Ms. Samreen Rashid - Quantum Materials - Best Researcher Award 

Sungkyunkwan University - Natural Sciences Campus - South Korea 

Author Profile

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🎓 Early Academic Pursuits

Ms. Samreen Rashid’s academic journey as a physicist began with a strong foundation in the field of science, where she developed a passion for critical thinking and problem solving. Her academic path was further enriched by her deep interest in quantum materials, which laid the groundwork for her future research endeavors. As a dedicated student, Ms. Rashid excelled in grasping complex theoretical and experimental concepts, which set the stage for her remarkable contributions to the study of quantum materials.

💼 Professional Endeavors

Ms. Samreen Rashid’s professional career is distinguished by her expertise in quantum materials, particularly in the synthesis and characterization of single crystals. She worked as a Research Assistant at Sungkyunkwan University (2018–2021), where she contributed significantly to experimental projects on quantum materials. Her role included providing guidance to undergraduate students and assisting professors with course work. She also served as a Lecturer at the University of Sargodha, Pakistan, teaching graduate-level courses, and as a Lab Scientist at NUST, Islamabad, where she conducted classical and modern physics experiments. Through her experience in academia, Ms. Rashid has developed a comprehensive skill set in project management, research, and innovation, positioning her as a leading physicist in quantum materials.

🔬 Contributions and Research Focus

Ms. Rashid’s research contributions focus on the synthesis and characterization of quantum materials, particularly the growth of single crystals like Al13Cr2, a binary quasicrystal. Her Ph.D. thesis investigates the Al-based binary quasicrystal (Al13Cr2) and its physical properties, with an emphasis on magnetic, transport, and thermal behaviors. Her work explores the coexistence of superconductivity and ferromagnetism at low temperatures, as well as the magnetic characteristics of aluminum-based quasicrystals. Ms. Rashid’s research also aims to develop phase diagrams that consider quantum criticality points (QCP), significantly advancing the field of quantum materials.

🌍 Impact and Influence

Ms. Rashid’s impact in the field of quantum materials is evident through her research on the physical properties of Al13Cr2 and other complex systems. Her work on single crystal growth and the study of quasicrystals has contributed to a better understanding of the behaviors and characteristics of quantum materials. Through her research publications and poster presentations, such as "Spectroscopic evidence for the Isotropic Superconducting Gap in LaRu3Si2," Ms. Rashid has gained recognition within the academic community. Her research not only influences her peers but also provides valuable insights for future advancements in the study of quantum materials.

🏆Academic Cites

Ms. Rashid’s research in the realm of quantum materials has been published in high-impact journals, contributing significantly to the academic discourse on quasicrystals and superconductivity. Her works, such as “Coexistence of superconductivity and ferromagnetism in SmC10 at low temperatures,” and “Synthesis and characterization of iQC Al13Cr2 phase single crystal,” are cited by researchers interested in the magnetic and transport properties of quantum materials. These citations reflect the widespread recognition of her expertise and the value of her contributions to the field.

🌟 Legacy and Future Contributions

Looking ahead, Ms. Samreen Rashid aims to continue her pioneering work in quantum materials, focusing on the synthesis of new materials and the exploration of their properties. Her future research will likely expand on her current work, particularly in the areas of superconductivity, magnetism, and quantum criticality. Through her continued dedication to advancing knowledge in quantum materials, Ms. Rashid is poised to make a lasting impact in the field of physics and materials science. Her work will undoubtedly influence the development of new quantum materials and technologies that could revolutionize various applications.

📝Quantum Materials

Ms. Samreen Rashid's expertise in quantum materials is demonstrated through her significant contributions to the study of quasicrystals and superconductivity. Her research into the growth and characterization of single crystals, such as Al13Cr2, enhances our understanding of quantum materials. With an impressive academic background and ongoing research, Ms. Rashid’s contributions to quantum materials will continue to shape the future of this evolving field.

Notable Publication


📝Coexistence of superconductivity and ferromagnetism in SmC10 at low temperatures

Authors: Rashid, S., Zafar, M.S., Emmanual, O.O., Dastgeer, G.

Journal: Journal of Alloys and Compounds

Year: 2025

Citations: 0


📝Synthesis and characterization of iQC Al13Cr2 phase single crystal

Authors: Rashid, S., Shin, S., Jang, H., Mun, E., Park, T.

Journal: Materials Letters

Year: 2022

Citations: 0


📝Enhanced AC conductivity and dielectric properties of ultrathin β-silver vanadium oxide/aniline nanowires

Authors: Rashid, S., ul Ain Javed, Q., Rashid, M.H., Kang, D.J., Bhutta, M.K.

Journal: Materials Letters

Year: 2021

Citations: 2

Samreen Rashid – Quantum Materials – Best Researcher Award 

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