Manisha Bansal | Chemistry | Best Researcher Award

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Dr. Manisha Bansal | Chemistry | Best Researcher Award

Punjabi University, Patiala, India

Author Profile

Early Academic Pursuits 🎓

Dr. Manisha Bansal’s academic journey is a testament to her unwavering dedication to the field of medicinal chemistry and bioactive ligand synthesis. Her early fascination with science and research led her to pursue a robust education in chemistry, earning advanced degrees that laid the foundation for her illustrious career. With a strong academic background, she delved deeply into understanding the intricacies of molecular interactions and their implications in medicinal science. Her early exposure to laboratory work fostered a passion for innovation and discovery, setting the stage for a career marked by significant contributions to science.

Professional Endeavors 🏢

Currently serving as an Assistant Professor at Punjabi University, Patiala, Dr. Bansal has become a respected name in medicinal chemistry. Her tenure at the university is marked by a commitment to excellence in teaching, mentoring, and research. Beyond her academic responsibilities, she has been instrumental in establishing a laboratory dedicated to the synthesis of new bioactive ligands. This facility serves as a hub for groundbreaking research and collaboration, nurturing the next generation of scientists. Her work has not only enriched the academic community but has also contributed to the university’s reputation as a center of excellence in research.

Contributions and Research Focus 🧪

Dr. Bansal’s research focuses on the synthesis of novel bioactive ligands derived from medicinally significant small molecules. The primary goal of her research is to explore the structural interactions and chemistry underlying the bioactivity of these ligands. Her laboratory employs advanced techniques such as virtual screening, physicochemical analysis, pharmacokinetic parameter evaluations, and other computational studies to identify and optimize compounds with potential therapeutic benefits.

By investigating how these ligands interact with biological systems, Dr. Bansal has contributed to the understanding of their potential applications in drug discovery and development. Her research has produced valuable insights into the design of more effective and targeted pharmaceutical agents, addressing critical healthcare challenges.

Accolades and Recognition 🏆

Dr. Bansal’s contributions to the scientific community have been widely acknowledged through awards and recognitions. Her innovative research in medicinal chemistry has earned her accolades from national and international organizations. As an author of numerous peer-reviewed publications, she has gained significant recognition in the academic and research communities. Her participation in conferences, workshops, and symposiums has further solidified her position as a thought leader in the field.

Impact and Influence 🌍

Dr. Bansal’s influence extends beyond her immediate academic circle. Her research has implications for both theoretical and applied sciences, bridging the gap between chemistry and pharmacology. By integrating computational methods with experimental studies, she has set a benchmark for interdisciplinary approaches in drug discovery. Her mentorship of students and young researchers has inspired many to pursue careers in medicinal chemistry, amplifying her impact on the field.

Moreover, her work on understanding the bioactivity of ligands is paving the way for advancements in personalized medicine, contributing to more precise and effective treatment options. Her contributions are not limited to academia; they hold the potential to benefit the pharmaceutical industry and improve patient outcomes worldwide.

Legacy and Future Contributions 🌟

Dr. Bansal’s legacy lies in her relentless pursuit of excellence and her ability to inspire and lead in the field of medicinal chemistry. As she continues to explore the fascinating world of bioactive ligands, her future endeavors are likely to yield even more groundbreaking discoveries. Her laboratory is poised to become a hub for innovation, attracting collaborations from across the globe.

Looking ahead, Dr. Bansal aims to expand her research into unexplored areas of ligand synthesis and bioactivity studies. With advancements in computational tools and methodologies, she envisions developing next-generation compounds that address unmet medical needs. Her dedication to mentoring and teaching ensures that her legacy will be carried forward by the many students and researchers who have had the privilege of learning under her guidance.

Conclusion 🌟

Dr. Manisha Bansal exemplifies the qualities of a passionate educator, a pioneering researcher, and a visionary leader. Through her work, she has illuminated the path for future advancements in medicinal chemistry and ligand synthesis. Her contributions, marked by innovation and dedication, will continue to inspire and influence the scientific community for years to come. 🌟✨

Citations

A total of 66 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        66
  • h-index          17
  • i10-index       06

Notable Publications 

  • Comprehensive analysis and outcomes of hybridization of physiologically active heterocycles targeting epidermal growth factor receptor (EGFR)
    Authors: Kaur, M., Rehman, H.M., Wu, Y., Kaur, A., Bansal, M.
    Journal: Computers in Biology and Medicine
    Year: 2025.
  • Synthesis and studies of new purines/pyrimidine derivatives as multi-targeted agents involving various receptor sites in the immune system
    Authors: Kaur, G., Bansal, M., Rehman, H.M., Kaur, M., Kaur, A.
    Journal: Molecular Diversity
    Year: 2024.
  • Investigating multifaceted action of ibuprofen derivatives towards COX isozymes and interleukin-6 (IL-6) site correlating with various target sites
    Authors: Kaur, M., Gupta, P.P., Jain, A., Kaur, A., Bansal, M.
    Journal: Journal of Biomolecular Structure and Dynamics
    Year: 2024.
  • Switching of newly synthesized linker-based derivatives of non-steroidal anti-inflammatory drugs toward anti-inflammatory and anticancer activity
    Authors: Kaur, M., Muzzammel Rehman, H., Kaur, G., Kaur, A., Bansal, M.
    Journal: Bioorganic Chemistry
    Year: 2023.
  • Theoretical molecular predictions and antimicrobial activities of newly synthesized molecular hybrids of norfloxacin and ciprofloxacin
    Authors: Kaur, G., Kaur, M., Sharad, L., Bansal, M.
    Journal: Journal of Heterocyclic Chemistry
    Year: 2020.

Deep Sankar | Surface coating for Biomedical implants | Best Researcher Award

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Mr. Deep Sankar - Surface coating for Biomedical implants - Best Researcher Award 🏆

National Institute of Technology, Karnataka - India

Professional Profiles

Early Academic Pursuits

His academic journey began with a solid foundation in mechanical engineering at JSSATE, Bengaluru, where he completed his Bachelor of Engineering. During this time, he showcased his aptitude for innovation through projects like developing a portable wind charger mounted on an express train, demonstrating his early interest in renewable energy solutions. His commitment to excellence was evident with distinctions throughout his undergraduate years, indicating a strong academic foundation and a thirst for knowledge.

Professional Endeavors

His professional journey reflects a diverse range of experiences, from teaching assistantships at NITK, Surathkal, to providing guidance at Flipclass, Bengaluru, and doubt-solving at Aakash EduTech Private Limited. His involvement in organizing workshops and presenting on topics like blood-compatibility assessment of biomaterials underscores his interdisciplinary approach, bridging mechanical engineering with biomedical applications. Additionally, his hands-on experience with advanced equipment at CRF, NITK, highlights his technical proficiency and readiness to engage in cutting-edge research.

Contributions and Research Focus in Surface coating for Biomedical implants

His research focus lies at the intersection of surface engineering, biomaterials, Surface coating for Biomedical implants and orthopedic technology. His Ph.D. dissertation on improving the properties of thermally sprayed hydroxyapatite bio-ceramic coatings demonstrates his commitment to advancing materials science for orthopedic applications. Through his work, he aims to enhance the performance and longevity of implants, contributing to the field of orthopedic technology and improving patient outcomes. His expertise in modeling enablers for risk mitigation in green supply chain management further underscores his interdisciplinary approach, addressing sustainability challenges in manufacturing systems.

Accolades and Recognition

His dedication to academic and research excellence has been recognized through various accolades and scholarships, including the MHRD full-time scholarship for his M.Tech studies and the Institute Assistance Scholarship for his Ph.D. duration. His exceptional performance in examinations like the Graduate Aptitude Test in Engineering (GATE) and various entrance tests for engineering admissions underscores his intellectual prowess and determination. Additionally, receiving a merit certificate from the CBSE board highlights his early academic achievements and sets a precedent for his future endeavors.

Surface coatings for biomedical implants play a crucial role in improving the performance, biocompatibility, and longevity of these devices within the human body. These coatings are designed to address various challenges such as promoting osseointegration (the integration of the implant with surrounding bone tissue), preventing bacterial adhesion.

Impact and Influence

His contributions extend beyond the realm of academia, with his teaching experiences at various levels shaping the minds of future engineers and scientists. His involvement in organizing workshops and seminars not only facilitates knowledge dissemination but also fosters collaboration within the research community. By engaging in interdisciplinary research and addressing real-world challenges, Shankar seeks to make a tangible impact on society, particularly in the fields of healthcare and sustainable manufacturing.

Legacy and Future Contributions

As he continues to pursue his research endeavors, his legacy is defined by a commitment to excellence, innovation, and societal impact. Through his contributions to surface engineering, biomaterials, Surface coating for Biomedical implants and orthopedic technology, he aims to leave a lasting imprint on the field, improving healthcare outcomes and advancing the frontiers of science and engineering. With a solid foundation in academia, a wealth of professional experiences, and a drive for continuous learning, his future contributions hold the promise of transformative change in his chosen fields of expertise.

Notable Publications