Shripad Patil | Material chemistry | Young Scientist Award

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Dr. Shripad Patil | Material chemistry | Young Scientist Award 

 Doctorate at Aragen Life Science, Hyderabad, India

Dr. Shripad Mukundrao Patil is an accomplished scientist specializing in Organic Chemistry, currently serving as an Assistant Professor at Rayat Shikshan Sanstha’s Dada Patil Mahavidyalaya in Karjat, Maharashtra, India. With a Ph.D. from Lovely Professional University, Punjab, his research focuses on the synthesis and application of magnetically recyclable silica-coated nanoparticles in organic transformations. His career reflects a commitment to academic excellence and innovation in green chemistry methodologies, leveraging his expertise to advance sustainable practices in chemical synthesis.

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Dr. Patil has established a significant scholarly presence with 18 research papers published in prestigious journals indexed in Scopus and Web of Science. His publications have garnered a total of 156 citations, underscoring his impact in the field of Organic Chemistry. His work is characterized by its pioneering use of magnetically recyclable nanocatalysts, contributing to advancements in catalysis and environmental sustainability within the pharmaceutical and chemical industries.

Education

Dr. Patil’s academic journey includes a Ph.D. in Organic Chemistry from Lovely Professional University, Punjab, awarded in 2023. Prior to this, he completed his M.Sc. and B.Sc. in Organic Chemistry at Dada Patil College, Karjat, Pune. His educational background has equipped him with a solid foundation in theoretical and practical aspects of chemistry, essential for his subsequent research endeavors and teaching career.

Research Focus

Dr. Patil’s research is centered on the development and application of magnetically recyclable silica-coated nanoparticles as catalysts in organic transformations. His work aims to enhance the efficiency and sustainability of chemical processes by minimizing environmental impact and optimizing resource utilization. Through innovative synthesis methods and rigorous characterization techniques, he contributes to the advancement of green chemistry principles and their practical implementation in industrial settings.

Professional Journey

Dr. Patil’s professional journey encompasses diverse roles including Assistant Professor at Rayat Shikshan Sanstha’s Dada Patil Mahavidyalaya, Karjat. He has effectively taught a range of chemistry courses, mentored students in research, and actively participated in academic conferences and workshops globally. His commitment to research excellence and academic leadership is evident in his contributions to curriculum development and his role as a mentor to aspiring chemists.

Honors & Awards

Throughout his career, Dr. Patil has received recognition for his contributions to Organic Chemistry, including a Ph.D. Award from Lovely Professional University, Punjab. He has also secured funding through grants such as the Seed Money Grant from Dada Patil Mahavidyalaya, Karjat, underscoring his ability to attract support for innovative research initiatives. His international patent for a novel process involving silica-coated nanoparticles further highlights his impact and recognition within the scientific community.

Publications Noted & Contributions

Dr. Patil’s research publications have made notable contributions to the field, particularly in the area of magnetically recoverable nanocatalysts and their applications in organic synthesis. His papers have been published in esteemed journals like Royal Society of Chemistry Advances and American Chemical Society Omega, showcasing his expertise in designing sustainable catalytic systems and their practical implications for industrial chemistry.

Malic Acid as a Green Catalyst for the N-Boc Protection under Solvent-free Condition

  • Journal: Letters in Organic Chemistry, 2024
  • DOI: 10.2174/0115701786278928231218113855
  • Contributors: Ashok Pise; Shripad M. Patil; Ajit P. Ingale
  • Summary: This article explores the use of malic acid as an eco-friendly catalyst for the N-Boc protection of compounds under solvent-free conditions, highlighting Dr. Patil’s commitment to sustainable catalytic processes.

Magnetite-supported montmorillonite (K10) (nanocat-Fe-Si-K10): an efficient green catalyst for multicomponent synthesis of amidoalkyl naphthol

  • Journal: RSC Advances, 2023
  • DOI: 10.1039/D3RA01522J
  • Contributors: Shripad M. Patil; Runjhun Tandon; Nitin Tandon; Iqubal Singh; Ashwini Bedre; Vilas Gade
  • Summary: This publication focuses on magnetite-supported montmorillonite as a catalyst for the multicomponent synthesis of amidoalkyl naphthol, illustrating Dr. Patil’s research in developing efficient heterogeneous catalysts.

Novel Silica-coated Magnetic Nanoparticles and Their Synthetic Applications

  • Journal: Iranian Journal of Catalysis, 2023
  • DOI: 10.30495/ijc.2023.1998671.2054
  • Contributors: Shripad Patil
  • Summary: Dr. Patil’s solo-authored article discusses novel silica-coated magnetic nanoparticles and their applications in synthetic chemistry, emphasizing advancements in nanotechnology for catalytic purposes.

[EMIm][BH3CN] Ionic Liquid as an Efficient Catalyst for the Microwave-Assisted One-Pot Synthesis of Triaryl Imidazole Derivatives

  • Journal: Letters in Organic Chemistry, 2023
  • DOI: 10.2174/1570178620666230510122033
  • Contributors: Rajesh K. Manjul; Suresh T. Gaikwad; Vilas B. Gade; Anjali S. Rajbhoj; Manohar K. Jopale; Shripad M. Patil; Dhananjay N. Gaikwad; Dayanand M. Suryavanshi; Santosh P. Goskulwad; Suvarna D. Shinde
  • Summary: This collaborative effort highlights the use of an ionic liquid as a catalyst for the microwave-assisted synthesis of triaryl imidazole derivatives, showcasing Dr. Patil’s role in interdisciplinary research on innovative catalytic systems.

Recent Progress in Fe3O4 Nanoparticles and Their Green Applications in Organic Transformations

  • Journal: Iranian Journal of Catalysis, 2023
  • DOI: 10.30495/ijc.2023.1991397.2024
  • Contributors: Shripad Patil; Ashwini Bedre
  • Summary: This review article co-authored by Dr. Patil explores recent advancements in the use of Fe3O4 nanoparticles for green applications in organic transformations, providing a comprehensive overview of sustainable nanocatalysts.

These publications underscore Dr. Shripad M. Patil’s research prowess and contributions to the development of sustainable and efficient catalytic systems, enhancing the field of Organic Chemistry with innovative solutions for chemical synthesis.

Research Timeline

Dr. Patil’s research timeline spans from his doctoral studies at Lovely Professional University, Punjab, culminating in significant projects such as the development of magnetically recyclable nanocatalysts. His continuous engagement in research activities underscores his dedication to advancing knowledge in Organic Chemistry, focusing on novel catalyst design and application-driven research for sustainable chemical processes.

Collaborations and Projects

Dr. Patil actively collaborates with international researchers, including partnerships with institutions like King Saud University, Riyadh, Saudi Arabia. These collaborations have enriched his research endeavors, fostering cross-cultural exchange and innovative approaches to nanocatalyst development. His projects emphasize collaborative efforts aimed at addressing global challenges in chemistry through interdisciplinary research and technological innovation.

These paragraphs provide a detailed breakdown of Dr. Shripad Mukundrao Patil’s academic background, research focus, professional journey, honors, publications, and collaborative efforts, reflecting his contributions and achievements in Organic Chemistry.

Urszula Domańska-Żelazna | Chemistry | Excellence in Research

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Prof. Urszula Domańska-Żelazna | Chemistry | Excellence in Research

Professor at ŁUKASIEWICZ Research Network – Industrial Chemistry Institute, Poland

Urszula Domańska-Żelazna is a highly respected figure in the field of physical chemistry and thermodynamics. Her current affiliation with the ŁUKASIEWICZ Research Network – Industrial Chemistry Institute in Warsaw, Poland, underscores her expertise and leadership in research and academia. With a career spanning decades, she has made significant contributions through her roles at Warsaw University of Technology and Warsaw Technical University, where she has excelled in teaching, research supervision, and administrative responsibilities. Her work primarily focuses on phase equilibria, calorimetry, and the physicochemical properties of hydrocarbons, ionic liquids, and pharmaceuticals, reflecting a deep commitment to advancing fundamental understanding and practical applications in chemistry.

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Urszula Domańska-Żelazna’s scholarly impact is evident from her extensive publication record in top-tier journals and her significant citation count. Her research has not only contributed to advancing the knowledge base in physical chemistry and thermodynamics but has also garnered attention and recognition within the scientific community. Through her publications and collaborations, she continues to influence and shape research directions globally.

  • Citations: Her publications have received a total of 10 citations according to Scopus.
  • Documents: She has authored or co-authored 6 documents indexed in Scopus.
  • h-index: Her h-index is 2 based on the documents indexed in Scopus.

Education

Urszula Domańska-Żelazna pursued her academic journey at Warsaw Technical University and Military Technical Academy in Warsaw, Poland. She earned her M.S. in Physical Chemistry in 1968 and B.S. in Chemical Technology in 1967. Subsequently, she obtained her Ph.D. in Chemistry in 1972 and Doctor Habilitatus (D.Sc.) in Physical Chemistry in 1987. Her educational background provided a solid foundation for her subsequent career in academia and research, equipping her with the knowledge and expertise to make significant contributions in her field.

Research Focus

Urszula Domańska-Żelazna’s research is centered around several key areas within physical chemistry and thermodynamics. Her primary interests include investigating the thermodynamics of phase equilibria, such as vapour-liquid, liquid-liquid, and solid-liquid equilibria. She has also focused on calorimetry, measurements of physicochemical properties, and the correlation and prediction of these properties, particularly in hydrocarbons, ionic liquids, pharmaceuticals, fragrance materials, and in the extraction of metals from waste. Her research not only advances fundamental understanding but also explores practical applications in various industrial and environmental contexts.

Professional Journey

Urszula Domańska-Żelazna’s professional journey is marked by a progression from research assistant to full professorship, with significant roles at prestigious institutions such as Warsaw University of Technology and Warsaw Technical University. Throughout her career, she has held leadership positions including Vice Director and Head of the Department of Physical Chemistry. Her international engagements as a visiting associate professor in France, Finland, South Africa, and the USA have enriched her research perspectives and fostered collaborations across borders, enhancing her contributions to the global scientific community.

Honors & Awards

Over the course of her career, Urszula Domańska-Żelazna has been honored with numerous awards and accolades for her outstanding contributions to physical chemistry and thermodynamics. These include grants from prestigious institutions, a Gold Medal for professional work, and awards for research excellence from national and international bodies. Her achievements underscore her reputation as a leader in her field and highlight the significant impact of her research on both academic knowledge and practical applications.

Publications Noted & Contributions

Urszula Domańska-Żelazna’s publications represent a substantial body of work that spans a wide range of topics within physical chemistry, electrochemistry, and thermodynamics. Her research contributions are noted for their rigor and innovation, particularly in areas such as phase equilibria, calorimetry, and the application of thermodynamic principles to industrial processes and environmental challenges. Her publications have not only expanded the scientific understanding of these phenomena but have also influenced subsequent research directions and practical applications in chemical sciences.

Production of 2-phenylethanol (PEA) by yeast with ionic liquids in situ extraction

  • Authors: Okuniewska, P., Domańska-Zelazna, U., Pobudkowska, A., Mierzejewska, J.
  • Published in: Chemik, 2016, 70(9), pp. 494–496
  • This paper explores the production of 2-phenylethanol using yeast with in situ extraction facilitated by ionic liquids, highlighting practical applications in biotechnology and bioengineering.

Activity coefficients at infinite dilution as a first information for the description of the thermodynamic and extraction properties of ionic liquids

  • Published in: Przemysl Chemiczny, 2013, 92(9), pp. 1589–1593
  • This review by Domańska-Zelazna discusses the thermodynamic and extraction properties of ionic liquids, emphasizing their activity coefficients at infinite dilution as crucial data for understanding their behavior in various applications.

Phase equilibria and extraction properties of the ammonium ionic liquids

  • Published in: Przemysl Chemiczny, 2010, 89(11), pp. 1409–1415
  • Another review article focusing on phase equilibria and extraction properties, particularly of ammonium-based ionic liquids, providing insights into their use in separation and extraction processes.

Separation of liquids with triethylsulphonium bis(trifluoromethylsulfonyl)-imide ionic liquid

  • Published as a conference paper in ACS National Meeting Book of Abstracts, 2008
  • Co-authored with A. Marciniak, this paper discusses the use of specific ionic liquids for liquid separations, showcasing their potential in industrial applications.

Liquids separations and extractions of metal ions with ionic liquids

  • Also published as a conference paper in ACS National Meeting Book of Abstracts, 2008
  • This paper, authored solely by Domańska-Zelazna, explores the extraction properties of ionic liquids in separating metal ions, contributing to the understanding of their efficacy in environmental and industrial settings.

The determination of activity coefficients at infinite dilution using g.l.c. for hydrocarbons in furfural at T = 278.15 K and T = 298.15 K

  • Authors: Letcher, T.M., Kozłowska, M.K., Domańska-Zelazna, U.
  • Published in: Journal of Chemical Thermodynamics, 2004, 36(1), pp. 37–40
  • This collaborative study focuses on determining activity coefficients at infinite dilution for hydrocarbons in furfural, highlighting experimental methodologies and results relevant to thermodynamic studies.

These publications underscore Urszula Domańska-Żelazna’s expertise in ionic liquids, phase equilibria, and extraction processes, demonstrating her significant contributions to both theoretical understanding and practical applications in chemistry.

Research Timeline

Urszula Domańska-Żelazna’s research timeline is characterized by a series of significant milestones and achievements. From her early career as a research student and teaching assistant to her tenure as a senior lecturer and eventually a full professor, she has continuously advanced her expertise in physical chemistry and thermodynamics. Her international experiences as a visiting associate professor in various countries have further enriched her research perspectives and enabled fruitful collaborations with researchers worldwide. Her ongoing contributions to academia and industry highlight her enduring impact on the field over several decades.

Collaborations and Projects

Throughout her career, Urszula Domańska-Żelazna has actively engaged in collaborations and projects that have enhanced her research impact and global reach. These collaborations have focused on experimental thermodynamics, phase equilibria modeling, and the development of sustainable chemical processes. By working with international partners and participating in interdisciplinary projects, she has contributed to advancements in industrial chemistry, environmental science, and the application of thermodynamic principles to real-world challenges. Her collaborative efforts underscore her commitment to advancing scientific knowledge and fostering innovation in chemistry.