Ms. Kiran | Thermal Behaviors | Best Researcher Award

Ms. Kiran | Thermal Behaviors | Best Researcher Award

Senior Research Fellow, CSIR-National Physical Laboratory, New Delhi, India

Kiran, affiliated with CSIR-National Physical Laboratory, works in the field of materials science with a focus on crystal growth and nonlinear optics. With a strong background in physics, Kiran’s research aims to contribute to advancements in optoelectronic devices. Kiran’s work involves both experimental and theoretical aspects of material science, ensuring a comprehensive approach to research. Effective communication of research findings is also a priority, as evidenced by numerous publications in reputable journals. Kiran’s academic journey began with an (link unavailable) in Physics from S.S. Jain Subodh P.G. Autonomous College, Jaipur, followed by a Ph.D. at CSIR-National Physical Laboratory.

Professional Profile

scholar

Education πŸŽ“

– (link unavailable) in Physics: S.S. Jain Subodh P.G. Autonomous College, Jaipur University of Rajasthan (2016-2018)
– Specialized in Physics with a strong academic record, achieving a percentage of 80.75%. This foundational education provided a robust understanding of physical principles and experimental methodologies.
– Ph.D. in Physical Sciences: CSIR-National Physical Laboratory, New Delhi (2020-ongoing)
– Research focuses on the study of Guanidinium Based Single Crystals for Nonlinear Optical Applications under the supervision of Dr. N. Vijayan. This involves synthesizing and characterizing materials with potential applications in nonlinear optics and understanding their properties at a fundamental level.

Experience πŸ’Ό

– Involves synthesizing organic materials and growing crystals using various techniques. Kiran is skilled in operating sophisticated instruments for material characterization and has contributed to the development of reference materials for calibration purposes.

Research Focus πŸ”

Kiran’s research interests include materials science, crystal growth, fabrication of nonlinear optical devices, and nanomaterials. Kiran’s Ph.D. thesis focuses on studying Guanidinium Based Single Crystals for Nonlinear Optical Applications. πŸ”¬

Awards and Honors πŸ†

Kiran has received the Best Poster Presentation Award at “NBL-2021” and “XXV NSCGA-2023”. Kiran was also awarded the 3rd Prize in Poster Presentation at NSD-2024 and has held CSIR-Junior Research Fellow and CSIR-Senior Research Fellow positions. 🌟

 

Publication Top Notes

 

1. Investigation on synthesis, growth, Hirshfeld surface and third order nonlinear optical properties of Urea-Succinic Acid single crystal πŸ”
– Authors: D Nayak, N Vijayan, M Kumari, P Vashishtha, S Das, B Sridhar, G Gupta, …
– Journal: Optical Materials
– Year: 2022
– Volume: 124
– Pages: 112051
2. Unveiling the optical, thermal and nonlinear behavior of guanidinium benzenesulfonate πŸ”
– Authors: Kiran, N Vijayan, N Sarkar, D Joshi, K Kumar, S Yadav, S Das
– Journal: Optical Materials
– Year: 2024
– Volume: 147
– Pages: 114683
3. In situ growth of an ethyl p-hydroxybenzoate single crystal by the vertical Bridgman technique πŸ”¬
– Authors: D Nayak, N Vijayan, M Kumari, N Vashistha, M Kumar, RP Pant
– Journal: Applied Crystallography
– Year: 2021
– Volume: 54
– Pages: 1340-1348
4. A comprehensive assessment on synthesis, growth, theoretical & optical properties of glycine zinc sulphate pentahydrate single crystal πŸ“Š
– Authors: Kiran, N Vijayan, D Nayak, M Kumari, Vinod, K Kumar, P Vashishtha, …
– Journal: Journal of Materials Science: Materials in Electronics
– Year: 2023
– Volume: 34
– Pages: 1132
5. Shock-wave-induced variation in structural, optical and third-order nonlinear properties of an L-ascorbic acid single crystal πŸ’₯
– Authors: A Krishna, N Vijayan, S Yadav, SK Saini, R Yadav, U Varshney, …
– Journal: Applied Crystallography
– Year: 2024
– Volume: 57
– Pages: 115-124
6. Growth, structural, optical, thermal and terahertz time-domain spectroscopy of l-alanine single crystal πŸ”
– Authors: S Yadav, M Kumari, D Nayak, N Vijayan, M Jewariya
– Journal: Optical Materials
– Year: 2023
– Volume: 145
– Pages: 114447
7. Effect of shock wave on surface morphology and optical properties of acid phthalate based single crystals πŸ’₯
– Authors: M Kumari, N Vijayan, D Nayak, P Vashishtha, AK Gangwar, G Gupta, …
– Journal: Optical Materials
– Year: 2022
– Volume: 133
– Pages: 112986
8. Synthesis, crystal structure, Hirshfeld surface analysis and nonlinear optical characteristics of glycine cobalt sulfate pentahydrate single crystal πŸ”¬
– Authors: Kiran, N Vijayan, D Nayak, N Sarkar, B Sridhar, …
– Journal: Inorganic Chemistry Communications
– Year: 2024
– Volume: 164
– Pages: 112392
9. Investigation on growth, Hirshfeld surface, optical, thermal and topological properties of nonlinear optical p-nitrophenol single crystal πŸ”
– Authors: Jyoti, N Vijayan, Kiran, D Joshi, P Goswami, M Kavimani, V Balachandran, …
– Journal: Journal of Materials Science: Materials in Electronics
– Year: 2024
– Volume: 35
– Pages: 1231
Conclusion

The researcher has a strong foundation in materials science, crystal growth, and nonlinear optical devices, with expertise in experimental techniques and advanced analytical instruments. Their contributions to the development of Indian Reference Materials and publication record demonstrate their potential for impactful research. With some further efforts to expand their publication record, collaboration, and research interests, the researcher would be an excellent candidate for the Best Researcher Award. Overall, the researcher shows promise and potential for making significant contributions to their field, making them a suitable nominee for the award.

 

Mei Li | Material Behavior | Best Researcher Award

Ms. Mei Li | Material Behavior | Best Researcher Award

lecturer, Suzhou University of Science and TechnologyΒ , ChinaΒ 

Dr. Mei Li is a Lecturer at the School of Civil Engineering, Suzhou University of Science and Technology. She earned her PhD in Civil Engineering from Tianjin University and Monash University. Her research focuses on structural response to dynamic loading, and she has published several papers in reputable journals.

Profile

scopus

πŸŽ“ Education

Dr. Li earned her PhD in Civil Engineering from Tianjin University (2016-2021) and Monash University (2017-2019). She also holds a Master’s degree in Civil Engineering from Tianjin University (2014-2016) and a Bachelor’s degree in Civil Engineering from North University of China (2010-2014).

πŸ‘¨β€πŸ”¬ Experience

Dr. Li has been a Lecturer at the School of Civil Engineering, Suzhou University of Science and Technology since 2022. Her research experience includes working on structural response to dynamic loading, and she has published several papers in reputable journals.Dr. Li has been a Lecturer at the School of Civil Engineering, Suzhou University of Science and Technology since 2022. Her research experience includes working on structural response to dynamic loading, and she has published several papers in reputable journals.

πŸ† Awards

Dr. Li’s research focuses on structural response to dynamic loading, including experimental and numerical studies on concrete behavior under shock loading and tri-axial dynamic loads.

πŸ“š Publications

1. The Influence of Specimen Size and Strength on the Shock Properties of Concretes πŸ—οΈ
2. Experimental Study on the Size Effect on the Equation of State of Concretes under Shock Loading πŸ’₯
3. Numerical Investigation of the Failure Mechanism of Cubic Concrete Specimens in SHPB Tests πŸ”
4. Numerical Investigation of the Failure Mechanism of Concrete Specimens under Tri-Axial Dynamic Loads 🌐
5. Specimen Shape and Size Effects on the Concrete Compressive Strength under Static and Dynamic Tests πŸ“Š
6. Experimental Study on Static and Dynamic Compressive Strength with Cubic and Cylindrical Specimens πŸ“
7. Numerical Simulation Analysis of Auxiliary-Rod Force for Tower πŸŒ†
8. Force Analysis and Design Research of Horizontal Auxiliary-Rod for Tower

Conclusion

Dr. Mei Li’s exceptional research experience, interdisciplinary expertise, and innovative research contributions make her an ideal candidate for the Best Researcher Award. While there are areas for improvement, her strengths and achievements demonstrate exceptional dedication, expertise, and potential to drive transformative research.