Shoaib Ahmed Khan | Theoretical Advances | Best Researcher Award

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Dr. Shoaib Ahmed Khan | Theoretical Advances | Best Researcher Award

Dr. Shoaib Ahmed Khan, Guangzhou University, China.

Shoaib Ahmed Khan is a highly accomplished electrical engineer and researcher with expertise in small satellites, power management, and attitude control systems. Holding a Ph.D. in Electrical Engineering from Zhejiang University (China), he is currently a Postdoctoral Fellow at Guangzhou University. His research has significantly advanced satellite technology, particularly in areas like power conditioning, solar panels, and embedded systems. With a passion for aerospace systems and spacecraft dynamics, Shoaib continues to shape the future of space engineering through innovative research.

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🚀 Early Academic Pursuits

Shoaib’s academic journey began with a Bachelor’s degree in Electrical Engineering from NUCES FAST in Pakistan, where he achieved a CGPA of 3.06/4.0. During his studies, he designed and implemented a Concentrated Solar Power System for his final-year project. This early exposure to renewable energy systems paved the way for his Master’s degree in Electrical Engineering (CGPA 3.52/4.0) at the same institution. Here, he worked with SUPARCO (National Space Agency of Pakistan) on the Pakistan National Student Satellite Project (PNSS-1).

🛠️ Professional Endeavors

Shoaib’s professional career has been marked by a combination of engineering practice and research. As a Site Engineer at the Army Housing Directorate (ADH) in Pakistan, he contributed to electrical and mechanical works, including cable installation, power distribution, and lighting systems. His role in planning, drafting, and executing electrical systems honed his project management skills. Later, his time at Guangzhou University allowed him to focus on his research in spacecraft attitude control, especially in small satellite technologies.

🌌 Contributions and Research Focus

Shoaib’s research revolves around small satellites and space systems, with a particular focus on power management and attitude control subsystems. His work has led to breakthroughs in solar panels, embedded magnetorquers, and intelligent detumbling systems. A key aspect of his work includes the thermal analysis and modeling of electronic systems in spacecraft. He has authored numerous journal articles that explore quantum optimization, multi-modal design problems, and electromagnetic design optimization.

His contributions include the development of reconfigurable magnetorquers and magnetorquer designs for nanosatellites, furthering the capabilities of attitude control systems for small spacecraft. Shoaib has worked with international institutions and space agencies, solidifying his expertise in aerospace engineering.

Impact and Influence 🌍

Shoaib’s research impact extends beyond academia, influencing space technology and the design of next-generation small satellites. His work has been published in high-impact journals such as the IEEE Journal of Miniaturization for Air and Space Systems, Advances in Space Research, and J. Aerospace Engineering. His studies on spacecraft control systems have contributed to improving satellite performance, reliability, and efficiency, making a lasting impact on global space missions. He has become a thought leader in space systems design, and his collaborative work with institutions like Zhejiang University and SUPARCO has positioned him at the forefront of aerospace innovation.

Research Skills 🧑‍🔬

Shoaib possesses a diverse range of research skills that include:

  • Power Management and Energy Systems for small satellites
  • Attitude Control and Dynamics of Spacecraft
  • Embedded Systems and Control Algorithms
  • Thermal Modeling and Analysis of Spacecraft Systems
  • Electromagnetic Design and Optimization using Quantum Particle Swarm Optimization (QPSO)

His ability to model and optimize complex systems has made him a prominent researcher in the field of space systems.

Teaching Experience 🧑‍🏫

Shoaib also has significant teaching experience. From January 2014 to January 2017, he served as a Research and Teaching Assistant at NUCES FAST, where he worked alongside Dr. Anwar Ali in delivering workshops and lectures on space systems, power management, and attitude determination subsystems. He later delivered specialized workshops at Zhejiang University and Pakistan Engineering Council (PEC), focusing on detumbling systems for small satellites.

Awards and Honors 🏅

Shoaib has earned numerous awards and recognitions throughout his career, including:

  • Silver Medal for M.S. in Electrical Engineering at FAST NUCES
  • Ph.D. Scholarship at Zhejiang University, awarded by the Chinese Scholarship Council (CSC)
  • Keynote Speaker at Pakistan Engineering Council (PEC) workshops
  • Professional Engineer certification with the Pakistan Engineering Council (a signatory body of the Washington Accord)

Legacy and Future Contributions 🔮

Shoaib’s legacy as a researcher and innovator is set to continue as he drives forward cutting-edge research in small satellite technology, energy management, and spacecraft dynamics. His future contributions will likely include developing sustainable and energy-efficient systems for space missions and expanding collaborations with international space agencies.

Publication Top Notes

  • Title: Design of Modular Power Management and Attitude Control Subsystems for a Microsatellite
    Author(s): A. Ali, S.A. Khan, M.U. Khan, H. Ali, M. Rizwan Mughal, J. Praks
    Year: 2018

 

  • Title: Active Attitude Control for Microspacecraft: A Survey and New Embedded Designs
    Author(s): S.A. Khan, Y. Shiyou, A. Ali, S. Rao, S. Fahad, W. Jing, J. Tong, M. Tahir
    Year: 2022

 

  • Title: More Electric Aircraft Challenges: A Study on 270 V/90 V Interleaved Bidirectional DC–DC Converter
    Author(s): M. Tahir, S.A. Khan, T. Khan, M. Waseem, D. Khan, A. Annuk
    Year: 2022

 

  • Title: Design & Thermal Modeling of Solar Panel Module with Embedded Reconfigurable Air-Coil for Micro-Satellites
    Author(s): A. Ali, S.A. Khan, M.A. Dildar, H. Ali, N. Ullah
    Year: 2018

 

  • Title: Optimized Design and Analysis of Printed Magnetorquer for a 3-U Nano-Satellite
    Author(s): S. Ahmed Khan, A. Ali, Y. Shiyou, S. Fahad, J. Tong
    Year: 2022

 

  • Title: Optimized Design of Embedded Air Coil for Small Satellites with Various Dimensions
    Author(s): S. Ahmed Khan, A. Ali, Y. Shiyou, J. Tong, J.M. Guerrero
    Year: 2021

 

  • Title: A Hybrid Smart Quantum Particle Swarm Optimization for Multimodal Electromagnetic Design Problems
    Author(s): S. Fahad, S. Yang, S.U. Khan, S.A. Khan, R.A. Khan
    Year: 2022

 

  • Title: A Multimodal Smart Quantum Particle Swarm Optimization for Electromagnetic Design Optimization Problems
    Author(s): S. Fahad, S. Yang, R.A. Khan, S. Khan, S.A. Khan
    Year: 2021

 

  • Title: PCB-Integrated Embedded Planar Magnetorquers for Small Satellites Intelligent Detumbling
    Author(s): S.A. Khan, Y. Shiyou, A. Ali, M. Tahir, S. Fahad, S. Rao, M. Waseem
    Year: 2023

 

 

Srinivasulu Reddy Bhumi reddy | Theoretical Advances | Best Researcher Award

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Mr. Srinivasulu Reddy Bhumi reddy | Theoretical Advances | Best Researcher Award

Gyeongsag Natioanl University | South Korea

Bhumi Reddy Srinivasulu Reddy is currently pursuing a Doctor of Philosophy (PhD) in Material Science and Convergence Technology at Gyeongsang National University in South Korea. His research primarily focuses on next-generation battery technologies, including Lithium-ion, Sodium-ion, Lithium-Sulfur, and Room Temperature Sodium-Sulfur (RT-NaS) batteries. He has amassed significant experience in material fabrication, electrochemical analysis, and battery development, contributing to numerous advancements in the field.

👨‍🎓 Profile

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Early Academic Pursuits 🎓

Reddy began his academic journey in Material Science and Metallurgical Engineering at RGUKT RK Valley, India, where he earned his B.Tech degree. His keen interest in battery materials led him to pursue a Master’s degree in Material Science and Convergence Technology at Gyeongsang National University, South Korea, where he graduated with distinction. His research on MoS2/rGO/S composite materials as cathodes for room-temperature sodium-sulfur batteries sparked his passion for energy storage technologies, laying a strong foundation for his doctoral work.

Professional Endeavors 🔬

As a PhD student, Reddy has gained hands-on experience in material synthesis and electrochemical testing of advanced materials for Li-ion, Na-ion, Li-S, and Na-S batteries. His work has been supported by prestigious funding from the National Research Foundation of Korea (NRF), enabling him to explore innovative solutions for high-performance battery systems. He has also contributed to the development of binder and interlayer materials that improve the performance of high-sulfur loading lithium-sulfur batteries.

Contributions and Research Focus ⚡

Reddy’s research has focused on the synthesis and characterization of cutting-edge materials such as Tin-oxide nanocomposites, Graphene oxide, and MoS2/rGO composites for advanced battery technologies. His work aims to enhance the performance of next-generation batteries by improving cycling stability, capacity retention, and efficiency. Some of his notable contributions include the development of a cost-effective and sustainable cross-linked polyvinyl alcohol-tartaric acid composite binder for high-performance Li-S batteries and a synergetic shielding effect for Si-Sulfur electrodes.

Impact and Influence 🌍

Reddy’s groundbreaking work has significantly advanced the development of sustainable energy storage solutions. His work on sulfur host materials, interlayers, and polymeric binders for lithium-sulfur and sodium-sulfur batteries is leading the way toward high-capacity, environmentally friendly, and cost-efficient energy storage systems. His patents and numerous journal publications underscore his significant contributions to the field, highlighting his growing influence among both academic and industry peers.

Academic Cites 📈

Reddy has published several high-impact papers in peer-reviewed journals, with his work appearing in SCIE journals such as the Journal of Nanoscience and Nanotechnology, Journal of Energy Storage, and Materials Research Bulletin. His research on MoS2/rGO composites for sodium-sulfur batteries and tin-encapsulated copper grooves for Li-ion batteries has garnered significant attention from researchers and practitioners alike. Additionally, his work in machine learning applications for modeling and predicting battery properties has broadened the scope of his academic influence.

Research Skills 🧪

Reddy possesses a diverse set of research skills crucial for materials science and energy storage innovation. These include:

  • Material synthesis techniques: Sol-gel, CVD, solid-state synthesis, and hydrothermal methods.
  • Characterization techniques: X-ray diffraction (XRD), FESEM, Raman Spectroscopy, TGA, and more.
  • Electrochemical testing: Galvanostatic charge/discharge, cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS).
  • Data analysis tools: Origin, Endnote, MS Office, Powder X, and Excel.

Awards and Honors 🏆

Reddy has been consistently recognized for his outstanding research achievements, receiving numerous Best Poster and Best Paper awards at prestigious conferences. Notable accolades include:

  • Young Pioneer Researcher Award for outstanding research achievements in multiple years (2020, 2021, 2022, 2023).
  • Best Poster Presentation Awards at international conferences such as the International Forum on Functional Materials (IFFM 2019) and the Korean Battery Society (KOBS 2021).

Patents 🔒

  • Polymer Binder Based on Hydroxyl Group for Sulfur Loading Lithium-Sulfur and Sodium-Sulfur Batteries (Patent number: W23P0033KR, Submitted 2022).
  • Polymer Binder Based on Carboxyl Acid for Sulfur Loading Lithium-Sulfur and Sodium-Sulfur Batteries (Patent number: W22P0139KR, Submitted 2022).

Legacy and Future Contributions 🚀

Reddy’s vision is to contribute to the development of sustainable energy storage technologies that will revolutionize the battery industry. His work in advanced cathode materials, sulfur hosts, and polymeric binders lays the groundwork for next-generation high-performance batteries. Looking forward, Reddy aims to build on his existing research to develop even more efficient, environmentally friendly, and cost-effective materials for energy storage applications. Through his innovative solutions, he aspires to make a lasting impact on the global energy landscape.

  Publications Top Notes

Cost-effective water-soluble three-dimensional cross-linked polymeric binder for high-performance lithium‑sulfur batteries
  • Authors: Reddy, B.S., Ahn, H.-J., Ahn, J.-H., Cho, G.-B., Cho, K.-K.
    Journal: Journal of Energy Storage, 2023
A study on the electrochemical properties of silicon/carbon composite for lithium-ion battery
  • Authors: Ha, T.-H., Reddy, B.S., Ryu, H.-R., Ahn, J.-H., Cho, K.-K.
    Journal: Journal of Energy Storage, 2023
Low-Cost and Sustainable Cross-Linked Polyvinyl Alcohol-Tartaric Acid Composite Binder for High-Performance Lithium-Sulfur Batteries
  • Authors: Reddy, B.R.S., Ahn, J.-H., Ahn, H.-J., Cho, G.-B., Cho, K.-K.
    Journal: ACS Applied Energy Materials, 2023
Modeling the relationship between forward osmosis process parameters and permeate flux
  • Authors: Reddy, B.S., Maurya, A.K., Narayana, P.L., Sharada, Y.S., Reddy, N.S.
    Journal: Separation and Purification Technology, 2022
Synthesis and electrochemical properties of nickel sulfide/carbon composite as an anode material for lithium-ion and sodium-ion batteries
  • Authors: Lee, Y.-J., Reddy, B.S., Hong, H.-A., Ahn, J.-H., Cho, K.-K.
    Journal: International Journal of Energy Research, 2022