Dr. Jian Lei | Editorial Board Member

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Dr. Jian Lei | Editorial Board Member

Chongqing Three Gorges Medical College | China

Dr. Jian Lei is a promising researcher in organic optoelectronic materials with a PhD in Chemistry from National Tsing Hua University, where he specialized in advanced molecular engineering for high-performance organic emitters. He currently serves at Chongqing Three Gorges Medical College, contributing to research and foundational science education. Dr. Lei has established a strong publication record, with an h-index of 21, more than 20 research documents, and over 240 citations. His work focuses on thermally activated delayed fluorescence (TADF), azepine-modulated emitters, multiple-resonance molecular systems, and strategies for suppressing nonradiative decay to achieve efficient, stable, and narrowband OLED emission. He has authored impactful papers in top-tier journals such as Materials Horizons, Chemical Science, ACS Materials Letters, JACS Au, and The Journal of Physical Chemistry C. His contributions include breakthroughs in azepine engineering, high-EQE blue OLEDs, and molecular strategies for boosting afterglow and upconversion performance. Although early in his career, his rapidly growing citation record and consistent publications underscore his rising influence in materials chemistry and optoelectronic device research. In conclusion, Dr. Lei is an emerging scientist whose innovative molecular designs hold strong potential for advancing next-generation OLED technologies.

Profile : Orcid

Featured Publications

Chen, Y.-K., Lei, J., Chao, Y.-C., Kung, Y.-C., Hung, W.-Y., Hsu, L.-Y., & Wu, T.-L. (2025). Strategic azepine engineering realizes highly efficient and stable blue narrowband light-emitting diodes. Materials Horizons.

Lei, J., Chen, Y.-K., Wang, M.-J., Ko, C.-L., Hung, W.-Y., Hsu, L.-Y., Cheng, C.-H., & Wu, T.-L. (2025). Azepine modulation in thermally activated delayed fluorescence emitters for OLEDs achieving nearly 40% EQE. ACS Materials Letters.

Liu, P.-C., Lei, J., Liu, C.-C., Fan, Y.-T., & Wu, T.-L. (2025). Rational molecular design for boosting afterglow efficiency in nonplanar carbazolocarbazoles. JACS Au.

Chen, Y.-K., Lei, J., & Wu, T.-L. (2024). Elevating the upconversion performance of a multiple resonance thermally activated delayed fluorescence emitter via an embedded azepine approach. Chemical Science.

Lei, J., Chang, C.-W., Chen, Y.-K., Chou, P.-Y., Hsu, L.-Y., Cheng, C.-H., & Wu, T.-L. (2024). Strategy of modulating nonradiative decay for approaching efficient thermally activated delayed fluorescent emitters. The Journal of Physical Chemistry C.

Mr. Vladimir Ivanov | Top Experimental Physicist Award

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Mr. Vladimir Ivanov | Top Experimental Physicist Award

St. Petersburg State University | Russia

Vladimir A. Ivanov is a renowned plasma physicist and long-serving professor at Saint Petersburg State University, recognized for his extensive contributions to low-temperature plasma kinetics and spectroscopic diagnostics. With a career spanning from the early 1970s to the present, he has established himself as a leading expert in dissociative recombination, excitation transfer, and the population dynamics of atomic and molecular ions in noble-gas plasmas, particularly helium–neon mixtures. He earned his physics degree from Saint Petersburg State University, where he later built a distinguished academic career investigating the mechanisms governing decaying plasmas, metastable states, and collisional processes involving electrons and ions. His scholarly output includes more than fifty research papers published in reputable journals such as Optics and Spectroscopy and Plasma Sources Science and Technology. According to available bibliometric data, he has an estimated h-index of 52, with over 12,000 citations and more than 250 scientific documents, reflecting the lasting impact of his work on the field. His research interests encompass plasma spectroscopy, recombination kinetics, noble-gas ion behavior, and the fundamental physics of excitation mechanisms. In conclusion, Ivanov’s sustained scientific achievements have contributed significantly to the theoretical and experimental foundations of modern plasma physics.

Profile : Orcid

Featured Publications

Ivanov, V. A. (2020). Superposition of low-pressure DBD and RF induction discharge for spectroscopic study of dissociative recombination in decaying plasma. Plasma Sources Science and Technology.

Ivanov, V. A., Petrovskaya, A. S., & Skoblo, Y. E. (2016). Dissociative recombination of molecular ions in the He–Ne plasma: Partial rate constants of atoms formation in the 2p(5)3d and 2p(5)4d configurations. Optics and Spectroscopy.

Ivanov, V. A., Petrovskaya, A. S., & Skoblo, Y. E. (2016). Role of neon in a decaying high-purity helium plasma. Russian Journal of Physical Chemistry B.

Ivanov, V. A., Petrovskaya, A. S., & Skoblo, Y. E. (2015). Population of 2p(5)4p levels of Ne in the afterglow of discharge in helium with small admixture of neon. Russian Journal of Physical Chemistry B.

Ivanov, V. A., Petrovskaya, A. S., & Skoblo, Y. E. (2014). Population of 2p⁵5s levels of neon atoms in He–Ne plasma: Temperature dependences of partial coefficients of recombination of HeNe⁺ ions and electrons. Optics and Spectroscopy.

Dr. Ahmed Zahia | Best Researcher Award

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Dr. Ahmed Zahia | Best Researcher Award

Benha University | Egypt

Dr. Ahmed Zahia is an Assistant Lecturer in the Department of Mathematics at Benha University, Egypt. He earned his Bachelor of Science in Mathematics from Benha University in 2020 and has been actively engaged in teaching and research since 2020. His research lies at the intersection of applied mathematics and quantum physics, focusing on quantum information, quantum correlations, quantum mechanics, and dynamical systems. With a growing reputation in theoretical and computational quantum studies, Zahia has authored nine research papers in internationally recognized journals such as Scientific Reports, Journal of Physics A, Physica Scripta, Optical and Quantum Electronics, EPJ Quantum Technology, and Thermal Science. His work explores topics including entanglement dynamics, quantum steering, quantum batteries, and information scrambling in multi-qubit and multi-mode systems. His publications have collectively received 27 citations from 20 documents, reflecting an h-index of 3. Zahia is also passionate about science communication, running a YouTube channel dedicated to teaching mathematics. Through his contributions, he continues to advance understanding of quantum information processing and the interplay between entanglement, coherence, and energy transfer in quantum systems, marking him as a promising emerging researcher in applied and theoretical quantum mechanics.

Profiles : Orcid | Google Scholar | Scopus

Featured Publications

Zahia, A. A., Khalil, E., & Al-Awfi, S. (2025). Entanglement and steering of three-mode field in trio coherent states. International Journal of Theoretical Physics, 64(9), 226. https://doi.org/10.1007/s10773-025-06072-9

Zahia, A. A. (2025). Optimizing quantum battery performance: A comparative study of parallel and series charging protocols. Physica Scripta, 100(8), 085501. https://doi.org/10.1088/1402-4896/adee67

Zahia, A. A., Saad, H. M., Ali, S. I., Ahmed, M. M. A., & Obada, A.-S. F. (2025). Quantum information metrics of a multi-level atom interacting with an SU(1,1) quantum amplifier system. EPJ Quantum Technology, 12(1), 90. https://doi.org/10.1140/epjqt/s40507-025-00394-7

Abd-Rabbou, M. Y., Zahia, A. A., Rahman, A. U., & Qiao, C. F. (2025). The limits of quantum information scrambling. Journal of Physics A: Mathematical and Theoretical, 58(25), 255301. https://doi.org/10.1088/1751-8121/ade1b9

Zahia, A. A., Abd-Rabbou, M. Y., & Megahed, A. M. (2025). Entanglement-driven energy exchange in a two-qubit quantum battery. Journal of Physics B: Atomic, Molecular and Optical Physics, 58(6), 065501. https://doi.org/10.1088/1361-6455/adbc56