Innovative Research Award

Aneeta Kharkwal
Swami Vivekanand Govt P.G. College Lohaghat, India

Aneeta Kharkwal
Affiliation	Swami Vivekanand Govt P.G. College Lohaghat
Country	India
Scopus ID	37081077000
Documents	14
Citations	166
h-index	9
Subject Area	Chemistry
Event	International Phenomenological Research Awards
Google Scholar ID	324AAAAJ

Aneeta Kharkwal is an Indian researcher whose scholarly contributions are primarily associated with chemistry, nanomaterials, electrochemical systems, graphene quantum dots, semiconductor materials, and sustainable catalytic methodologies. Her published work demonstrates interdisciplinary engagement across materials chemistry, electrochemistry, nanotechnology, and green synthesis, resulting in measurable academic influence reflected through citation performance and international journal publications.[1]

Abstract

This article summarizes the academic achievements of Aneeta Kharkwal in the field of chemistry. Her research has addressed semiconductor nanomaterials, electrochromic devices, graphene quantum dots, catalytic systems, and environmentally conscious synthetic methodologies. Through contributions published in internationally recognized journals, she has advanced understanding of charge transport, nanoscale material engineering, and catalytic applications relevant to modern chemical sciences.[2]

Keywords

Chemistry, Nanomaterials, Graphene Quantum Dots, Electrochemistry, Semiconductor Materials, Green Chemistry, Catalysis, Electrochromic Devices, CuInS2, Zinc Oxide.

Introduction

Research in advanced functional materials has become increasingly important for sustainable technologies, energy applications, and smart devices. Aneeta Kharkwal’s work contributes to this area through investigations involving semiconductor compounds, conductive polymers, nanocomposites, and catalytic platforms. Her studies have been recognized through citation activity and continued relevance within chemical and materials research communities.[3]

Research Profile

According to available scholarly metrics, Kharkwal has produced 14 indexed documents, accumulated 166 citations, and achieved an h-index of 9. Her publication portfolio demonstrates consistent engagement with nanotechnology-enabled chemistry, electrochemical materials, and sustainable synthesis approaches. The breadth of her work illustrates both fundamental and applied scientific interests.[1]

Research Contributions

• Development of size-, shape-, and phase-controlled CuInS2 nanomaterials.
• Investigation of graphene quantum dot photosensitization and catalytic applications.
• Research on electrochromic nanocomposite devices for smart window technologies.
• Studies on charge transport enhancement using noble-metal nanoparticles.
• Exploration of ZnO-GQD hybrid systems for catalytic organic synthesis.

Publications

1. A solvothermal approach for the size-, shape-and phase-controlled synthesis and properties of CuInS2 (2014) – 31 citations.
2. CuIn-ethylxanthate as a versatile precursor for graphene quantum dot photosensitization and green catalytic synthesis (2020) – 30 citations.
3. High electrochromic contrast PEDOP–Au/Ag nanocomposite devices for smart windows (2011) – 24 citations.
4. Charge transport and electrochemical response of PEDOP films improved by noble-metal nanoparticles (2011) – 21 citations.
5. ZnO-GQDs hybrid systems for charge transfer and catalytic applications (2020) – 18 citations.

Research Impact

The citation record associated with Kharkwal’s publications indicates sustained academic engagement with her findings. Her work on nanostructured semiconductors, graphene-based materials, and electrochemical systems has been referenced across studies addressing advanced materials, catalytic chemistry, and functional device engineering. Such influence highlights the practical and theoretical relevance of her contributions.[4]

Award Suitability

The Innovative Research Award recognizes researchers whose work demonstrates originality, measurable impact, and scholarly excellence. Kharkwal’s publication record, interdisciplinary research themes, citation performance, and contributions to sustainable chemical technologies align with these objectives. Her research portfolio reflects a commitment to advancing knowledge in chemistry through innovation and scientific rigor.[5]

Conclusion

Aneeta Kharkwal has established a notable research profile in chemistry through contributions spanning nanomaterials, electrochemical devices, catalytic systems, and green chemistry. Her scholarly achievements, reflected through publication quality and citation impact, support recognition within international academic award frameworks and demonstrate continued relevance in contemporary chemical research.

External Links

• Scopus Author Profile
• Google Scholar Profile
• Award Website

References

1. Elsevier. (n.d.). Scopus author details: Aneeta Kharkwal, Author ID 37081077000. Scopus.
   https://www.scopus.com/authid/detail.uri?authorId=37081077000
2. Kharkwal, A., et al. (2014). Materials Chemistry and Physics, 144(3), 252–262.
3. Kharkwal, A., Purohit, G., & Rawat, D.S. (2020). ACS Sustainable Chemistry & Engineering.
4. Deepa, M., Kharkwal, A., et al. (2011). The Journal of Physical Chemistry B.
5. International Phenomenological Research Awards. (n.d.). Award information and recognition framework.
   phenomenologicalresearch.com
6. Kharkwal, A., et al. (2020). Asian Journal of Organic Chemistry, 9(12), 2162–2169.