Aswini Kalita | Material Chemistry | Innovative Research Award

Published on by Chemistry Awards

Innovative Research Award

Aswini Kalita, affiliated with Sipajhar College, India, has been recognized for scholarly contributions in the field of Material Chemistry and interdisciplinary chemical sciences. The academic profile demonstrates a developing research trajectory characterized by publication activity, citation impact, and participation in international scientific communication platforms.[1]

Aswini Kalita
Affiliation Sipajhar College
Country India
Scopus ID 57215886208
Documents 11
Citations 54
h-index 5
Subject Area Material Chemistry
Event International Chemistry Scientist Awards
ORCID
0000-0003-2677-4998

The recognition associated with the Innovative Research Award highlights ongoing scholarly engagement in material chemistry and related scientific domains. The academic record indicates measurable research visibility through indexed publications, citation metrics, and participation within internationally indexed databases. The profile reflects continued academic development and contribution to scientific literature in chemistry-related disciplines.[2]

Abstract

This academic recognition article presents an overview of the scholarly profile and research contributions of Aswini Kalita in the field of Material Chemistry. The evaluation considers indexed publications, citation records, h-index performance, and international research visibility. The researcher’s academic activities indicate active participation in scientific inquiry related to chemistry and materials science. The profile demonstrates measurable academic engagement through peer-reviewed publications and citation-based indicators within internationally recognized scholarly databases.[1][2]

Keywords

Material Chemistry; Chemical Sciences; Research Impact; Citation Analysis; Scholarly Publications; Academic Recognition; Scientific Research; Scopus Profile; Innovation in Chemistry; International Chemistry Scientist Awards.

Introduction

Research evaluation within the chemical sciences increasingly incorporates bibliometric indicators, publication visibility, and interdisciplinary collaboration metrics. Material Chemistry represents a rapidly evolving discipline that contributes to advancements in nanotechnology, synthesis methodologies, functional materials, and industrial applications. Academic recognition awards in this field aim to acknowledge researchers demonstrating meaningful scholarly engagement and measurable scientific output.[3]

Aswini Kalita’s academic profile reflects participation in scientific research activities aligned with contemporary developments in material chemistry. The combination of publications, citation records, and international indexing provides a framework for evaluating research visibility and scholarly influence. Such metrics are frequently considered during nomination and assessment processes for international scientific recognition programs.[2]

Research Profile

The scholarly profile of Aswini Kalita is indexed within Scopus and supported through ORCID-based researcher identification systems. The profile currently records 11 indexed documents with 54 citations and an h-index value of 5. These metrics indicate an active and steadily developing publication record within chemistry-related subject areas.[1]

Research activities associated with the profile primarily relate to Material Chemistry, including interdisciplinary investigations connected with chemical synthesis, materials characterization, and scientific applications relevant to emerging technologies. International indexing enhances the accessibility and visibility of the published work to broader academic audiences.[4]

Research Contributions

The research contributions associated with Aswini Kalita demonstrate participation in scientific studies relevant to chemistry and materials science. The publication record suggests engagement with experimental methodologies and analytical approaches commonly utilized in modern material chemistry research. The research output contributes to the broader understanding of material behavior, synthesis processes, and chemical applications.[5]

The citation performance associated with the published work indicates recognition within the scholarly community and suggests ongoing relevance to related academic discussions. Citation indicators provide evidence of academic interaction and reflect the dissemination of research findings across scientific literature databases.[1]

  • Research activities associated with material synthesis and characterization.
  • Participation in peer-reviewed publication processes.
  • Contribution to chemistry-related interdisciplinary scientific discussions.
  • Maintenance of internationally indexed academic profiles and identifiers.

Publications

The publication profile reflects scholarly engagement within indexed scientific journals and chemistry-oriented research platforms. Publications associated with the researcher demonstrate scientific communication within peer-reviewed environments and contribute to the overall academic impact reflected through citation metrics.[1]

  1. Research publications indexed within Scopus-related chemistry databases.
  2. Scientific studies associated with material chemistry and analytical methodologies.
  3. Peer-reviewed contributions addressing chemistry-related scientific advancements.
  4. Collaborative scholarly outputs contributing to international scientific literature.

Representative DOI-linked scientific publishing standards are commonly maintained within indexed chemical science publications.[6]

Research Impact

The measurable research impact of Aswini Kalita is reflected through bibliometric indicators including citation counts and h-index performance. Citation-based indicators provide insight into the visibility and scholarly utilization of published research outputs. With 54 citations and an h-index of 5, the researcher demonstrates moderate and developing academic influence within the scientific community.[1]

International indexing through Scopus and persistent researcher identification through ORCID contribute to enhanced research discoverability and long-term academic accessibility. Such indicators are frequently considered within international research evaluation frameworks and scientific recognition systems.[2]

Award Suitability

Based on the available bibliometric indicators, indexed publications, and demonstrated engagement within Material Chemistry, Aswini Kalita presents a research profile aligned with the objectives of the International Chemistry Scientist Awards. The publication activity and measurable citation performance support consideration for recognition under categories emphasizing emerging research visibility and academic contribution.

The researcher’s participation in internationally indexed scholarly communication platforms and maintenance of professional research identifiers further strengthen the profile’s academic credibility. Continued publication growth, interdisciplinary collaboration, and citation expansion may contribute to increased future scholarly impact.[2]

Conclusion

The academic profile of Aswini Kalita reflects developing scholarly contributions within the field of Material Chemistry. Indexed publications, citation metrics, and international research visibility collectively demonstrate active engagement in scientific research and communication. The recognition associated with the Innovative Research Award acknowledges ongoing participation in chemistry-related research activities and highlights the importance of sustained academic contribution within interdisciplinary scientific domains.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Aswini Kalita, Author ID 57215886208. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57215886208
  2. ORCID. (n.d.). ORCID profile of Aswini Kalita. ORCID Registry.
    https://orcid.org/0000-0003-2677-4998
  3. Gupta, A. K., Kalita, A., & Boomishankar, R. (n.d.). Synthesis and supramolecular structures of iso-and heteropolymetallates assisted by organoamino phosphonium cations.
    https://www.sciencedirect.com/science/article/abs/pii/S002016931100140X
  4. Sarma, M., Kumar, V., Kalita, A., Deka, R. C., & Mondal, B. (n.d.). Nitric oxide reactivity of copper (II) complexes of bidentate amine ligands: effect of chelate ring size on the stability of a [Cu II–NO] intermediate.
    https://www.researchgate.net/publication/228324561_Nitric_oxide_reactivity_of_copperII_complexes_of_bidentate_amine_ligands_effect_of_chelate_ring_size_on_the_stability_of_a_CuII-NO_intermediate
  5. Kumar, V., Kalita, A., & Mondal, B. (n.d.). Phenol ring nitration induced by the unprecedented reduction of the Cu (II) centre by nitrogen dioxide.
    https://www.researchgate.net/publication/257530306_Phenol_ring_nitration_induced_by_the_unprecedented_reduction_of_the_CuII_centre_by_nitrogen_dioxide
  6. Kalita, A., Kumar, V., & Mondal, B. (n.d.). C-Nitrosation of a β-diketiminate ligand in copper (II) complex.
    https://www.researchgate.net/publication/269101231_C-Nitrosation_of_a_b-diketiminate_ligand_in_copperII_complex

Jean Geringer | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Prof. Dr. Jean Geringer | Materials Chemistry
| Best Researcher Award

Prof. Dr. Jean Geringer | Mines Saint-Etienne | France

Prof. Dr. Jean Geringer is a distinguished expert in biomaterials, tribocorrosion, and materials science with extensive academic and industrial experience. He earned his Ph.D. on fretting corrosion of biomaterials at the École Nationale Supérieure des Mines de Saint-Étienne and later obtained HDR certification in research management, mentoring multiple Ph.D. students and postdocs. He has contributed significantly to the understanding of wear and corrosion mechanisms in orthopedic implants, integrating experimental and theoretical approaches. Currently a professor in biomaterials and tribocorrosion, he has held senior research positions internationally and led entrepreneurial initiatives in implant materials. His work bridges fundamental science and practical applications, demonstrating excellence in innovation, leadership, and interdisciplinary research, making him highly suitable for the Best Researcher Award.

Professional Profile

ORCID | Scopus

Education

Prof. Dr. Jean Geringer academic foundation spans chemistry and materials science. He completed post-secondary preparatory studies in France, followed by a Master’s degree in chemical engineering from the École Nationale Supérieure de Chimie de Toulouse (ENSC-T). He earned a Master’s in materials science at ENSM Saint-Étienne, focusing on biomaterials and contact mechanics. Subsequently, he completed a Ph.D. on fretting corrosion of biomaterials with a French government grant at ENSM Saint-Étienne. Later, he achieved HDR (Habilitation à Diriger des Recherches) at Jean Monnet University, demonstrating research management capability by supervising multiple Ph.D. students and postdoctoral researchers. He also passed competitive national teaching examinations, including Agrégation and CAPES, reflecting a solid blend of scientific knowledge and pedagogical expertise.

Professional Experience

Prof. Dr. Jean Geringer has over two decades of academic and research experience in biomaterials, tribocorrosion, and implant engineering. He served as an assistant professor, later advancing to a full professor at ENSM Saint-Étienne, mentoring Ph.D. students and postdocs. He worked as a senior research fellow at Samara University and led entrepreneurial projects in implant materials. His early career included research assistantships in analytical chemistry and teaching roles across secondary schools, preparatory programs, and university laboratories. He has also held visiting scholar positions in the USA and Europe, enhancing international collaboration. His professional trajectory demonstrates a strong combination of teaching, research, and leadership, with expertise in experimental and theoretical studies of fretting corrosion, wear mechanisms, and implant surface treatments.

Awards 

Prof. Dr. Jean Geringer has received recognition for excellence in research, teaching, and scientific leadership. His HDR certification highlights his capability in supervising Ph.D. and postdoctoral researchers. He has been invited as a visiting scholar at prestigious institutions in the USA and Europe, reflecting international acknowledgment of his expertise. Additionally, he has successfully managed industrial collaborations and entrepreneurial projects in biomaterials for orthopedic implants. His numerous publications in high-impact journals underscore his contributions to the field of tribocorrosion, implant wear, and electrochemical studies. These achievements, combined with his active mentorship and innovation-driven approach, position him as a leading researcher in biomaterials, making him highly suitable for awards recognizing research excellence, leadership, and global impact.

Research Interests 

Prof. Dr. Jean Geringer research focuses on biomaterials, tribocorrosion, and the electrochemical behavior of metallic implants under physiological conditions. He investigates wear and fretting-corrosion mechanisms in orthopedic and dental implants, combining experimental analysis, electrochemical impedance spectroscopy, atomic force microscopy, and theoretical modeling such as the Point Defect Model. His work includes studying protein interactions, surface treatments, polymer-metal interfaces, and the long-term performance of implant materials. He also explores multiscale analysis to enhance implant durability, integrating nanomaterials, coatings, and advanced polymers. The research bridges fundamental understanding with clinical applications, aiming to improve implant longevity and biocompatibility. His innovative and interdisciplinary approach positions him as a thought leader in tribocorrosion and biomaterials science, contributing significantly to healthcare and materials engineering.

Publication Top Notes

  • Zirconia ageing is related to total hip arthroplasty aseptic loosening. A study of 45 retrieved zirconia heads
    Year: 2024

  • Nano/micro implant debris affect osteogenesis by chondrocytes: Comparison between ceramic and UHMWPE from hip walking simulator
    Year: 2022

  • Highly porous Ti as a bone substitute: Triboelectrochemical characterization of highly porous Ti against Ti alloy under fretting-corrosion conditions
    Year: 2021

Conclusion 

Prof. Dr. Jean Geringer  is an exemplary candidate for the Best Researcher Award. His research demonstrates originality, rigor, and tangible contributions to biomedical materials and tribocorrosion science. He combines experimental excellence with mentorship and international experience, producing work that advances both theory and practice. While minor improvements in collaboration, outreach, and computational integration could enhance his impact, his current achievements already reflect leadership, innovation, and influence in his field. Recognition through the Best Researcher Award would be well-justified, honoring both his scientific contributions and the meaningful real-world applications of his research in healthcare and materials engineering.