Dr. Ajoy Kumar Bauri | Chemistry | Best Researcher Award

Dr. Ajoy Kumar Bauri | Chemistry | Best Researcher Award

Dr. Ajoy Kumar Bauri , Bhabha Atomic Research Centre , India.

Dr. Ajoy Kumar Bauri 🎓 is a seasoned chemist and researcher with expertise in organic and medicinal chemistry. He began his career as a teacher 👨‍🏫 at Bharat Aluminium Company Ltd, then served as a Chemical Engineer ⚙️ at Bhabha Atomic Research Centre. He later pursued postdoctoral research in Japan 🇯🇵 at Shiga University of Medical Science, focusing on nanocarbon separation. His research has led to significant contributions in anti-malarial and anti-proliferative compounds 🧪, with over 90 publications. He received funding from the Japan Society for the Promotion of Science 💴 and continues to work on groundbreaking molecular recognition technologies. 🌿🔬

Publication Profile

Scopus
Orcid

Education & Experience 

🎓 Education:
  • 🧪 M.Sc. in Organic Chemistry, Visva-Bharati University, Santiniketan, West Bengal, India (1986–1988)

  • 🧫 Postdoctoral Fellow in Chemistry, Shiga University of Medical Science, Otsu, Shiga, Japan 🇯🇵 (2007–2008)

👨‍💼 Employment:
  • 👨‍🏫 Teachership (Junior College), Bharat Aluminium Company Ltd (BALCO), Asansol, West Bengal (1988–1991)

  • ⚙️ Chemical Engineer, Reactor Engineering Division, Bhabha Atomic Research Centre (BARC), Mumbai (1991–1997)

Summary Suitability

Dr. Ajoy Kumar Bauri is a distinguished scientist and researcher, renowned for his groundbreaking contributions in the field of organic chemistry and nanotechnology. With an extensive career spanning both academic and industrial sectors, he has demonstrated exceptional research capabilities and a commitment to advancing scientific knowledge. His work has significantly impacted areas like nanocarbon material separation, molecular recognition, and anti-malarial drug discovery, positioning him as an ideal candidate for the Best Researcher Award.

Professional Development 

Dr. Ajoy Bauri’s professional journey is a testament to continuous learning and interdisciplinary exploration. From engineering reactors ⚛️ at BARC to conducting advanced research in nanomaterials 🧬 in Japan, he has always embraced new challenges. His participation in a Japan Society for the Promotion of Science (JSPS) grant 🌐 further enriched his expertise in molecular recognition. Regular contributions to peer-reviewed journals 📖 and international collaborations have kept his scientific knowledge sharp. With nearly 100 publications 📊, Dr. Bauri actively engages in research, mentorship, and knowledge dissemination, ensuring a lasting impact on chemical and biomedical research communities worldwide. 🌍🧠

Research Focus 

Dr. Bauri’s research centers on the medicinal chemistry of natural products 🌱, nanomaterials, and molecular recognition mechanisms 🔬. He investigates anti-malarial and anti-cancer agents derived from bioactive compounds, such as allyl phenols and chromone derivatives 🧪. His work also explores the separation of nanocarbon materials using diporphyrin nanotweezers, contributing to innovations in nanotechnology 🧲. This interdisciplinary focus bridges organic synthesis, biochemistry, and nanoscience, targeting applications in drug discovery 💊 and therapeutic development. His passion for unveiling bioactive natural compounds makes his contributions vital in the field of biomedical sciences 🧠⚗️.

Awards & Honors 

  • 💴 JSPS Research Grant for “Separation of Nanocarbon Materials through Molecular Recognition with Diporohyrin Nanotweezers” (2008–2010)

  • 📜 Authored/co-authored 90+ scientific papers, including multiple high-impact publications in 2024

  • 🌐 International collaborations with leading researchers across Japan, India, and the U.S.

  • 🧬 Recognized for anti-malarial and anti-proliferative research in Chemistry & Biodiversity and EJBPS

Publication Top Notes

  • Exhibition of Förster resonance energy transfer from CdSe/ZnS quantum dot to zinc porphyrazine studied in solutionJ. Mol. Liq., 276, 770-778 (2019) 🔬💎

  • Analysis of Chemical constituents of Steam Distillate of Trachyspermum roxburghianumAm. J. Food Sci. & Nutrition, 5(4), 76-81 (2018) 🌱🍽️

  • Anti-proliferative Active Flavones from the Methanol Extract of Indian Herb Aretimisia reticulataAm. J. Pharma & Pharmocol. 5(4), 27-32 (2018) 💊🌿

  • Anti-proliferative Allyl phenol from the Methanol Extract of Piper betleAm. J. Pharma & Pharmocol. 5(3), 13-18 (2018) 🌿💉

  • Molecular assembly of PC70BM with a designed monoporhyrin: Spectroscopic investigation in solution and theoretical calculationsJ. Mol. Liq., 272, 137-150 (2018) 🔬💡

  • Study of Chemical Physics on Energy Transfer Phenomenon between Quantum Dots and Designed Diporphyrin in SolutionJ. Mol. Liq., 263, 64-71 (2018) ⚡💎

  • Synthesis and Evaluation of Polyphenolic Malabaricones for their Anti-cancer PotentialBARC NEWSLETTER Research Article September-October (2018) 🧪🍃

Marcin Chmielewski | Synthetic Chemistry | Excellence in Innovation

Marcin Chmielewski | Synthetic Chemistry | Excellence in Innovation

Dr. Marcin Chmielewski, Future Synthesis / Insitiute of Bioorganic Chemistry, Poland.

Publication profile

Googlescholar
Scopus

Education and Experience

  • PhD in Bioorganic Chemistry, Polish Academy of Sciences 🔬
  • Post-doctoral Research at various prestigious institutions 🌍
  • Professor, Institute of Bioorganic Chemistry, Polish Academy of Sciences 🎓
  • Research Focus: Nucleoside Chemistry, Oligonucleotide Synthesis, Thermolabile Protecting Groups 🔧
  • Peer-Reviewed Publications: Over 30+ publications in leading scientific journals 📄
  • Citations: 527 citations, h-index 14 🔢

Suitability For The Award

MK Chmielewski is highly suitable for the Excellence in Innovation award due to his transformative contributions to organic chemistry and nucleic acid synthesis. His groundbreaking work on thermolabile protecting groups, click chemistry applications for DNA microarrays, and advanced bioconjugation strategies exemplifies cutting-edge innovation. These advancements have streamlined synthetic methodologies, enhanced efficiency in oligonucleotide production, and expanded the practical applications of nucleic acid technologies in biotechnology and medicine. His research not only addresses fundamental scientific challenges but also translates into impactful real-world solutions. Widely recognized through high-impact publications and citations, Chmielewski’s work embodies the principles of ingenuity, creativity, and transformative impact.

Professional Development 

Publications