Lifetime Achievement Award

Ankan Bhaskar
Palamuru University, India

Ankan Bhaskar
Affiliation	Palamuru University
Country	India
Scopus ID	56273417900
Documents	54
Citations	760
h-index	18
Subject Area	Physics and Astronomy
Event	International Award and Honors

The Lifetime Achievement Award recognition highlights the scholarly contributions of Ankan Bhaskar, a researcher affiliated with Palamuru University whose work has contributed to the advancement of materials science, nanotechnology, condensed matter physics, and functional oxide materials. His publication portfolio demonstrates sustained engagement with structural characterization, optical behavior, magnetic properties, and nanomaterial engineering, particularly in zinc oxide-based systems and ferrite materials. The research impact reflected through citation performance, publication output, and interdisciplinary relevance supports consideration for international academic recognition.[1]

Abstract

Ankan Bhaskar has developed a research profile centered on nanostructured materials and advanced functional oxides. His scholarly work investigates synthesis techniques, crystallographic analysis, optical properties, magnetic behavior, and antimicrobial performance of doped zinc oxide nanoparticles and ferrite systems. Through experimental and analytical methodologies, including X-ray diffraction peak profile analysis and materials characterization, his publications have contributed to the understanding of structure–property relationships in emerging materials.[2]

Keywords

Nanotechnology, Zinc Oxide Nanoparticles, Materials Science, Physics and Astronomy, Ferrite Materials, Optical Properties, Magnetic Properties, X-ray Diffraction, Nanomaterials, Functional Oxides.

Introduction

The development of multifunctional nanomaterials remains a significant area within modern physics and materials research. Investigations into doped semiconductor nanoparticles provide valuable insight into structural, optical, electronic, and magnetic phenomena. Ankan Bhaskar’s research activities align with these objectives through systematic studies of engineered oxide materials and their technological applications.[3]

Research Profile

With 54 indexed documents, approximately 760 citations, and an h-index of 18, Bhaskar has established a measurable academic presence in materials science and applied physics. His research encompasses nanoparticle synthesis, diffraction analysis, magnetic characterization, dielectric studies, and multifunctional materials for optoelectronic and biomedical applications.[1]

Research Contributions

• Advanced investigations of Co-doped ZnO nanoparticles using Scherrer, Williamson–Hall, Size–Strain Plot, and Halder–Wagner analytical methods.
• Studies of Ni-doped ZnO nanoparticles integrating structural, optical, magnetic, antibacterial, and theoretical analyses.
• Research on aluminum doping effects in ZnO nanostructures and diffraction peak profile characterization.
• Comparative investigations of microwave and conventionally sintered ferrite materials.
• Contributions to understanding multifunctional properties of doped oxide nanomaterials.

Publications

1. Microstructural Characteristics of Sol–Gel Auto Combustion Zn1−xCoxO Nanoparticles via X-Ray Peak Profile Analysis (2025).
2. Synthesis, Structural, Morphological, Optical, Magnetic Properties and Antibacterial Activities of Ni-Doped ZnO Nanoparticles (2025).
3. Impact of Aluminum Doping on X-Ray Diffraction Peak Profile Analysis and Optical Properties of ZnO Nanoparticles (2025).
4. Influence of Metal Dopants on Structural, Optical, Magnetic and Antimicrobial Properties of ZnO Nanopowders (2024).
5. Magnetodielectric Comparison Study Between Microwave and Conventional Sintered NiCuZn Ferrites (2023).

Research Impact

The citation performance of Bhaskar’s publications reflects engagement within the scientific community. His work supports ongoing research in nanotechnology, materials engineering, semiconductor physics, and functional nanomaterials. The interdisciplinary nature of these investigations enhances their relevance to both academic and applied research environments.[4]

Award Suitability

The Lifetime Achievement Award acknowledges sustained scholarly productivity, research visibility, and meaningful contributions to scientific knowledge. Based on publication output, citation record, and continued engagement in advanced materials research, Ankan Bhaskar demonstrates characteristics commonly associated with recognition in international academic award programs.[5]

Conclusion

Ankan Bhaskar’s body of work reflects a sustained commitment to the advancement of nanomaterials and functional oxide research. Through publications addressing synthesis, characterization, and applications of advanced materials, he has contributed to the broader understanding of contemporary materials science and physics, supporting his recognition within international academic honors initiatives.

External Links

• Scopus Author Profile
• Award Website

References

1. Elsevier. (n.d.). Scopus Author Details: Ankan Bhaskar, Author ID 56273417900. Scopus.
   https://www.scopus.com/authid/detail.uri?authorId=56273417900&source=sd-apx
2. Bhaskar, A., & Vishnumurthy, G. (2025). Microstructural Characteristics of Sol–Gel Auto Combustion Zn1−xCoxO Nanoparticles via X-ray Peak Profile Analysis.
3. Vishnumurthy, G., Bhaskar, A., & Ramesh, T. (2025). Ni-Doped ZnO Nanoparticles for Optoelectronic and Biomedical Applications.
4. Vishnumurthy, G., & Bhaskar, A. (2025). Impact of Aluminum Doping on Structural and Optical Properties of ZnO Nanoparticles.
5. Sowmya, K., Aparna, Y., Prakash, A.C., Ramesh, T., & Bhaskar, A. (2024). Influence of Metal Dopants on Structural, Optical, Magnetic and Antimicrobial Properties of ZnO Nanopowders.
6. Ramesh, T., Sravanthi, B., Ashok, K., Bhaskar, A., & Polu, A.R. (2023). Magnetodielectric Comparison Study Between Microwave and Conventional Sintered NiCuZn Ferrites.