Jinghua Zhao | Topological Superconducting | Best Researcher Award

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Mr. Jinghua Zhao | Topological Superconducting | Best Researcher Award

Jinghua Zhao | Xi’an University of Science and Technology | China

Jinghua Zhao is a postgraduate researcher in the School of Science at Xi’an University of Science and Technology, specializing in quantum materials and spintronics. Her research focuses on quantum spin devices and topological superconductivity, employing advanced first-principles calculations using VASP and Quantum ESPRESSO, Wannier-based tight-binding models, and model Hamiltonian approaches to explore spin filtering, strong electronic correlations, and topological phase transitions in low-dimensional systems. She has significantly contributed to understanding how external electric fields and chemical potential tuning via controlled doping can induce single-direction spin filtering and modulate superconducting phases, providing a foundation for energy-efficient spintronic and quantum devices. Her publications in high-impact journals such as Materials Today Physics and Advanced Theory and Simulations present pioneering insights into correlation-driven superconductivity, spin-dependent transport, and novel diode functionalities in quantum materials. Zhao has participated in multiple ongoing and completed research projects, demonstrating strong analytical and collaborative skills within her research group. Her work bridges theoretical discovery with device-level design principles, contributing to global advancements in low-power, high-performance quantum technologies. Through her computational expertise and focus on spin–orbit coupling, Berry curvature, and phonon stability, she aims to accelerate the realization of scalable quantum materials and spintronic architectures with societal impact in sustainable information processing. (Employment: Xi’an University of Science and Technology, Xi’an, China; Works: 2)

Profiles: ORCID

Featured Publications

Zhao, J., Yan, Z., Kong, J., Wang, Y., Xiong, K., Qi, C., & Wang, Z. (2025, December). Strong electronic correlation-driven topological superconductivity and exotic transport properties in ZrCl monolayer. Materials Today Physics.

Liang, X., Yan, Z., Kong, J., Zhao, Z., Zhao, J., Wang, Y., Qi, C., Wang, Z., & Zhao, J. (2025, July). Performing of spin‐dependent diodes in Co‐doped SiC bilayer by fully epitaxial magnetic tunnel junctions. Advanced Theory and Simulations.

Mr. Jinghua Zhao’s research in quantum materials and spintronics advances the scientific foundation for next-generation quantum and spin-based computing technologies. Her innovative work on spin filtering and topological superconductivity contributes to the development of ultra-efficient, low-power electronic devices, driving global innovation in sustainable information processing and advanced material design.

Abdullo Ahadov | Superconductivity | Best Researcher Award

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Mr. Abdullo Ahadov | Superconductivity | Best Researcher Award

PhD Candidate | Bukhara State Medical Institute | Uzbekistan

Mr. Abdullo Ahadov, Assistant Professor at Bukhara State Medical Institute, is a physicist specializing in condensed matter physics, theoretical physics, and the theory of superconductivity, with additional expertise in electronic, optical, and magnetic materials. He holds a Master’s degree in Physics from Bukhara State University, where he focused on challenges in hydrogen energy and superconductivity, and is currently pursuing a Ph.D. in Physics with research centered on pressure-induced variations in high-temperature superconductors within advanced theoretical frameworks. His academic foundation also includes a Bachelor’s degree in Management from Bukhara Engineering Technological Institute, complementing his interdisciplinary approach. Professionally, he has served as a physics teacher and now contributes to higher education and research through teaching, mentoring, and collaborative projects. His research addresses critical aspects of superconductivity, energy transfer, and structural materials, leading to multiple peer-reviewed publications in respected journals such as Brazilian Journal of Physics, European Physical Journal B, and Solid State Communications. He has made notable contributions to the understanding of pressure effects on superconducting critical temperatures, Casimir energy-induced superconductivity, and the interplay between hydrogen energy and superconductivity. Through his scholarly work and academic engagement, Ahadov continues to advance knowledge in theoretical and applied physics, fostering innovation and future applications in energy and material sciences. According to Scopus, he has 2 citations, 5 indexed documents, and an h-index of 1.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Ahadov, A., & Dzhuraev, D. (2025). Understanding and calculating the effects of uniaxial and hydrostatic pressure on the critical temperature of YBa₂Cu₃O₇−δ (Y-123) superconductor within the framework of the Casimir energy scenario and the Kempf equation. Solid State Communications.

2. Ahadov, A., & Dzhuraev, D. (2025). Uniaxial pressure derivatives of the critical temperature in Casimir energy-induced superconductivity. The European Physical Journal B.

3. Ahadov, A. (2023). Classification of modern superconductors and their theory based on thorough experiments conducted on cuprates. E3S Web of Conferences, 460, 07030.