Zain Ul Abideen | Catalysis | Best Researcher Award

Posted on by Food Scientist

Dr. Zain Ul Abideen | Catalysis | Best Researcher Award

Doctorate at Central South University, China

Dr. ZainUl Abideen is a post-doctoral research fellow at Central South University, China, specializing in materials chemistry, environmental chemistry, and electro-catalysis. With a PhD in Environmental Science and Engineering from Nanjing University of Information Science and Technology, his research focuses on synthesizing semiconductor nanomaterials through various methods such as solid-state, co-precipitation, and hydrothermal techniques. His work aims to advance green energy production and environmental remediation by enhancing photocatalytic and electrocatalytic processes. He has a strong background in water management, supported by both master’s and bachelor’s degrees in the field from The University of Agriculture Peshawar, Pakistan.

Author Metrics

Google Scholar Profile

ORCID Profile

Dr. ZainUl Abideen’s author metrics reflect his substantial impact and contributions to the field of materials chemistry and environmental science.

  • Citations: Dr. Abideen has accumulated 435 citations on Google Scholar and 429 on ResearchGate. These citations indicate the influence and relevance of his research in the scientific community, showcasing how his work has been recognized and referenced by other researchers.
  • h-index: His h-index stands at 14 on Google Scholar and 13 on ResearchGate. The h-index measures both the productivity and citation impact of his publications. An h-index of 14 means that he has at least 14 publications that have each been cited at least 14 times, highlighting his consistent contributions to impactful research.
  • i10-index: Dr. Abideen has an i10-index of 15 on both Google Scholar and ResearchGate. This index indicates the number of his publications that have received at least 10 citations each, further emphasizing the breadth and recognition of his research contributions.

These metrics collectively reflect Dr. Abideen’s successful and influential career in research, underscoring the significant impact of his work in his field.

Education

Dr. Abideen holds a PhD in Environmental Science and Engineering from Nanjing University of Information Science and Technology, China, where his thesis focused on the effects of alkaline treatment on ZnS and Zn0.3Cd0.7S solid solution photochemical activities. He also earned a Master’s degree in Water Management from The University of Agriculture Peshawar, Pakistan, with a thesis on crop water productivity. His academic foundation is further supported by a Bachelor’s degree in Water Management from the same institution. This educational background provides him with a robust understanding of both environmental science and water management.

Research Focus

Dr. Abideen’s research is centered on the synthesis and application of semiconductor nanomaterials for electro-photocatalysis. His work involves exploring solid-state, co-precipitation, and hydrothermal methods to develop materials for hydrogen and oxygen evolution reactions. His focus extends to green energy production, energy storage, and environmental remediation, aiming to create efficient and sustainable solutions for energy and environmental challenges. Recent projects involve advanced electrocatalysts for hydrogen and oxygen evolution reactions, which are crucial for renewable energy technologies.

Professional Journey

Dr. Abideen’s professional journey includes roles as a post-doctoral research fellow at Central South University, China, where he focuses on advanced materials for electrocatalysis. Prior to this, he completed a PhD at Nanjing University of Information Science and Technology, China, where he investigated photocatalytic materials. His career began with academic roles and research positions in Pakistan, where he also supervised graduate students. His international experience and academic positions highlight his dedication to advancing research in materials chemistry and environmental science.

Honors & Awards

Dr. Abideen has received several honors recognizing his academic excellence and research contributions. He was awarded the Best Thesis Award and the Award of Outstanding International Graduate from Nanjing University of Information Science and Technology in 2019. Additionally, he was a recipient of the Chinese Government Scholarship during his doctoral studies, which supported his research and academic pursuits. These accolades reflect his significant achievements and impact in his field of study.

Publications Noted & Contributions

Dr. Abideen has published numerous influential papers in reputable journals, contributing to the fields of materials chemistry and environmental science. Notable publications include articles on the photocatalytic activity of semiconductor materials and advancements in electrochemical properties. His research on materials like CeO2@Zn0.5Cd0.5S and Fe2O3@Zn0.3Cd0.7S highlights his work in enhancing photocatalytic and electrochemical processes. These contributions underscore his role in advancing knowledge and technology in his research areas.

One-Step Hydrothermal Synthesis of ZnO Microtubes with Efficient Photocatalytic Activity

  • Journal: Micro & Nano Letters
  • Publication Date: December 29, 2020
  • DOI: 10.1049/mna2.12024
  • ISSN: 1750-0443
  • Summary: This study presents a one-step hydrothermal method to synthesize ZnO microtubes, which exhibit high photocatalytic activity. The work demonstrates the effectiveness of this approach in creating nanostructures with enhanced photocatalytic properties, suitable for various environmental applications.

Fe2O3-Promoted Interface Charge Separation and Visible-Light Activity of Fe2O3@Zn0.3Cd0.7S

  • Journal: Materials Chemistry and Physics
  • Publication Date: May 2020
  • DOI: 10.1016/j.matchemphys.2020.122811
  • ISSN: 0254-0584
  • Summary: This article explores the role of Fe2O3 in enhancing the interface charge separation and visible-light photocatalytic activity of Fe2O3@Zn0.3Cd0.7S. The study provides insights into how Fe2O3 can promote effective charge transfer and improve the photocatalytic performance of composite materials.

Enhanced Visible Light Photocatalytic Activity of CeO2@Zn0.5Cd0.5S by Facile Ce(IV)/Ce(III) Cycle

  • Journal: Arabian Journal of Chemistry
  • Publication Date: February 2020
  • DOI: 10.1016/j.arabjc.2019.06.013
  • ISSN: 1878-5352
  • Summary: This publication details the improvement of visible light photocatalytic activity in CeO2@Zn0.5Cd0.5S through a simple Ce(IV)/Ce(III) redox cycle. The study highlights the effectiveness of this method in enhancing photocatalytic performance under visible light, which has implications for environmental remediation and energy conversion.

Hydrological Appraisal of Rainfall Estimates from Radar, Satellite, Raingauge, and Satellite–Gauge Combination on the Qinhuai River Basin, China

  • Journal: Hydrological Sciences Journal
  • Publication Date: December 10, 2019
  • DOI: 10.1080/02626667.2018.1557335
  • ISSN: 0262-6667, 2150-3435
  • Summary: This study assesses the accuracy of various rainfall estimation methods, including radar, satellite, and raingauge measurements, in the Qinhuai River Basin, China. It provides valuable insights into the effectiveness of different estimation techniques and their combined use for hydrological studies.

Highly Uniform MnCo2O4 Hollow Spheres-Based All-Solid-State Asymmetric Micro-Supercapacitor via a Simple Metal-Glycerate Precursor Approach

  • Journal: Energy Technology
  • Publication Date: September 2019
  • DOI: 10.1002/ente.201900314
  • ISSN: 2194-4288, 2194-4296
  • Summary: This publication describes the synthesis of highly uniform MnCo2O4 hollow spheres and their application in an all-solid-state asymmetric micro-supercapacitor. The research demonstrates a straightforward precursor approach and the potential for high-performance energy storage devices.

Research Timeline

Dr. Abideen’s research timeline spans from his early studies in water management to his current focus on semiconductor nanomaterials. His doctoral research on photocatalytic materials laid the foundation for his subsequent work in materials chemistry. His post-doctoral research at Central South University involves developing advanced electrocatalysts for renewable energy applications. This timeline illustrates his progression from foundational studies to cutting-edge research in energy and environmental technologies.

Strengths of Dr. Zain Ul Abideen’s Research

  1. Innovative Research Contributions: Dr. Abideen has significantly advanced the field of materials chemistry and environmental science through innovative research. His work on synthesizing semiconductor nanomaterials and enhancing their photocatalytic and electrocatalytic properties demonstrates a high level of creativity and technical expertise.
  2. High Citation Impact: With 435 citations on Google Scholar and 429 on ResearchGate, Dr. Abideen’s research has made a substantial impact in his field. His h-index of 14 and i10-index of 15 further emphasize the influence and reach of his publications, highlighting the recognition his work has received from the scientific community.
  3. Focused Research on Green Energy and Environmental Remediation: Dr. Abideen’s research is centered on critical global challenges, including green energy production and environmental remediation. His work on photocatalytic and electrocatalytic processes aligns well with the current needs for sustainable solutions, making his research highly relevant and impactful.
  4. Strong Academic Background and Awards: His educational background in environmental science and water management, combined with awards such as the Best Thesis Award and the Award of Outstanding International Graduate, reflects a solid academic foundation and recognition of his excellence in research.
  5. Diverse and High-Quality Publications: Dr. Abideen has published influential papers in reputable journals, covering various aspects of materials chemistry and environmental science. Notable publications include research on photocatalytic activity and electrochemical properties, showcasing the breadth and depth of his expertise.

Areas for Improvement

  1. Broadening Research Horizons: While Dr. Abideen’s focus on semiconductor nanomaterials and photocatalytic processes is strong, expanding his research to include other emerging areas such as nanomedicine or advanced materials for electronic applications could further enhance his research impact and applicability.
  2. Increasing Collaboration with Industry: Strengthening collaborations with industry partners could facilitate the translation of his research into practical applications and commercialization. Engaging with industrial stakeholders may also provide additional resources and perspectives that could benefit his research.
  3. Diversifying Research Methodologies: Incorporating a broader range of research methodologies, including computational modeling or machine learning approaches, could complement his experimental work and provide new insights into the behavior and optimization of materials.
  4. Enhancing Public Engagement: Increasing efforts to communicate his research findings to a broader audience, including the general public and policymakers, could enhance the societal impact of his work. Public engagement can help raise awareness of the importance of his research and its potential benefits.
  5. Expanding Geographical and Cultural Scope: Expanding his research to address environmental and energy challenges in different geographical and cultural contexts could increase the global relevance of his work. This could involve collaborations with researchers and institutions in various regions to address region-specific issues.

Conclusion

Dr. Zain Ul Abideen is a distinguished researcher whose contributions to materials chemistry and environmental science are noteworthy. His innovative approach to synthesizing semiconductor nanomaterials and advancing photocatalytic and electrocatalytic processes highlights his expertise and commitment to addressing critical global challenges. His high citation impact and recognition through awards further underscore the significance of his work.

However, to build upon his already impressive career, Dr. Abideen could consider broadening his research scope, strengthening industry collaborations, diversifying methodologies, enhancing public engagement, and expanding his research to different geographical and cultural contexts. These improvements could amplify the impact of his research and contribute to solving a wider range of environmental and energy challenges.

Shripad Patil | Material chemistry | Young Scientist Award

Posted on by Food Scientist

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.

Author Metrics

ORCID Profile

Google Scholar Profile

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.