Zeeshan Ali – Solid-State Physics – Best Researcher Award 

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Assist. Prof. Dr. Zeeshan Ali - Solid-State Physics - Best Researcher Award 

National Yunlin University of Science and Technology - Taiwan

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🎓 Early Academic Pursuits

Dr. Zeeshan Ali embarked on his academic journey in mathematics, earning his M.Sc./B.S. in Mathematics from Abdul Wali Khan University, Mardan, Pakistan, with a GPA of 3.62/4.0. His deep passion for advanced mathematical concepts led him to pursue higher studies, obtaining an M. Phil. in Mathematics from the International Islamic University Islamabad, where he earned a GPA of 3.96/4.0. Dr. Ali's Ph.D. in Mathematics, completed in 2023, focused on the "Analysis and Applications of Complex Fuzzy Sets and Their Generalizations," further solidifying his foundation in mathematical theory and applications.

💼 Professional Endeavors

Dr. Zeeshan Ali’s professional endeavors reflect his commitment to both academia and applied mathematics. His teaching experience includes serving as a Visiting Lecturer at the International Islamic University Islamabad from Fall 2019 to Fall 2022, and as an Assistant Professor at Riphah International University Islamabad from Fall 2023 to Fall 2024. He is also scheduled to continue his work as an Assistant Professor at National Yunlin University of Science and Technology in Taiwan from Fall 2024. Dr. Ali's professional journey has also extended to contributing as a reviewer for numerous esteemed journals, further enhancing his profile in the academic community.

🔬 Contributions and Research Focus

Dr. Ali’s research focus centers around advanced topics in mathematics, particularly in fuzzy set theory and decision-making. He has made substantial contributions in the area of solid-state physics, particularly through the application of complex fuzzy sets and their generalizations. His research on picture fuzzy sets and neutrosophic rough sets has been groundbreaking, contributing significantly to decision-making processes and multi-criteria analysis. Dr. Ali’s work on aggregation operators and their applications in multi-criteria decision-making has been recognized globally, as evidenced by his published book chapters and articles in leading journals.

🌍 Impact and Influence

Dr. Zeeshan Ali’s work has had a considerable impact on the fields of fuzzy logic, decision theory, and solid-state physics. His research has been consistently included in the prestigious Stanford University list of top 2% scientists globally, a testament to the high regard his peers have for his contributions. His presence in key mathematical and physics conferences as a speaker has made a lasting influence on both academic and applied research. Dr. Ali is also an active reviewer for over 20 respected journals, further cementing his position as a thought leader in his field.

🏆Academic Cites

The academic citations of Dr. Zeeshan Ali’s work reflect its broad influence and importance. His published work in journals and books on fuzzy sets, neutrosophic sets, and solid-state physics has been cited extensively in research worldwide. His contributions to the field of solid-state physics have set a foundation for new research avenues in both theoretical and applied contexts. His inclusion in Stanford's list of top 2% scientists for multiple years is a clear indicator of the substantial recognition his research has garnered.

🌟 Legacy and Future Contributions

Dr. Zeeshan Ali’s legacy is defined by his groundbreaking research and his significant role in shaping the field of solid-state physics through mathematical models. Looking ahead, his research is set to explore further applications of fuzzy set theory and neutrosophic rough sets in decision-making and solid-state physics. Dr. Ali aims to continue expanding his contributions to both academia and industry, with plans to collaborate on new projects that bridge mathematical theory with practical solutions. His future contributions promise to solidify his place as a leader in solid-state physics and related fields.

📝Solid-State Physics

Dr. Zeeshan Ali’s expertise in solid-state physics is evident in his application of complex fuzzy sets and neutrosophic decision-making models. His work has made a significant impact on solid-state physics, offering new insights into material properties and decision frameworks. As he continues to explore the intersection of mathematics and solid-state physics, Dr. Ali’s future contributions will undoubtedly lead to innovative solutions in both academic and applied research.

Notable Publication

📝Disturbance Observer-Based Control: Weighted Aggregated Aczel-Alsina Sum Product Assessment Based on Power Operators for Managing Fuzzy 2-Tuple Linguistic Neural Networks

Authors: Ali, Z., Hila, K.

Journal: Cognitive Computation

Year: 2025

Citations: 0

📝A Decision-Making Algorithm with Circular Complex Intuitionistic Fuzzy Information and Their Application in Cognitive Wireless Communications

Authors: Garg, H., Ali, Z., Emam, W.

Journal: Alexandria Engineering Journal

Year: 2025

Citations: 0

📝Analysis of Computer Communication Networks Based on Evaluation of Domination and Double Domination for Interval-Valued T-Spherical Fuzzy Graphs and Their Applications in Decision-Making Problems

Authors: Khan, S.U., Hussain, F., Senapati, T., Esztergár-Kiss, D., Moslem, S.

Journal: Engineering Applications of Artificial Intelligence

Year: 2025

Citations: 0

📝3D Seismic Analysis of Mine Planning Using Aczel–Alsina Aggregation Operators Based on T-Spherical Fuzzy Information

Authors: Ma, L., Javed, K., Ali, Z., Tehreem, T., Yin, S.

Journal: Scientific Reports

Year: 2024

Citations: 1

📝EDAS Method for Circular Pythagorean Fuzzy with Improved Dombi Power Aggregation Operators and Their Application in Policy Analysis and Decision Support Systems

Authors: Garg, H., Waqas, M., Ali, Z., Emam, W.

Journal: Alexandria Engineering Journal

Year: 2024

Citations: 1

📝Analysis of Renewable Energy Resources Based on Frank Power Aggregation Operators and EDAS Method for Circular Bipolar Complex Fuzzy Uncertainty

Authors: Ali, Z., Ashraf, K., Hayat, K.

Journal: Heliyon

Year: 2024

Citations: 0

Sahitya Yarragolla – Solid-State Physics – Best Researcher Award

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Dr. Sahitya Yarragolla - Solid-State Physics - Best Researcher Award 

Kiel University - Germany 

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🎓 Early Academic Pursuits

Dr. Sahitya Yarragolla began his academic journey in Electrical Engineering at the University College of Engineering, Osmania University, India, where he earned his Bachelor of Engineering (B.E.) in 2017. His undergraduate thesis focused on "Reactive Power Optimization Using Hybrid Particle Swarm Optimization Algorithm," reflecting his early interest in energy systems and optimization. Dr. Yarragolla then pursued a Master of Science in Power Engineering at Brandenburg University of Technology (BTU) Cottbus-Senftenberg, Germany, where his thesis analyzed the geometrical attributes of different shaped Huygens' Box. This phase of his academic career laid the foundation for his current research, merging solid-state physics with engineering applications.

💼 Professional Endeavors

Dr. Yarragolla’s professional career is distinguished by a series of positions that bridge theory and application in electrical and information engineering. From 2020 to 2024, he worked as a research assistant at Ruhr University Bochum, contributing significantly to the field of solid-state physics. His postdoctoral work, which began in 2024 at Kiel University, focuses on multiscale transport modeling, specifically examining the behaviors of resistive switching devices and their application in neurotronics. In addition to his academic research, Dr. Yarragolla gained industry experience through his internships and roles at AUDI AG and Fraunhofer IEE, where he contributed to the study of electromagnetics and power systems, further strengthening his expertise in solid-state physics.

🔬 Contributions and Research Focus

Dr. Sahitya Yarragolla’s research centers around solid-state physics, particularly in memristive devices. His doctoral dissertation, titled "Physics-Inspired Compact Modeling of Memristive Devices: From Fundamentals to Applications," explored the physics behind switching behavior in these devices. His research also extends to the use of physics-inspired computational models to understand the behavior of memristive devices, with an eye toward applications in neuromorphic systems and hardware security. A key area of his research includes the study of CMOS-compatible RRAM-based structures for the development of Physical Unclonable Functions (PUF) and True Random Number Generators (TRNG), integral for securing hardware systems. Dr. Yarragolla's work in these areas positions him at the forefront of both theoretical and applied solid-state physics.

🌍 Impact and Influence

Dr. Yarragolla’s contributions to solid-state physics have had a significant impact in both academic and industrial circles. His involvement in cutting-edge research, such as the DFG SFB 1461 Neurotronics project, has placed him at the intersection of physics and neuromorphic engineering, influencing the design of future electronics and hardware security devices. His work on RRAM-based systems for PUFs and TRNGs is particularly noteworthy for its potential to revolutionize hardware security. Dr. Yarragolla’s research is highly regarded in the solid-state physics community, and he continues to collaborate with leading researchers to advance these technologies.

🏆Academic Cites

Dr. Yarragolla’s research has been widely cited in peer-reviewed journals and conference proceedings, underscoring the significance of his contributions to solid-state physics. His studies on memristive devices and resistive switching phenomena have garnered attention for their innovative approaches and potential applications in neuromorphic computing and hardware security. As he continues to publish in prominent academic outlets, his influence in the field of solid-state physics is expected to grow.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Yarragolla is poised to continue his groundbreaking work in solid-state physics with a focus on memristive devices and their application in secure computing and artificial intelligence systems. His ongoing work in multiscale transport modeling and memristive systems for neuromorphic applications will undoubtedly shape future technological innovations. Dr. Yarragolla's legacy is still in the making, but it is clear that his contributions will leave a lasting impact on the fields of solid-state physics and secure hardware design. His role in shaping the future of electronics, particularly in areas like neuromorphic computing and hardware security, positions him as a leading figure in the advancement of these technologies.

📝Solid-State Physics

Dr. Sahitya Yarragolla's research in solid-state physics is centered on the development and application of memristive devices, particularly in neuromorphic systems and hardware security. His groundbreaking work in solid-state physics models the complex behaviors of resistive switching devices, laying the groundwork for future applications in computing and encryption technologies. The future of solid-state physics is bright with Dr. Yarragolla's continued efforts, as his research paves the way for innovations in secure and efficient electronic devices.

Notable Publication

📝Identifying and understanding the nonlinear behavior of memristive devices

Authors: Yarragolla, S., Hemke, T., Jalled, F., Arul, T., Mussenbrock, T.

Journal: Scientific Reports

Year: 2024

Citations: 0

📝Non-zero crossing current-voltage characteristics of interface-type resistive switching devices

Authors: Yarragolla, S., Hemke, T., Trieschmann, J., Mussenbrock, T.

Journal: Applied Physics Letters

Year: 2024

Citations: 3

📝A generic compact and stochastic model for non-filamentary analog resistive switching devices

Authors: Yarragolla, S., Hemke, T., Mussenbrock, T.

Conference: 2023 12th International Conference on Modern Circuits and Systems Technologies (MOCAST 2023)

Year: 2023

Citations: 2

📝Physics inspired compact modelling of BiFeO₃ based memristors

Authors: Yarragolla, S., Du, N., Hemke, T., Polian, I., Mussenbrock, T.

Journal: Scientific Reports

Year: 2022

Citations: 5

📝Stochastic behavior of an interface-based memristive device

Authors: Yarragolla, S., Hemke, T., Trieschmann, J., Kohlstedt, H., Mussenbrock, T.

Journal: Journal of Applied Physics

Year: 2022

Citations: 8

Lindiomar Borges de Avila Junior | Solid state physics | Best Researcher Award 

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Dr. Lindiomar Borges de Avila Junior | Solid state physics | Best Researcher Award 

Federal University of Santa Catarina | Brazil

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Lindiomar Borges de Avila Junior embarked on his academic journey with a strong foundation in physics, culminating in his Bachelor's degree from the Federal University of Santa Catarina (UFSC). During this period, he actively engaged in Scientific Initiation (SI), honing his skills in electrodeposition and thin films characterization.

PROFESSIONAL ENDEAVORS

With a keen interest in condensed matter physics, Lindiomar pursued further studies, obtaining both a Master's and Ph.D. from UFSC. His research focused on innovative areas such as resistive switching in Prussian Blue thin films and the electrical properties of liquid crystal thin films. His contributions have been recognized through publications and international collaborations, including research internships in Germany and Canada.

CONTRIBUTIONS AND RESEARCH FOCUS

Lindiomar's research has significantly advanced our understanding of resistive switching phenomena and its potential applications in memory devices. His work on liquid crystal thin films opens new avenues for exploring molecular order and charge transport, with implications for various electronic devices.

CITATION

  • Citações      62
  • Índice h       5
  • Índice i10    2

IMPACT AND INFLUENCE

Through his teaching experiences and research endeavors, Lindiomar has inspired and mentored students, fostering a culture of scientific inquiry and innovation. His collaborations with international institutions have enriched the scientific community and promoted cross-cultural exchange.

ACADEMIC CITATIONS

Lindiomar's contributions to solid state physics have garnered attention in the academic community, evidenced by citations of his published work. His research serves as a cornerstone for further exploration in the field, influencing future generations of scientists.

LEGACY AND FUTURE CONTRIBUTIONS

As Lindiomar continues his academic journey as a Postdoctoral researcher, his legacy of excellence and dedication to advancing knowledge in condensed matter physics will endure. His future contributions hold the promise of addressing pressing scientific challenges and shaping the landscape of materials science and device physics.

SOLID STATE PHYSICS

Lindiomar Borges de Avila Junior's work epitomizes the interdisciplinary nature of solid state physics, bridging fundamental research with practical applications. His expertise in thin film fabrication, characterization, and device physics underscores the importance of solid state physics in modern technology.

NOTABLE PUBLICATION

Citation: 17        Year: 2021

Citation: 1       Year: 2021