Alpana Singh | Sustainable Energy | Women Researcher Award

Women Researcher Award

Alpana Singh
Bharat Institute of Engineering and Technology

Alpana Singh
Affiliation Bharat Institute of Engineering and Technology
Country India
Scopus ID Je65SI4AAAAJ
Documents 25
Citations 330
h-index 11
Subject Area Sustainable Energy
Event Indian Scientist Awards

Alpana Singh, affiliated with Bharat Institute of Engineering and Technology. Her documented contributions within the field of sustainable energy reflect active engagement in contemporary scientific research and academic dissemination.[1]

Abstract

This article documents the academic profile of Alpana Singh and evaluates her suitability for recognition through the Women Researcher Award. The profile highlights scholarly productivity, citation performance, research specialization in sustainable energy, and contributions to scientific knowledge dissemination. The assessment is based on publicly available scholarly indicators and institutional affiliation data, providing a concise academic overview suitable for award evaluation and professional recognition.[1]

Keywords

Women Researcher Award; Sustainable Energy; Academic Excellence; Scientific Research; Citation Impact; Research Publications; Scholarly Achievement; Engineering Research.

Introduction

Recognition programs dedicated to women in science and engineering play an important role in encouraging innovation, academic leadership, and knowledge generation. The Women Researcher Award acknowledges researchers who have demonstrated consistent contributions through publications, citations, institutional engagement, and subject-specific expertise. Alpana Singh’s academic activities in sustainable energy align with contemporary priorities related to energy efficiency, environmental sustainability, and technological development.[2]

Research Profile

Alpana Singh is affiliated with Bharat Institute of Engineering and Technology and has established a research profile centered on sustainable energy studies. Available scholarly metrics indicate a portfolio of 25 indexed research documents, supported by 330 citations and an h-index of 11. These indicators suggest ongoing participation in academic research, publication, and scientific communication within engineering and sustainability-related domains.[1]

  • Research Area: Sustainable Energy
  • Academic Affiliation: Bharat Institute of Engineering and Technology
  • Documents Indexed: 25
  • Total Citations: 330
  • h-index: 11
  • Recognition Platform: Indian Scientist Awards

Research Contributions

The research contributions associated with Alpana Singh demonstrate engagement in scholarly investigations connected to sustainable energy systems and related engineering applications. Her publication record reflects participation in advancing technical understanding, supporting evidence-based solutions, and contributing to the broader academic literature. Such contributions are valuable for strengthening research ecosystems focused on energy sustainability and environmental stewardship.[3]

  1. Development and dissemination of sustainable energy research findings.
  2. Contribution to peer-reviewed academic literature.
  3. Support for interdisciplinary scientific collaboration.
  4. Promotion of engineering-based sustainability solutions.
  5. Participation in scholarly communication through publications and citations.

Publications

Publication output remains a significant indicator of academic productivity. The available scholarly record indicates that Alpana Singh has authored or co-authored multiple publications indexed through recognized academic databases. Her body of work contributes to the dissemination of scientific findings and supports ongoing research activity within sustainable energy disciplines.[1]

  • Peer-reviewed journal articles.
  • Conference proceedings.
  • Collaborative research publications.
  • Engineering and sustainability-focused academic outputs.

Representative DOI resources relevant to sustainable energy scholarship include established academic literature accessible through DOI infrastructure.[4]

Research Impact

Research impact may be assessed through citation performance, publication reach, scholarly visibility, and knowledge transfer. With 330 citations and an h-index of 11, Alpana Singh’s scholarly record demonstrates measurable engagement from the research community. Citation-based indicators suggest that her published work has contributed to ongoing academic discussions and has been referenced by other researchers working in related fields.[1]

Award Suitability

Based on available scholarly metrics, publication activity, citation performance, and subject-area specialization, Alpana Singh demonstrates characteristics commonly associated with candidates considered for academic recognition programs. Her sustained engagement in sustainable energy research, combined with documented scholarly impact and institutional contribution, supports her suitability for consideration under the Women Researcher Award category of the Indian Scientist Awards program.[1][5]

Conclusion

Alpana Singh’s academic profile reflects active participation in research, publication, and scholarly communication within the sustainable energy field. The combination of publication output, citation impact, institutional affiliation, and subject-area expertise provides a foundation for professional recognition. The Women Researcher Award serves as an appropriate platform for acknowledging such contributions and promoting continued excellence in scientific research and innovation.

References

  1. Google Scholar. (n.d.). Scholar profile of Alpana Singh (User ID: Je65SI4AAAAJ). Google Scholar. https://scholar.google.com/citations?user=Je65SI4AAAAJ&hl=en
  2. Natural surfactant for sustainable carbon utilization in cleaner production of fossil fuels: Extraction, characterization and application studies. https://www.sciencedirect.com/science/article/pii/S2213343721012082
  3. An experimental evaluation of green surfactants to stabilize silica nanofluids in saline conditions and its application in CO2 absorption.https://openurl.ebsco.com/EPDB%3Agcd%3A1%3A12602673/detailv2?sid=ebsco%3Aplink%3Ascholar&id=ebsco%3Agcd%3A175019794&crl=c&link_origin=scholar.google.com
  4. Design and performance evaluation of Alkaline-Surfactant-Polymer slug of a natural surfactant of fenugreek in saline media for Foaming/Emulsification applications.
    https://www.sciencedirect.com/science/article/abs/pii/S0167732223027198
  5. Implications of sand mobilization on stability and rheological properties of carbon dioxide foam and its transport mechanism in unconsolidated sandstone. https://www.sciencedirect.com/science/article/abs/pii/S0360544222026585/

Udit Mamodiya | Solar energy | Best Researcher Award

Dr. Udit Mamodiya | Solar energy | Best Researcher Award

Poornima University | India

Dr. Udit Mamodiya is an accomplished academic and researcher with over 11 years of experience in teaching, research, innovation, and academic administration. His research expertise spans renewable energy systems, smart solar photovoltaic technologies, industrial automation, IoT-enabled intelligent systems, artificial intelligence, and machine learning applications. He has made significant contributions through more than 60 SCI/Scopus/UGC CARE indexed publications, accumulating over 600 citations with a strong h-index. Dr. Mamodiya has been instrumental in securing major funded projects, including an AICTE-supported IDEA Lab, fostering innovation and product development ecosystems. His innovation portfolio includes 50+ published patents, multiple granted patents, design patents, and registered copyrights. He has authored and edited numerous engineering textbooks and conference proceedings and has actively contributed as an editor, reviewer, technical program committee member, and conference organizer for several international platforms. His work demonstrates strong alignment with sustainable energy, smart systems, and technology-driven societal impact.

Citation Metrics (Scopus)

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Citations
444

Documents
92

h-index
11

Citations

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Peeyush Phogat | Electrochemistry | Young Scientist Award

Dr. Peeyush Phogat | Electrochemistry | Young Scientist Award

CSIR-National Institute of Science Communication and Policy Research| India

Dr. Peeyush Phogat is an accomplished researcher specializing in energy materials, nanotechnology, battery systems, and advanced electrochemical devices. He currently serves as a Senior Project Associate at CSIR–NIScPR, leading research on sodium-ion battery technologies through patent analytics and technical landscape assessment. His past work includes project-level contributions to national programs on sustainable energy solutions, emphasizing research progress and policy pathways. Dr. Phogat completed his PhD in Physics at the Netaji Subhas University of Technology, where his work focused on synthesizing and characterizing chalcogenide nanocomposites for energy applications. His research spans material science, transition-metal nanocomposites, functional electrodes, electrochemical charge storage, advanced sensors, and scientometric studies in battery technologies. He has an extensive publication record with 63 journal papers, 12 book chapters, and 7 authored books covering next-generation electrolytes, hydrogen economy, fuel cells, supercapacitors, nanomaterial synthesis, and sustainable energy materials.

Profile: Google Scholar | Scopus | Orcid

Featured Publications

Phogat, P., Dey, S., & Wan, M. (2025). Comprehensive review of sodium-ion batteries: Principles, materials, performance, challenges, and future perspectives. Materials Science and Engineering: B, 312, 117870.

Shreya,, Phogat, P., Jha, R., & Singh, S. (2023). Microwave-synthesized γ-WO₃ nanorods exhibiting high current density and diffusion characteristics. Transition Metal Chemistry, 1–17.

Kumar, T., Shreya, Phogat, P., Sahgal, V., & Jha, R. (2023). Surfactant-mediated modulation of morphology and charge transfer dynamics in tungsten oxide nanoparticles. Physica Scripta.

Sharma, S., Phogat, P., Jha, R., & Singh, S. (2023). Electrochemical and optical properties of microwave assisted MoS₂ nanospheres for solar cell application. International Journal of Smart Grid and Clean Energy, 12(3), 66–72.

Phogat, P., Shreya, Jha, R., & Singh, S. (2023). Electrochemical analysis of thermally treated two-dimensional zinc sulphide hexagonal nano-sheets with reduced band gap. Physica Scripta.

Swarup Ghosh | Materials Science | Best Researcher Award

Dr. Swarup Ghosh | Materials Science | Best Researcher Award

SR University | India

Dr. Swarup Ghosh is an accomplished researcher and academician currently serving as an Assistant Professor and Assistant Dean (Research) in the School of Computer Science and Artificial Intelligence at SR University, Telangana. He holds a Ph.D. in Science from Jadavpur University, where his work focused on computational materials science and condensed matter physics. His research integrates First-Principles Calculations, Density Functional Theory, Molecular Dynamics, and Machine Learning for advanced materials discovery. With 23 peer-reviewed publications, his work has achieved 243 citations, an h-index of 9, and an i10-index of 9, reflecting significant impact in the scientific community. Prior to his current position, he contributed as a Postdoctoral Research Associate at Jadavpur University and served as a Guest Faculty at Sammilani Mahavidyalaya. His interests span nanomaterials, strongly correlated systems, spintronics, thermoelectricity, and AI-driven materials modelling. Dr. Ghosh has received several distinctions including NET-JRF, GATE, and multiple best presentation awards in international conferences. His active engagement as a reviewer for reputed journals such as Nature Communications and RSC Advances further underscores his professional credibility. Through his interdisciplinary research, Dr. Ghosh continues to bridge computational physics and artificial intelligence to foster next-generation materials innovation.

Profile: Orcid

Featured Publications

Ghosh, S. (2026). Predicting photovoltaic efficiency of two-dimensional Janus materials for applications in solar energy harvesting: A combined first-principles and machine learning study. Solar Energy Materials and Solar Cells, 295, 114010. https://doi.org/10.1016/j.solmat.2025.114010

Banik, R. R., Ghosh, S., & Chowdhury, J. (2025). Strain driven modulations in electronic, optical properties and photovoltaic efficiencies of 2D AH (A = Si, Ge) monolayers: An account from first-principles study. Physica B: Condensed Matter, 715, 417559. https://doi.org/10.1016/j.physb.2025.417559

Ghosh, S., Akhtaruzzaman, M., & Uddin, M. M. (2025). First-principles study on structural, electronic, optical and photovoltaic properties of Sc₂C-based Janus MXenes for solar cell applications. Materials Today Communications, 48, 113524. https://doi.org/10.1016/j.mtcomm.2025.113524

Banik, R. R., Ghosh, S., & Chowdhury, J. (2025). Temperature and strain induced switching in the thermal expansion behaviours of 2D SiH and GeH monolayers: An account from first-principle DFT and ab initio molecular dynamics studies. Computational Materials Science, 248, 113585. https://doi.org/10.1016/j.commatsci.2024.113585

Boruah, A., Priyadarshi, S., Ghosh, S., Kumar, R., & Chowdhury, J., & Pande, S. (2025). Fabrication of stable Ru-doped Ni₀.₉₅Se nanostructures for photovoltaic coupled electrochemical water splitting in alkaline medium. Chemistry – An Asian Journal, 20, e202401667. https://doi.org/10.1002/asia.202401667