Jyoti Katyal | Physics and Astronomy | Best Researcher Award

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Dr. Jyoti Katyal | Physics and Astronomy | Best Researcher Award

Assistant Professor atAmity Institute of Applied Science, Amity University, Noida, India

Dr. Jyoti Katyal, an Assistant Professor at Amity University, Noida, holds a PhD from the prestigious Indian Institute of Technology (IIT) Delhi, with expertise in plasmonic nanostructures and their applications in biosensors and SERS substrates. With over a decade of research experience, her work focuses on computational modeling and optimization of metallic nanostructures across the deep-UV to NIR spectrum, aiming to enhance refractive index sensitivity and field enhancement properties. She has an impressive publication record with numerous Scopus-indexed research papers, book chapters, and conference presentations. Dr. Katyal has also received several recognitions, including the International Best Researcher Award (ISSN-2022) and Best Paper Award at ICADMA 2020. Besides her research contributions, she actively participates in academic administration, quality assurance, and mentoring students. Her dedication to advancing plasmonics research and her involvement in organizing scientific events make her a strong candidate for the Best Researcher Award.

Professional ProfileĀ 

Education

Dr. Jyoti Katyal has a strong academic background rooted in prestigious institutions and multidisciplinary research. She earned her PhD from the renowned Indian Institute of Technology (IIT) Delhi, specializing in plasmonic nanostructures and their applications in biosensors and Surface-Enhanced Raman Spectroscopy (SERS). Her doctoral research combined computational modeling and experimental techniques to design and optimize metallic nanostructures across various spectral ranges, from deep-UV to near-infrared (NIR). Prior to her PhD, she completed her Masterā€™s and Bachelorā€™s degrees with a focus on physics and nanotechnology, equipping her with a solid foundation in material science, optics, and sensor development. Throughout her educational journey, Dr. Katyal developed expertise in advanced computational tools, numerical simulation techniques, and analytical characterization methods. Her academic training, enriched by research fellowships and collaborative projects, has laid a strong foundation for her contributions to academia, scientific innovation, and mentoring the next generation of researchers.

Professional Experience

Dr. Jyoti Katyal has built a diverse and impactful professional career, combining academic excellence with innovative research and collaborative projects. Currently, she serves as an Assistant Professor at Netaji Subhas University of Technology (NSUT), Delhi, where she mentors students and leads cutting-edge research in nanotechnology, plasmonics, and sensor development. Her professional journey includes extensive post-doctoral research experience at prestigious institutions, where she worked on interdisciplinary projects involving biosensors, nanomaterials, and advanced computational modeling. Dr. Katyal has also collaborated with leading national and international researchers, contributing to high-impact publications in reputed journals. Her expertise spans both theoretical and experimental research, allowing her to bridge the gap between computational design and real-world applications. In addition to her research, Dr. Katyal actively participates in academic committees, curriculum development, and research grant proposals, making significant contributions to the advancement of scientific knowledge and fostering innovation-driven education in the field of nanotechnology and materials science.

Research Interest

Dr. Jyoti Katyal is primarily interested in plasmonic nanostructures and their applications, with a focus on designing and optimizing metallic nanostructures for biosensing, plasmonic sensors, and SERS substrates. Her research explores computational modeling techniques using advanced simulation tools such as Lumericalā€™s FDTD software to analyze plasmonic responses across the deep-UV, visible, and near-infrared spectra. She investigates how variations in size, shape, and material composition influence localized surface plasmon resonances, field enhancement, and refractive index sensitivity. By developing novel nanostructured configurations, Dr. Katyal aims to enhance sensing performance and broaden spectral applicability. Her work also extends to optimizing plasmonic multilayered systems and exploring hetero-dimer or -trimer structures, with a keen focus on achieving high figures of merit for biosensing applications. This interdisciplinary research bridges materials science, optics, and nanotechnology, contributing significantly to advanced sensor design and functional nanomaterials. Continuously pushing boundaries, her innovative work promises next-generation diagnostic tools and breakthrough applications.

Awards and Honors

Dr. Jyoti Katyal has been recognized with several prestigious awards and honors that underscore her significant contributions to research and academia. Notably, she received the International Best Researcher Award from the International Society for Scientific Network Awards in 2022 for her work on the theoretical study of Magnetic-Plasmonic Fe-Al core-shell nanostructures for sensing applications. Additionally, she was honored with the Best Paper Award at the International Conference on Advances in Materials Processing & Manufacturing Applications (ICADMA 2020) for her research on localized surface plasmon resonance and field enhancement in metallic nanostructures. Her expertise and innovative work have earned her invitations as a jury member for research evaluations at IIT Delhi Open House 2024 and as an invited speaker at high-profile conferences such as ICRTMD-2023. Further, her active role as a reviewer and editorial board member for renowned journals reflects her esteemed position in the scientific community. Her work remains impactful.

Research Skills

Dr. Jyoti Katyal exhibits exceptional research skills underpinned by a robust foundation in theoretical and experimental methodologies. Her expertise encompasses advanced computational modeling techniques and the proficient use of simulation tools, such as Lumericalā€™s FDTD software, to analyze and optimize plasmonic nanostructures. Through meticulous design and systematic investigation, she explores size, shape, and material parameters to enhance localized surface plasmon resonances, field enhancement, and refractive index sensitivity. Her work reflects a deep understanding of the interplay between material properties and optical phenomena, enabling her to innovate sensor designs for biosensing and surface-enhanced Raman scattering applications. Dr. Katyal demonstrates strong analytical thinking, attention to detail, and a rigorous approach to hypothesis testing and data interpretation. Her collaborative mindset and leadership in guiding graduate research further amplify her ability to produce high-impact scientific contributions and foster advancements in nanotechnology and materials science. Her relentless pursuit of excellence consistently drives transformative global discoveries.

Conclusion

Dr. Jyoti Katyalā€™s track record, research focus, publication record, invited talks, peer-review responsibilities, and awards make her a highly deserving candidate for a Best Researcher Award. Her work in plasmonic nanostructures and biosensors is highly relevant to current scientific and technological challenges.

If the award criteria prioritize publication volume, conference participation, and academic engagement, she is highly suitable.
If the focus is on high-impact publications, funded projects, patents, or industry collaboration, some minor gaps exist, but they do not significantly detract from her overall suitability.

Publications Top Noted

  • Katyal, J., & Soni, R.K. (2013). Size- and shape-dependent plasmonic properties of aluminum nanoparticles for nanosensing applications. Journal of Modern Optics, 60(20), 1717ā€“1728.
  • Katyal, J., & Soni, R.K. (2014). Localized surface plasmon resonance and refractive index sensitivity of metalā€“dielectricā€“metal multilayered nanostructures. Plasmonics, 9, 1171ā€“1181.
  • Katyal, J. (2021). Localized surface plasmon resonance and field enhancement of Au, Ag, Al and Cu nanoparticles having isotropic and anisotropic nanostructure. Materials Today: Proceedings, 44, 5012ā€“5017.
  • Katyal, J., & Soni, R.K. (2015). Field enhancement around Al nanostructures in the DUVā€“visible region. Plasmonics, 10, 1729ā€“1740.
  • Katyal, J. (2018). Plasmonic coupling in Au, Ag and Al nanosphere homo-dimers for sensing and SERS. Advanced Electromagnetics, 7(2), 83ā€“90.
  • Katyal, J. (2019). Comparison of localised surface plasmon resonance and refractive index sensitivity for metallic nanostructures. Materials Today: Proceedings, 18, 613ā€“622.
  • Faujdar, S., Pathania, P., & Katyal, J. (2022). Systematic investigation of transition metal nitrides (ZrN, TiN) based plasmonic multilayered coreā€“shell nanoparticle for sensing. Materials Today: Proceedings, 57, 2295ā€“2298.
  • Sharma, C., Katyal, J., Deepanshi, & Singh, R. (2023). Effect of monomers and multimers of gold nanostars on localized surface plasmon resonance and field enhancement. Plasmonics, 18(6), 2235ā€“2245.
  • Katyal, J. (2020). Al-Au heterogeneous dimerā€“trimer nanostructure for SERS. Nanoscience & Nanotechnology-Asia, 10(1), 21ā€“28.
  • Katyal, J. (2019). Comparative Study Between Different Plasmonic Materials and Nanostructures for Sensor and SERS Application. In Reviews in Plasmonics (pp. 77ā€“108).
  • Sharma, C., Katyal, J., & Singh, R. (2023). Aluminum Nano Stars with Localized Surface Plasmon Resonance and Field Enhancement. Nanoscience & Nanotechnology-Asia, 13(4), 57ā€“64.
  • Sharma, C., Katyal, J., & Singh, R. (2023). Plasmon Tunability and Field Enhancement of Gold Nanostar. Nanoscience & Nanotechnology-Asia, 13(3), 13ā€“18.
  • Faujdar, S., Nayal, A., Katyal, J., & Pathania, P. (2025). Simulation of TiN Nanospheres, Nanoellipsoids, and Nanorings for Enhanced Localized Surface Plasmon Resonance and Field Amplification. ChemistrySelect, 10(9), e202404987.
  • Yashika & Katyal, J. (2024). Detailed Analysis of Size and Shape of TiN Nanostructure on Refractive Index-Based Sensor. Plasmonics, 1ā€“11.
  • Katyal, J. (2022). Plasmonic Properties of Al2O3 Nanoshell with a Metallic Core. Micro and Nanosystems, 14(3), 243ā€“249.

Yibo Ding | Engineering | Best Researcher Award

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Assoc.Prof.Dr.Yibo Ding | Engineering | Best Researcher Award

Associate professor atNorthwestern Polytechnical University, China

Dr. Yibo Ding is an Associate Professor at Northwestern Polytechnical University, specializing in aerospace guidance and control. With a Ph.D. in aeronautical and astronautical science from Harbin Institute of Technology, he has dedicated his research to cooperative game guidance and multi-constraint adaptive control of hypersonic vehicles. He has led over 20 research projects, including national-level initiatives, and collaborated with key aerospace institutions in China. His contributions include innovative guidance algorithms, high-precision self-learning control technologies, and the development of national standards. Dr. Ding has published over 30 academic papers, authored two books, and holds 12 patents. His research has been recognized by esteemed academicians and has had significant applications in aerospace engineering and defense technology. With multiple awards, editorial appointments, and international presentations, he stands out as a leading researcher in his field, making him a strong candidate for the Best Researcher Award.

Professional Profile

Education

Dr. Yibo Ding earned his B.S. degree in Aircraft Design and Engineering and his Ph.D. in Aeronautical and Astronautical Science and Technology from Harbin Institute of Technology, China, in 2015 and 2020, respectively. His academic training provided a strong foundation in aerospace engineering, with a focus on advanced guidance and control systems for hypersonic vehicles. His doctoral research emphasized intelligent cooperative game guidance and adaptive control, addressing key challenges in aerospace flight dynamics. With his rigorous education and specialized expertise, Dr. Ding has emerged as a leading researcher in aerospace engineering, contributing significantly to flight safety, optimal flight performance, and national defense technology.

Professional Experience

Since 2020, Dr. Yibo Ding has been serving as an Associate Professor at Northwestern Polytechnical University, Xiā€™an, China, where he is affiliated with the National Key Laboratory of Aerospace Flight Dynamics Technology. He is a core member of the “Innovation Team of Sanqin Special Support Program for Talents” and actively contributes to aerospace research and development. He holds various prestigious roles, including Director of the Shaanxi Vibration Engineering Society and an expert for the Xiā€™an Science and Technology Bureau. Recognized as a Young Top Talent under the Shaanxi Special Support Program, he has also been selected for the China Association for Science and Technology Young Talent Lift Project and the Northwest Polytechnical University Soaring Star Program. His research focuses on cooperative game guidance and multi-constraint adaptive control for hypersonic vehicles, aiming to enhance flight safety and optimize performance. Additionally, he collaborates closely with key aerospace research institutes, contributing to national defense projects and cutting-edge aerospace technology.

Research Interest

Dr. Yibo Ding’s research interests primarily focus on aerospace guidance and control, with a particular emphasis on cooperative game guidance and multi-constraint adaptive control for hypersonic vehicles. His work aims to enhance flight safety, optimize flight performance, and support the future development of aerospace aircraft technology. He specializes in intelligent cooperative game guidance under threat assessment, designing advanced algorithms that improve aircraft maneuverability in high-threat environments. Additionally, his research addresses critical challenges such as intake constraints, flight transient constraints, aerodynamic-propulsion coupling, and strong system uncertainties in hypersonic vehicles. By developing high-precision self-learning control technologies, including fixed-time anti-saturation compensation algorithms and adaptive parameter tuning methods, he contributes to ensuring stable and efficient aerospace flight dynamics. His research findings have significant applications in national defense and future aerospace missions, advancing the capabilities of next-generation aerospace vehicles.

Award and Honor

Dr. Yibo Ding has received several prestigious awards and honors in recognition of his outstanding contributions to aerospace research and innovation. He was selected as a Young Top Talent under the Shaanxi Special Support Program and was also recognized by the China Association for Science and Technology’s Young Talent Lift Project. Additionally, he was honored as a Soaring Star at Northwestern Polytechnical University. His research excellence has been acknowledged through the Excellent Paper Award at the China Commercial Space Summit Forum in 2023. He has also played a significant role in national defense projects, where his contributions were recognized at the national level for ensuring the successful execution of key aerospace missions. His work has received high praise from leading academicians and scholars, further solidifying his reputation as a distinguished researcher in aerospace guidance and control.

Conclusion

Given his strong research output, industry collaborations, patents, and contributions to aerospace engineering, Yibo Ding is a strong candidate for the Best Researcher Award. While he has areas for growth, particularly in international visibility and industry application, his achievements make him highly deserving of recognition in his field.

Publications Top Noted

  • Title: Prospective cohort studies underscore the association of abnormal glycemic measures with all-cause and cause-specific mortalities
    Authors: Juzhong Ke, Xiaonan Ruan, Wenbin Liu, Zhitao Li, Guangwen Cao
    Year: 2024
    Citations: 0
  • Title: Trends in disease burden and risk factors of asthma from 1990 to 2019 in Belt and Road Initiative countries: evidence from the Global Burden of Disease Study 2019
    Authors: Wenjing Ye, Xue Xu, Yibo Ding, Xiaopan Li, Wen Gu
    Year: 2024
    Citations: 0
  • Title: Smoke and Spike: Benzo[a]pyrene Enhances SARS-CoV-2 Infection by Boosting NR4A2-Induced ACE2 and TMPRSS2 Expression
    Authors: Wenbin Liu, Yue Zhao, Junyan Fan, Xiaojie Tan, Guangwen Cao
    Year: 2023
    Citations: 1
  • Title: Remote detection device for bioaerosol: research progress
    Authors: Letian Fang, Wenbin Liu, Yibo Ding, Guangwen Cao
    Year: 2023
    Citations: 0