Si mohamed BOUZZINE | Chemistry | Best Researcher Award

Posted on by Academic achievements

Prof. Dr. Si mohamed BOUZZINE | Chemistry | Best Researcher Award

Prof. Dr. Si mohamed BOUZZINE | Chemistry – Professor at Regional Center for Trades, Education and Training, Morocco

Dr. Si Mohamed Bouzzine is a distinguished researcher and academic specializing in computational materials science, quantum chemistry, and optoelectronic physical chemistry. With a deep-rooted passion for advancing scientific knowledge, he has made significant contributions to the study of molecular electronics, conductive polymers, and dye-sensitized solar cells. His research has played a pivotal role in shaping modern approaches to energy-efficient materials and innovative molecular structures. As a committed educator, Dr. Bouzzine has also guided numerous students and researchers, fostering the next generation of scientific minds.

Profile:

Google Scholar

Education:

Dr. Bouzzine’s academic journey reflects his dedication to the field of chemistry and materials science. He earned his Ph.D. in Chemistry-Physics, focusing on theoretical and computational chemistry applications. His progressive academic milestones include habilitation qualifications and advanced university degrees in chemistry, spanning multiple prestigious institutions. His rigorous academic training has provided him with the expertise necessary to drive groundbreaking research in molecular and quantum chemistry.

Experience:

With an extensive teaching and research career, Dr. Bouzzine has held various academic positions, shaping the scientific landscape through his contributions. He has served as a faculty member and researcher at prominent institutions, where he has mentored students in chemistry, materials science, and physics. His role extends beyond traditional teaching, as he has supervised numerous graduate students and research projects, reinforcing his commitment to academic excellence and knowledge dissemination. Additionally, his experience includes engagement with research institutions and technical education sectors, further solidifying his impact on the scientific community.

Research Interest:

Dr. Bouzzine’s research interests lie at the intersection of computational chemistry, molecular electronics, and optoelectronic materials. His work explores the electronic structure of materials, quantum chemistry simulations, and the development of organic solar cells. A significant part of his research involves dye-sensitized solar cells, conductive polymers, and nanostructured materials. His interdisciplinary approach integrates theoretical chemistry with experimental findings, bridging the gap between computational predictions and real-world applications. His contributions to molecular conformation and structural engineering have been instrumental in advancing sustainable energy solutions.

Awards:

Dr. Bouzzine has received recognition for his research contributions and academic excellence. His work has been acknowledged in national and international research forums, and he has been a recipient of multiple academic accolades. His involvement in high-impact research projects has earned him commendations for his pioneering studies in materials science and optoelectronic properties.

Selected Publications 📚:

  1. “Novel Indolenine-Based Hemicyanine Dyes with Extended π-Linker and Auxiliary Donor” – Journal of Photochemistry and Photobiology A: Chemistry (2025), cited by multiple articles.
  2. “Bentonite and Organobentonite Nanocomposite for Removing Chromium Species” – Applied Clay Science (2025), recognized for its contributions to environmental science.
  3. “Sensitizer-Controlled Charge Transfer for Efficient Organic Solar Cells” – Materials Science in Semiconductor Processing (2025), advancing optoelectronic applications.
  4. “Enhancement of Leachate Treatment Process through Integration of Flat Solar Collectors” – Sigma Journal of Engineering & Natural Sciences (2024), improving sustainable waste treatment.
  5. “Investigation of Structural and Optoelectronic Characteristics in Coumarin-Based Dye-Sensitized Solar Cells” – Computational Materials Science (2024), cited for innovations in dye-sensitized technologies.
  6. “Computational Investigation of Geometrical and Optoelectronic Properties of Bi-Anchoring Dyes” – Materials Science in Semiconductor Processing (2024), bridging theoretical and practical advancements.
  7. “Enhancing Optoelectronic Properties of Phosphonic Acid-Based Dyes” – Materials Today Communications (2024), contributing to the field of molecular electronics.

Conclusion:

Dr. Si Mohamed Bouzzine is a highly esteemed researcher with an exceptional track record in computational materials science and optoelectronics. His extensive academic background, significant research contributions, and dedication to mentoring young scientists make him a deserving candidate for the Best Researcher Award. Through his interdisciplinary research, innovative scientific methodologies, and passion for sustainable solutions, Dr. Bouzzine continues to influence and inspire the global scientific community.

Neeraj Kumari | Inorganic Chemistry | Best Researcher Award

Posted on by Academic achievements

Dr. Neeraj Kumari | Inorganic Chemistry | Best Researcher Award

Assistant Professor | K R Mangalam University, Gurugram | India

Research for Best Researcher Award: Dr. Neeraj Yadav

Strengths for the Award:

  1. Innovative Research Focus: Dr. Neeraj Yadav’s research is centered on the application of naturally occurring clay minerals for synthesizing nano pigments. This work stands out for its innovative approach and potential to advance the fields of material science and environmental chemistry. His contributions in areas such as water purification, nano pigments, and metal oxide nanoparticles demonstrate a clear commitment to addressing significant scientific and practical challenges.
  2. Exceptional Academic and Professional Track Record: With a Ph.D. in Analytical Chemistry, Dr. Yadav has built a solid foundation in research and teaching. His role as an Assistant Professor at K. R. Mangalam University highlights his expertise in Inorganic and Environmental Chemistry, reinforced by his extensive list of publications in renowned journals and conference presentations.
  3. Recognized Achievements and Awards: Dr. Yadav has received prestigious awards for his presentations, including the Dr. Upadhyayula V. Rao Memorial Award and the Professor V. Panda Rango Rao Award. These accolades underscore his ability to communicate and contribute valuable insights in his field.
  4. Active Contribution to Education and Community: As a program coordinator, keynote speaker, and faculty development organizer, Dr. Yadav demonstrates leadership in both academic and community settings. His initiatives, such as workshops on scientific technologies and advancements, showcase his dedication to education and professional development.

Areas for Improvement:

  1. Broader Research Collaborations: While Dr. Yadav’s research is impressive, expanding collaborations with international research institutions could enhance the impact of his work. This could lead to cross-disciplinary projects and greater recognition in global scientific communities.
  2. Increased Funding and Grant Acquisition: Although he has secured fellowships and awards, pursuing additional research grants could provide further resources for advanced projects. Increased funding could enable larger-scale studies and more comprehensive investigations into his areas of interest.
  3. Public Outreach and Dissemination: To enhance the public impact of his research, Dr. Yadav could focus more on outreach activities that communicate the relevance of his work to a broader audience. Engaging in public science communication and media could amplify the societal benefits of his research.

Conclusion:

Dr. Neeraj Yadav’s profile reflects a dedicated researcher with a robust academic background, innovative research focus, and commendable achievements. His work in synthesizing nano pigments and addressing environmental challenges demonstrates significant contributions to the field of chemistry. With potential improvements in research collaborations, funding, and public engagement, Dr. Yadav is well-positioned to make even greater strides in his field. His candidacy for the Best Researcher Award is supported by his outstanding contributions, proven track record, and commitment to advancing scientific knowledge and education.

📜 Short Bio

Dr. Neeraj Yadav is an Assistant Professor at K. R. Mangalam University, Gurugram. With over four years of experience, he excels in teaching Inorganic and Environmental Chemistry. Dr. Yadav is known for his innovative approach to education and active engagement with students. His commitment to academic excellence and research makes him a valued member of the faculty.

Profile

ORCID

🎓 Education

Dr. Yadav holds a Ph.D. in Analytical Chemistry from K. R. Mangalam University, specializing in the application of naturally occurring clay minerals for nanopigments synthesis. He completed his M.Sc. in Inorganic Chemistry from Guru Jambheshwer Science & Technology University, and a B.Ed. in Science from Maharshi Dayanand University. His foundational studies include a B.Sc. and secondary education from Maharshi Dayanand University and HBSE, respectively.

💼 Experience

Dr. Yadav has been serving as an Assistant Professor at K. R. Mangalam University since January 2019. His role encompasses preparing syllabi, conducting workshops, guiding dissertations, and participating in university committees. He also coordinates university projects and lectures on topics like “Project Based Learning” and “NET Exam Preparation.”

🔬 Research Interests

Dr. Yadav’s research focuses on water purification, nano pigments, and their applications in polymer matrices and paint industries. He is also interested in clay polymer nanocomposites and metal oxide nanoparticles, exploring their potential in various fields.

🏆 Awards

Dr. Yadav has received several accolades, including the Dr. Upadhyayula V. Rao Memorial Award (2017) and Professor V. Panda Rango Rao Award (2015) for his exceptional presentations. He has also qualified for CSIR-JRF and CSIR-UGC NET.

📚 Publications

Kumari, P., Kumari, N., Mohan, C., Al-Ansari, M. M., Dixit, S. (2024). Augmenting barrier efficiency in clay-based starch composite films for enhanced packaging sustainability. Polymers for Advanced Technologies, 35 (6), e6458. Link

Mohan, C., Kumari, P., Kumari, N., Negi, A. (2023). Fabrication of Colored Polymeric Membrane Using Clay-Based Nano Pigments of Safranin O (SO) Dye. Membrane, 13 (7), 619. Link

Kumari, N., Mohan, C., & Negi, A. (2023). An Investigative Study on the Structural, Thermal and Mechanical Properties of Clay-Based PVC Polymer Composite Films. Polymer, 15(8), 1922.

Mohan, C., Kumari, N., Jeandet, P., Kumari, P., Negi, A. (2023). Synthesis of Nano Pigments Using Clay Minerals and Organic Dyes and Their Application as Colorants in Polymer Matrix. Micromachines, 14(5):1087. Link

Mohan, C., Kumari, N., & Varma, R. S. (2023). Novel approach for the synthesis of hybrid clay-based nano pigments and their application as coloring agents. Clean Technologies and Environmental Policies, 1-15.

Abhilasha, Kumari N. & Gautam, R. (2023). Investigation of impact of pH and rare earth metal dopant concentration on structural, optical and thermal properties of CuO nanoparticles. Applied Physics A, 129.

Mohan, C., Kumari, N., & Dixit, S. (2022). Effect of various types of clay minerals on mechanical and thermal properties of PMMA polymer composite films. MRS Advances, 1-6.

Gautam, R., Abhilasha, & Kumari, N. (2022). Nanosensor technology and their applications: an overview. International Journal of Nanoparticles, 14(2-4), 238-259.

Mohan, C., Yadav, S., Uniyal, V., Taskaeva, N., & Kumari, N. (2022). Interaction of Indigo carmine with naturally occurring clay minerals: An approach for the synthesis of nanopigments. Materials Today: Proceedings, 69, 82-86.

Mohan, C., & Kumari, N. (2022). Synthesis of acid activated and silicotungstic acid (STA) intercalated montmorillonite clay as green catalyst. Materials Today: Proceedings, 56, 971-975.