Ms. Ritu, born on November 19, 1996, in Loharu, Haryana, is a research scholar at the Department of Physics, Kurukshetra University, Kurukshetra. Her academic pursuits are focused on condensed matter physics and electronics, with a particular emphasis on perovskite materials for solar cells. Her rigorous research work and scholarly publications reflect her deep commitment to advancing renewable energy technologies.
Author Metrics
Scopus Profile
Ms. Ritu’s author metrics reflect her impact in the field of physics research. Her work has been cited 16 times across 11 documents, indicating a growing recognition of her contributions. She has authored 12 documents, showcasing her active involvement in research and publication. Her h-index of 2 highlights the significance of her work, as it represents the number of her papers that have received at least two citations each. These metrics underscore her emerging influence in her research area.
Education
Ms. Rituās educational background is distinguished by high academic achievements. She completed her Ph.D. in Physics from Kurukshetra University in 2024. Prior to that, she earned an M.Sc. in Physics with First Division from Kurukshetra University in 2018, and a B.Sc. (Non-Medical) with distinction from F.C. College for Women, Hisar in 2016. Her educational journey is marked by consistent excellence and a solid foundation in physics.
Research Focus
Ms. Rituās research focus is on the theoretical study and optimization of perovskite materials for solar cell applications. Her work involves enhancing the performance and stability of these materials through various computational and simulation techniques. She employs models such as SCAPS-1D to analyze and improve the efficiency of perovskite solar cells, contributing valuable insights to the field of renewable energy.
Professional Journey
Ms. Ritu’s professional journey reflects a steady ascent in the academic and research spheres. She began her studies in physics with a Bachelorās degree, progressed through a Masterās, and completed her Ph.D. at Kurukshetra University. Throughout her career, she has been actively involved in research, publishing numerous papers, and presenting at international conferences, establishing herself as a dedicated researcher in her field.
Honors & Awards
Ms. Ritu has been recognized with several awards for her academic and research excellence. These include securing the 2nd position in her B.Sc. program, the 3rd position in her M.Sc., and notable prizes for her presentations at conferences. Her recognition at early science camps and national seminars further underscores her achievements and contributions to the field of physics.
Publications Noted & Contributions
Ms. Ritu has made substantial contributions to scientific literature, with several notable publications in high-impact journals such as Optik and the International Journal of Modern Physics B. Her work on perovskite solar cells and other related topics has been widely recognized and cited, highlighting her significant impact on advancing research in her field.
1. Optimization of Mixed Cation Organic-Inorganic Lead Halide Perovskite Solar Cell Performance
- Authors: Ritu, Gagandeep, Kumar, R., Chand, F.
- Journal: International Journal of Modern Physics B
- Year: 2024
- Volume & Issue: 38(26), 2450361
- Citations: 2
Summary: This paper explores optimization techniques for enhancing the performance of mixed cation organic-inorganic lead halide perovskite solar cells. It presents advanced methodologies to improve the efficiency of these solar cells.
2. Theoretical Simulation of Mixed OrganicāInorganic Perovskite Solar Cell Using SCAPS-1D Simulator
- Authors: Ritu, Priyanka, Kumar, V., Kumar, R., Chand, F.
- Journal: Journal of Photochemistry and Photobiology A: Chemistry
- Year: 2024
- Volume: 455, 115763
- Citations: 0
Summary: This article utilizes the SCAPS-1D simulator to conduct theoretical simulations of mixed organic-inorganic perovskite solar cells, focusing on their performance characteristics and optimization.
3. Enhancement in MAPbI3 – x Cl x -Based Perovskite Solar Cell Performance Using Numerical Simulation
- Authors: Ritu, Gagandeep, Kumar, R., Chand, F.
- Journal: Modern Physics Letters B
- Year: 2024
- Volume & Issue: 38(24), 2450207
- Citations: 1
Summary: This paper discusses the enhancement of MAPbI3 – x Cl x -based perovskite solar cells through numerical simulation techniques, aiming to improve their overall performance and efficiency.
4. Tailoring the Electronic and Optical Properties of ReS2 Monolayer Using Strain Engineering
- Authors: Priyanka, Ritu, Kumar, V., Kumar, R., Chand, F.
- Journal: Micro and Nanostructures
- Year: 2024
- Volume: 192, 207873
- Citations: 1
Summary: This study investigates how strain engineering can be used to tailor the electronic and optical properties of ReS2 monolayers, providing insights into potential applications in nanoelectronics.
5. First Principle Calculations to Explore the Electronic, Mechanical and Optical Properties of 2D NiX2 (X = O, S, Se) Monolayers
- Authors: Priyanka, Ritu, Kumar, V., Kumar, R., Chand, F.
- Journal: Physica B: Condensed Matter
- Year: 2024
- Volume: 686, 416066
- Citations: 1
Summary: This paper presents first-principles calculations to examine the electronic, mechanical, and optical properties of 2D NiX2 monolayers (where X = O, S, Se), contributing to the understanding of these materials for various applications.
Research Timeline
Ms. Rituās research timeline demonstrates her academic and professional development. Key milestones include her qualification for the Junior Research Fellowship (JRF) in June 2022, completion of the National Eligibility Test (NET) in 2023, and her Ph.D. completion in 2024. Throughout this period, she has consistently engaged in research activities, published papers, and presented at conferences.
Collaborations and Projects
Ms. Ritu has collaborated with several esteemed researchers, including Gagandeep, Ramesh Kumar, and Fakir Chand. These collaborations have led to significant research projects, including the optimization of perovskite solar cells and the development of simulation models. Her collaborative efforts are instrumental in advancing the understanding and application of perovskite materials in renewable energy technologies.
Strengths of the Best Researcher Award
Focused Research Area: Ms. Ritu has a clear and well-defined research focus on perovskite solar cells. Her work in optimizing these materials through theoretical simulations and numerical methods demonstrates her deep commitment to advancing renewable energy technologies.
Impactful Publications: Her research has been published in reputable journals such as the International Journal of Modern Physics B and Journal of Photochemistry and Photobiology A: Chemistry. These publications are a testament to the quality and relevance of her work in the field.
Citations and Recognition: With 16 citations across 11 documents and an h-index of 2, Ms. Rituās work is gaining recognition within the scientific community. Her research contributions are beginning to make an impact, which is reflected in these metrics.
Educational Excellence: Ms. Rituās academic journey is marked by consistent high performance, from her B.Sc. with distinction to her M.Sc. with First Division and Ph.D. She has demonstrated a solid foundation and advanced expertise in physics.
Awards and Honors: The recognition she has received, including awards for presentations and high academic standings, highlights her exceptional capabilities and the high regard in which her peers hold her.
Areas for Improvement
Citation Impact: Although Ms. Ritu has an impressive publication record, the citation count is relatively low considering her number of publications. Increasing the visibility and impact of her work could help enhance this metric.
Broader Research Scope: While her focus on perovskite solar cells is significant, expanding her research to include other related areas or emerging technologies could provide a broader impact and potentially more collaboration opportunities.
Conference Presentations: While she has presented at international conferences, increasing the frequency and scope of these presentations could help build a more extensive professional network and further her influence in the field.
Collaborative Research: Expanding her collaboration network beyond her current collaborators could bring in new perspectives and expertise, potentially leading to innovative breakthroughs and broader research applications.
Public Engagement: Increasing engagement with the public and industry stakeholders could enhance the practical application of her research findings. Outreach activities and collaborations with industry could translate her theoretical work into real-world solutions.
Conclusion
Ms. Ritu has established herself as a promising researcher in the field of perovskite solar cells with a solid educational background, impactful publications, and a clear research focus. Her strengths lie in her commitment to advancing renewable energy technologies, the quality of her research, and her academic excellence. However, to further enhance her research career, she could benefit from increasing the impact and visibility of her work, broadening her research scope, expanding her professional network, and engaging more with the public and industry. By addressing these areas, Ms. Ritu has the potential to make even greater contributions to the field and achieve a broader recognition of her work.