Muhammad Saleh Urf Kumail Haider | Engineering | Best Researcher Award

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Mr. Muhammad Saleh Urf Kumail Haider | Engineering | Best Researcher Award

Mr. Muhammad Saleh Urf Kumail Haider, Chongqing University, Pakistan.

Haider Muhammad Saleh Kumail is a highly accomplished researcher currently pursuing a Masterโ€™s in Electronic Information Engineering at Chongqing University, China. With a B.S. in Electronic Engineering from the University of Sindh, Pakistan, Kumail has contributed significantly to the development of optical fiber sensors and AI-based sensing systems. His work has led to publications in top-tier journals and earned him prestigious awards, including the CSC Fully Funded Masterโ€™s Scholarship and the Best Research Award for his work on graphene-based smart gas sensors.

Profile

๐ŸŽ“ Early Academic Pursuits

Haider Muhammad Saleh Kumail began his academic journey at the University of Sindh, Jamshoro, Pakistan, where he completed his B.S. in Electronic Engineering with a GPA of 3.05/4.00 in December 2021. His solid foundation in Electronic Engineering led him to pursue a M.Eng. in Electronic Information Engineering at Chongqing University, China, where he is currently enrolled, maintaining a strong academic performance with a percentage of 82.9%.

๐Ÿ’ผ Professional Endeavors

Haiderโ€™s professional journey has been marked by key roles in research projects related to advanced sensing technologies. He has worked at Chongqing University since January 2023 in the School of Microelectronics and Communication Engineering, contributing to the Lab of Intelligent LiFi and focusing on Optical Fiber Sensors. Previously, from February 2019 to December 2021, he collaborated with the National Centre of Excellence in Analytical Chemistry, University of Sindh, working on Graphene/Silicon Sensors.

๐Ÿ”ฌ Contributions and Research Focus On Engineeringย 

Haiderโ€™s research primarily revolves around optical fiber sensors, AI-based sensing systems, and multiparameter sensing systems. His groundbreaking work includes the development of portable and smartphone-driven sensors for applications in liquid level sensing, refractive index sensing, and humidity measurement. His most recent research, โ€œSimultaneous Measurement of Liquid Level and R.I. Sensor Using POF Based on Twisted Structure,โ€ published in Scientific Reports (Jan. 2025), demonstrates his innovation in fiber-optic sensor technology.

๐ŸŒย Impact and Influence

Haiderโ€™s contributions have significantly impacted the field of sensor technology, particularly in the areas of portable and multiparameter sensing systems. His work has led to advancements in optical fiber sensor design, improving precision and efficiency in fields such as environmental monitoring, industry, and healthcare. His research continues to influence academic peers and pave the way for future innovations.

๐Ÿ† Awards and Recognitions

Haider has received numerous accolades, including:

  • CSC Fully Funded Masterโ€™s Scholarship Award (Sep. 2022 โ€“ Jul. 2025)
  • Best Research Award for his work on Graphene-Based Smart Gas Sensors (Mar. 2022)
  • 1st Position in the Smart Electric Military Vehicle Project (Dec. 2019)

His recognition in the academic and research communities speaks volumes about his dedication and excellence.

๐Ÿ’ช Legacy and Future Contributions

As Haider progresses in his career, his contributions to the optical sensor technology field are expected to leave a lasting legacy, particularly with his focus on smartphone-driven and AI-based sensor systems. In the future, Haider aims to push the boundaries of sensing technology, making it more affordable, efficient, and accessible across various industries.

Publications Top Notes

  • Smartphone-Based Optical Fiber Sensor for Refractive Index Sensing Using POF

    • Publication: Sensors and Actuators A: Physical, 116321 (2025)
    • Authors: MSUK Haider, C Chen, A Ghaffar, LU Noor, M Liu, S Hussain, B Arman, โ€ฆ
    • Year: 2025
    • ๐Ÿ“ฑ๐Ÿ”ฌ

  • Simultaneous Measurement of Liquid Level and RI Sensor Using POF Based on Twisted Structure

    • Publication: Scientific Reports, 15 (1), 1163 (2025)
    • Authors: MSUK Haider, C Chen, A Ghaffar, S Hussain, M Mehdi, LU Noor, โ€ฆ
    • Year: 2025
    • ๐Ÿ’ง๐Ÿ”„

  • Portable Optical Fiber Sensor for Continuous Liquid Level Sensing Using Commercially Available POF

    • Publication: IEEE Sensors Journal (Accepted for publication)
    • Authors: MSUK Haider, C Chen, A Ghaffar, HM Alshehri, LU Noor, M Liu, โ€ฆ
    • Year: 2025
    • ๐Ÿš€๐Ÿ’ก

Mostafa Fathalian | Engineering | Best Researcher Award

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Mr. Mostafa Fathalian | Engineering | Best Researcher Award

Mr. Mostafa Fathalian, Institute of Fundamental Technological Research POLISH ACADEMY OF SCIENCES, Poland.

Mostafa Fathalian is a skilled mechanical engineer and researcher specializing in materials science. He has made significant contributions through his research on the mechanical and electronic properties of advanced materials, utilizing density functional theory (DFT) and molecular dynamics. Fathalianโ€™s work, published in high-impact journals, explores materials like Al2O3, SiC interfaces, and carbon fiber/polycarbonate laminates. With a strong background in mechanical engineering, he has participated in numerous international workshops and conferences. His technical skills are complemented by certifications in AutoCAD, CATIA, and other specialized training, showcasing his dedication to continual learning and innovation in his field.

Professional Profile

๐ŸŒŸ Suitability for Best Researcher Award

Mostafa Fathalian is highly qualified for the Best Researcher Award due to his outstanding contributions in mechanical engineering and materials science. His research focuses on using advanced computational methods, including Density Functional Theory (DFT) and Molecular Dynamics, to analyze and enhance the mechanical and electronic properties of materials such as Al2O3, SiC, and carbon composites. With several high-impact publications in renowned journals like Molecules and Fibers and Polymers, his work is instrumental in understanding material behaviors at the atomic level. Additionally, his expertise is complemented by active participation in workshops, including those on high-performance computing and machine learning, as well as conference presentations where he shares his insights with the global scientific community.

๐ŸŽ“ย Education

Mostafa Fathalian holds a robust academic background, with a focus on mechanical engineering and materials science. He obtained his engineering education in Iran, where he built a strong foundation in technical disciplines. His commitment to advancing his expertise led him to participate in various specialized training programs and workshops throughout his career. In addition to his formal education, Fathalian continually seeks opportunities for professional development, attending renowned international courses such as the Fortran for Scientific Computing and Machine Learning workshops. His academic pursuits have significantly enhanced his research capabilities in the fields of materials science and mechanical engineering.

๐Ÿ”ฌResearch Contributions On Engineeringย 

Mostafa Fathalianโ€™s research contributions primarily focus on the mechanical and electronic properties of advanced materials using density functional theory (DFT) and molecular dynamics. His work includes groundbreaking studies on the behavior of Al2O3, SiC interfaces, and carbon fiber/polycarbonate laminates, providing insights into their mechanical strength and performance under various conditions. Fathalian has also explored the effects of nanosilica on material properties and the impact of defects in zinc-oxide graphene-like structures. His contributions have advanced the understanding of nanostructures and their applications in engineering, paving the way for the development of novel materials for various industrial applications.

๐Ÿ’ผProfessionalย Experience

Mostafa Fathalian has a rich background in mechanical engineering, having worked in various capacities that showcase his problem-solving and technical skills. From 2010 to 2011, he served as a Mechanical Engineer at Sanat Gomes Company, where he specialized in troubleshooting, repairing, and maintaining hydraulic systems to ensure their optimal performance. He also managed mechanical issues, worked closely with rig crews, and collaborated with other departments to resolve technical challenges. Additionally, Fathalianโ€™s expertise includes acquiring spare parts and promoting a safety culture through active involvement in safety meetings and drills, contributing to efficient and safe operations.

๐Ÿ…Awards and Recognition

Mostafa Fathalian has received significant recognition for his contributions to the fields of mechanical engineering and materials science. His research has led to impactful publications in high-profile journals, addressing critical aspects of mechanical and electronic properties of advanced materials. Fathalianโ€™s active participation in international conferences, such as the KSME Annual Meeting and KUKDM, highlights his global influence in the scientific community. He has also earned several technical certifications and patents, further showcasing his expertise and innovation. His work continues to inspire and advance the understanding of complex materials, establishing him as a distinguished researcher in his field.

Conclusion

Mostafa Fathalianโ€™s outstanding research contributions, technical expertise, and active involvement in international workshops and conferences make him a strong contender for the Best Researcher Award. His work in materials science, particularly through the application of density functional theory and molecular dynamics, has provided critical insights that continue to shape advancements in nanotechnology and engineering, positioning him as an exemplary researcher.

๐Ÿ“šPublication Top Notes

DFT study of Ni, Cu, Cd and Ag heavy metal atom adsorption onto the surface of the zinc-oxide nanotube and zinc-oxide graphene-like structure

๐Ÿ“… Year: 2018 | ๐Ÿ“š Citations: 92
๐Ÿ“ Materials Chemistry and Physics 220, 366-373

Effect of various defects on mechanical and electronic properties of zinc-oxide graphene-like structure: A DFT study

๐Ÿ“… Year: 2019 | ๐Ÿ“š Citations: 75
๐Ÿ“ Vacuum 165, 26-34

Theoretical studies on the mechanical and electronic properties of 2D and 3D structures of beryllium-oxide graphene and graphene nanobud

๐Ÿ“… Year: 2019 | ๐Ÿ“š Citations: 57
๐Ÿ“ Applied Surface Science 476, 36-48

Density functional theory study of adsorption properties of non-carbon, carbon, and functionalized graphene surfaces towards the zinc and lead atoms

๐Ÿ“… Year: 2018 | ๐Ÿ“š Citations: 48
๐Ÿ“ Physica E: Low-dimensional Systems and Nanostructures 104, 275-285

Effect of nanosilica on the mechanical and thermal properties of carbon fiber/polycarbonate laminates

๐Ÿ“… Year: 2019 | ๐Ÿ“š Citations: 11
๐Ÿ“ Fibers and Polymers 20, 1684-1689

Mechanical and electronic properties of Al (111)/6H-SiC interfaces: A DFT study

๐Ÿ“… Year: 2023 | ๐Ÿ“š Citations: 9
๐Ÿ“ Molecules 28 (11), 4345

A Comprehensive Study of Al2O3 Mechanical Behavior Using Density Functional Theory and Molecular Dynamics

๐Ÿ“… Year: 2024 | ๐Ÿ“š Citations: 4
๐Ÿ“ Molecules 29 (5), 1165

Effect of Diffusion on the Ultimate Axial Load of Complex-Shaped Al-SiC Samples: A Molecular Dynamics Study

๐Ÿ“… Year: 2024
๐Ÿ“ Molecules 29 (14), 3343

Investigating the Mechanical Characteristics of Al2O3 through Density Functional Theory and Molecular Dynamics

๐Ÿ“… Year: 2024
๐Ÿ“ The sixteenth Conference of Users of Big Power Computers (KU KDM2024)

Crack Development in Al2O3: A DFT Study

๐Ÿ“… Year: 2023
๐Ÿ“ ๋Œ€ํ•œ๊ธฐ๊ณ„ํ•™ํšŒ ์ถ˜์ถ”ํ•™์ˆ ๋Œ€ํšŒ, 20-20

Analysis of Mechanical and Electronic Properties of Al-SiC Interfaces: Ab Initio Method

๐Ÿ“… Year: 2023
๐Ÿ“ 2nd International Conference on Applied Physics and Engineering (ICAPE)

Atomistic Insights into Tensile Damage of Functionally Graded Al-Sic Composites

๐Ÿ“ Available at SSRN 4963141