Prof . Muhammad Yar Khan | Advanced Materials | Best Researcher Award

Prof . Muhammad Yar Khan | Qilu institute of Technology | China 

Dr. Hafiz Muhammad Yar Khan is an Associate Professor of Physics at Qilu Institute of Technology, China, with over a decade of teaching and research experience. He holds a Ph.D. in Materials Science & Engineering from Zhejiang University, China, where his research focused on density functional theory (DFT) modeling of 2D magnetic and energy storage materials. His work spans computational materials science, optoelectronics, spintronics, and nanomaterials, resulting in multiple publications in high-impact journals. Dr. Khan has also been awarded prestigious fellowships, including the Chinese Government Scholarship and Korea’s BK21 program, and has actively collaborated with international universities and research centers.

Author Profile

Scopus

Education

From the beginning of his academic journey, Dr. Hafiz Muhammad Yar Khan demonstrated an exceptional passion for science, particularly in the field of physics and materials science. His early education provided him with a strong foundation in core areas such as quantum mechanics, solid-state physics, nuclear physics, and mathematical methods. Driven by curiosity, he quickly became drawn toward advanced computational approaches to understanding the physical world. His postgraduate research immersed him in the study of perovskite-type oxides through first-principles modeling, sparking a lifelong dedication to theoretical and computational material science. His determination to explore the hidden properties of materials led him to pursue a doctorate in materials science and engineering, where he specialized in density functional theory and advanced computational modeling. This period marked the beginning of his transformation from a passionate student into a dedicated researcher and scholar.

Experience

Dr. Khan’s professional journey has been shaped by diverse experiences in academia and research, where he has served as a lecturer, researcher, and academic leader. He has contributed significantly to physics education, teaching a wide range of subjects to undergraduate and postgraduate students, and mentoring young scholars in their academic pursuits. Beyond classroom teaching, he has undertaken important administrative responsibilities, participating in academic councils, admission committees, and organizing student-focused events that enriched institutional culture. His academic career also expanded internationally, as he collaborated with multiple universities and research institutes across China, Korea, the United States, and the Middle East. These professional experiences reflect not only his commitment to advancing knowledge but also his dedication to building bridges between research communities worldwide.

Research Focus

At the heart of Dr. Khan’s academic profile lies his deep engagement with computational materials science. His research primarily focuses on first-principles studies, density functional theory modeling, and the exploration of novel two-dimensional materials. He has made significant contributions to understanding the electronic, magnetic, and optical properties of advanced materials, including transition metal dichalcogenides, van der Waals heterostructures, and defect-engineered nanostructures. His work provides key insights into the design of new materials for energy storage, optoelectronic devices, spintronics applications, and advanced battery technologies. By applying computational tools such as VASP, WIEN2k, and FLAPW, he has offered predictive models that guide experimental research and future technological applications. His publications in respected international journals highlight not only his technical expertise but also his ability to advance knowledge in fields of global importance, such as sustainable energy materials and nanotechnology.

Accolades and Recognition

Dr. Khan’s academic journey has been supported and recognized through numerous awards, fellowships, and honors. He was awarded the prestigious Chinese Government Scholarship for his doctoral studies, which enabled him to pursue advanced research at one of the world’s leading universities. His contributions have also been acknowledged through competitive fellowships such as the Brain Korea 21 (BK21) and Pioneer Research Center Program, reflecting his international standing as a promising researcher. Beyond scholarships, his role as a Hafiz-ul-Quran adds a unique dimension to his profile, combining spiritual dedication with intellectual achievement. His international collaborations and invitations to symposia, workshops, and research forums further underscore his growing recognition as a leading researcher in computational and materials science.

Impact and Influence

The impact of Dr. Khan’s work extends beyond publications and citations. His teaching career has touched the lives of countless students, many of whom have gone on to pursue advanced studies and careers in physics and materials science. His collaborative projects across countries demonstrate his commitment to knowledge exchange and global research cooperation. His insights into two-dimensional materials and energy applications directly contribute to fields addressing some of today’s most pressing challenges, such as renewable energy storage, efficient optoelectronic devices, and sustainable materials design. By combining teaching, research, and mentorship, he continues to inspire both students and colleagues to explore new frontiers in science.

Publications

A First-Principal Study of Monolayer Transition Metal Carbon Trichalcogenides.

Author: Muhammad Yar Khan, Yan Liu, Tao Wang, Hu Long, Miaogen Chen, and Dawei Gao
Journal: Superconductivity and Novel Magnetism
Year: 2021

Ferromagnetism of Ni and I co-doped CdS: A first-principles study

Author: Muhammad Yar Khan, Shengdan Tao, Haifei Wu，Qing Liao，Yilian Dai, Asif Ilyas, Jing Zhang, Miaogen Chen, Yunhao Lu
Journal: Physics
Year: 2023

Fabrication of nanofiltration membrane with enhanced water permeability and dyes removal efficiency using tetramethyl thiourea-doped reduced graphene oxide.

Author: Sehrish Qazi,Huma Shaikh,Amber R. Solangi, Madeeha Batool, MuhammadYar Khan, Nawal D. Alqarni, Sarah Alharthi and Nora Hamad Al-Shaalan
Journal: Materials Science
Year: 2024

Conclusion

Dr. Hafiz Muhammad Yar Khan represents a rare blend of academic excellence, research innovation, and educational leadership. His journey from early studies in physics to advanced computational modeling of novel materials reflects unwavering dedication to knowledge and discovery. Through his teaching, research, and collaborations, he has contributed to solving challenges in energy, optoelectronics, and nanotechnology, while also inspiring the next generation of scientists. With a strong record of publications, international recognition, and a clear vision for the future, Dr. Khan stands as a distinguished scholar whose work continues to shape both the academic community and the broader scientific world. His legacy lies not only in his groundbreaking research but also in the lives he influences through mentorship, global collaborations, and a commitment to advancing science for societal benefit.