3. Diverse Research Topics: Gupta’s research spans various crucial areas, including syngas conversion, CO2 absorption, and the development of advanced catalytic materials. His ability to address multiple facets of chemical engineering showcases his broad expertise and adaptability.
  4. Recognition in Prestigious Journals: Gupta’s publications in high-impact journals such as ChemistrySelect and the Journal of Chemical Technology & Biotechnology underscore the quality and significance of his research. His ability to publish in top-tier journals highlights his position as a leading researcher in his field.
  5. Successful Utilization of Waste Materials: Gupta’s focus on utilizing coal fly ash and other waste materials for catalytic processes is a significant strength. This approach not only advances sustainable technologies but also addresses environmental challenges by repurposing waste materials.

Areas for Improvement

  1. Broader Research Scope: While Gupta’s research is highly specialized, expanding his focus to include emerging areas such as renewable energy technologies or advanced materials could further enhance the breadth and impact of his work.
  2. Collaborative Networks: Although Gupta has engaged in extensive collaborations, increasing partnerships with international research institutions and industry leaders could broaden the scope of his research and enhance its practical applications.
  3. Public Engagement and Outreach: Enhancing efforts in public science communication and outreach could help disseminate his research findings to a broader audience, including policymakers, industry professionals, and the general public.
  4. Research Funding: Securing additional funding for large-scale or interdisciplinary projects could support more ambitious research initiatives and enable the development of innovative solutions to complex problems in catalysis and sustainability.
  5. Diversification of Publication Venues: Expanding publication efforts to include interdisciplinary journals or those focusing on applied research could help reach new audiences and increase the practical impact of his findings.

Conclusion

Dr. Pavan Kumar Gupta’s recognition as the Best Researcher reflects his exceptional contributions to the field of chemical engineering, particularly in heterogeneous catalysis and sustainable technologies. His innovative research, high citation impact, and diverse publication record underscore his significant role in advancing scientific knowledge and practical applications. While there are opportunities for further growth, such as expanding research scope and increasing public engagement, Gupta’s achievements highlight his dedication and expertise. His work continues to drive advancements in catalysis and resource utilization, reinforcing his position as a leading researcher in his field.

Olayomi Falowo | Heterogeneous catalyst | Green Chemistry Award

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Dr. Olayomi Falowo| Heterogeneous catalyst | Green Chemistry Award

 Doctorate at Landmark University, Omu-Aran, Nigeria

Dr. Olayomi Abiodun Falowo is a dedicated faculty member in the Department of Chemical Engineering at Landmark University, Nigeria. With a robust academic and professional background, Dr. Falowo has amassed five years of experience in both teaching and research within the chemical engineering field. His expertise spans biomass bioconversion, nano-catalyst synthesis, and industrial product development. Prior to his current role, Dr. Falowo served as a research associate at Obafemi Awolowo University, where he honed his skills in biochemical engineering and contributed significantly to various research projects. He has a proven track record of supervising numerous undergraduate and graduate students and has published extensively in reputable journals.

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Citations

Dr. Olayomi Abiodun Falowo has accumulated a total of 464 citations for his published works. This number reflects the impact and relevance of his research in the field of chemical engineering, indicating that his work is frequently referenced by other researchers. Citations are a key measure of scholarly influence and the recognition of his contributions to the academic community.

h-index

Dr. Falowo has an h-index of 12, which signifies that he has at least 12 papers each cited at least 12 times. This metric demonstrates both the productivity and impact of his scholarly work, showing that he has consistently produced influential research that has garnered significant attention from the academic community.

i10-index

With an i10-index of 12, Dr. Falowo has at least 12 publications that have each been cited at least 10 times. This index complements the h-index by highlighting the number of his papers that have received substantial citations, further underscoring his contributions to the field and the enduring relevance of his research.

Education

Dr. Falowo’s educational journey reflects a strong foundation in chemical engineering and biochemistry. He obtained his Ph.D. in Chemical Engineering from Obafemi Awolowo University in October 2018. Prior to this, he earned his M.Sc. and B.Sc. (Hons) in Chemical Engineering and Biochemistry, respectively, from the same institution. His academic background is complemented by a Diploma in Chemical Engineering, showcasing a long-standing commitment to his field. This rigorous education has equipped him with the theoretical and practical knowledge essential for his research and teaching endeavors.

Research Focus

Dr. Falowo’s research primarily concentrates on the optimization and modeling of biomass processing to biofuels, the synthesis of heterogeneous catalysts, and the development of industrial products. His work explores advanced methodologies in biomass bioconversion, including the use of nano-catalysts and green energy technologies. Dr. Falowo’s research aims to address sustainability challenges and improve efficiency in biofuel production and waste management, contributing valuable insights into the chemical engineering field.

Professional Journey

Dr. Falowo’s professional journey includes a blend of academic and practical experiences. He began his career as a Teaching Assistant at Obafemi Awolowo University before transitioning to a Research Associate role, where he supervised research projects and contributed to experimental design. Since October 2019, he has been serving as a faculty member at Landmark University, where he teaches various chemical engineering courses and actively participates in research. His career trajectory highlights a commitment to advancing chemical engineering education and research.

Honors & Awards

Dr. Falowo has been recognized for his contributions to the field through various honors and awards. Notably, he has participated in prestigious programs such as the YALI Regional Leadership Programme and the National Youth Summit. These recognitions reflect his leadership and impact beyond academia, showcasing his dedication to professional development and community engagement.

Publications Noted & Contributions

Dr. Falowo has authored and co-authored over 20 journal articles in Scopus-indexed journals, contributing significantly to the body of knowledge in chemical engineering. His notable publications include research on sustainable biodiesel production, optimization of bioethanol production, and the synthesis of novel catalysts. Additionally, he has contributed to five book chapters, providing valuable insights and advancements in bioethanol production, bioremediation, and sustainable technology.

Sustainable Microwave-Supported Biodiesel Production Using Sandbox Oil and Its Waste Shell as a Nanoparticle Green Alkali Heterogeneous Catalyst
Authors: E. Betiku, J.C. Oraegbunam, O.A. Falowo, T.V. Ojumu, L.M. Latinwo
Journal: Process Biochemistry
Year: 2024
Volume: 142
Pages: 1-12

Optimization of Corn Steep Liquor as a Sole Substrate for Bioethanol Production Using Saccharomyces cerevisiae
Authors: O.A. Falowo, A.E. Taiwo, I. Afolabi, B.S. Fakinle, J.O. Ojediran
Conference: 2023 International Conference on Science, Engineering, and Business for Driving Sustainable Development Goals
Year: 2023

Green Heterogeneous Base Catalyst from Ripe-Unripe Plantain Peels for the Transesterification of Waste Cooking Oil
Authors: O.A. Falowo, B. Oladipo, A.E. Taiwo, T.A. Olaiya, O. Oyekola, E. Betiku
Year: 2021

A Bifunctional Catalyst from Waste Eggshells and Its Application in Biodiesel Synthesis from Waste Cooking Oil
Authors: O.A. Falowo, O.J. Ojediran, O. Moses, R. Eghianruwa, E. Betiku
Journal: Results in Engineering
Year: 2024
Article: 102613

Recovery of Value‐Added Products from Sewage Sludge: Processes, Life Cycle Assessment, and Costs
Authors: A.E. Taiwo, O.A. Falowo, A.I. Okoji, L.M. Latinwo, E. Betiku
Book Chapter: Sewage and Biomass from Wastewater to Energy
Year: 2024
Pages: 225-257

Research Timeline

Dr. Falowo’s research timeline illustrates a progression from foundational studies to advanced and impactful contributions. Starting with his early research on chemical engineering processes, he has progressively focused on optimizing biofuel production and developing new catalysts. His work has evolved to incorporate advanced methodologies and technologies, reflecting his growth and adaptation in the field. The timeline showcases his continuous commitment to addressing emerging challenges and advancing scientific knowledge.

Collaborations and Projects

Dr. Falowo has collaborated with various academic institutions and researchers, enhancing the scope and impact of his work. His collaborations include partnerships with the Department of Chemical Engineering at Obafemi Awolowo University, Cape Peninsula University of Technology, and Florida Agricultural and Mechanical University. These collaborations have facilitated joint research projects and knowledge exchange, contributing to the development of innovative solutions in chemical engineering and related fields.

These explanations provide a detailed view of Dr. Falowo’s professional profile and achievements. Each section highlights his contributions, focus areas, and impact within the field of chemical engineering.

Strengths of Dr. Olayomi Falowo’s Green Chemistry Award:

  1. Innovative Research Contributions: Dr. Falowo’s work on green chemistry, particularly in the development of sustainable catalysts and biofuel production methods, showcases a commitment to advancing environmentally friendly technologies. His notable publications, such as the study on green heterogeneous base catalysts from plantain peels and waste eggshells, highlight his role in pioneering sustainable solutions in chemical engineering.
  2. Significant Academic Impact: With 464 citations, an h-index of 12, and an i10-index of 12, Dr. Falowo’s research is widely recognized and influential in the field. These metrics indicate that his work is frequently cited by peers, reflecting its importance and relevance.
  3. Diverse Research Focus: Dr. Falowo’s research spans several critical areas, including biomass bioconversion, nano-catalyst synthesis, and green energy technologies. This breadth of focus allows for a holistic approach to solving sustainability challenges in chemical engineering.
  4. Award-Winning Achievements: Receiving the Green Chemistry Award underscores Dr. Falowo’s excellence and leadership in the field of sustainable chemistry. This recognition reflects his innovative contributions to creating greener and more efficient chemical processes.
  5. Strong Educational and Professional Background: Dr. Falowo’s extensive educational background, including a Ph.D. in Chemical Engineering and a Diploma in Chemical Engineering, provides a solid foundation for his research. His previous role as a research associate and current faculty position at Landmark University further enhance his credibility and impact.

Areas for Improvement:

  1. Broader Research Collaboration: Expanding collaborations with international institutions and industry partners could enhance the scope and impact of Dr. Falowo’s research. While he has established collaborations, further engagement with a diverse range of researchers and organizations could lead to innovative breakthroughs and larger-scale projects.
  2. Increased Research Funding: Securing additional research grants and funding could facilitate more extensive experimental studies and the development of advanced technologies. This would enable Dr. Falowo to expand his research projects and explore new areas within green chemistry.
  3. Interdisciplinary Integration: Enhancing interdisciplinary research efforts could provide new insights and approaches. By integrating chemical engineering with other fields such as environmental science, materials science, and economics, Dr. Falowo could address complex sustainability challenges more comprehensively.
  4. Publication in High-Impact Journals: Although Dr. Falowo has published extensively, targeting high-impact journals could further amplify the visibility and influence of his work. Publications in top-tier journals may also increase his research’s reach within the academic community.
  5. Student and Community Engagement: Increasing involvement in student mentorship and community outreach could enhance his role as an educator and leader. Engaging more with students through workshops, seminars, and community projects could inspire the next generation of researchers and foster a greater appreciation for green chemistry.

Conclusion

Dr. Olayomi Abiodun Falowo’s Green Chemistry Award reflects his significant contributions to sustainable chemical processes and his influential role in advancing green chemistry. His research, characterized by innovative approaches to catalyst development and biofuel production, demonstrates a strong commitment to addressing environmental and sustainability challenges. With notable academic impact and a solid professional background, Dr. Falowo has established himself as a leader in his field.

However, opportunities for growth include broadening research collaborations, securing additional funding, integrating interdisciplinary approaches, publishing in high-impact journals, and increasing engagement with students and the community. By addressing these areas, Dr. Falowo can further enhance his contributions to green chemistry and continue to drive advancements in sustainable technologies.