Xuyang Liu | Hadron Physics | Research Excellence Award

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Mr. Xuyang Liu | Hadron Physics | Research Excellence Award

Associate Professor | Liaoning University | China

Mr. Xuyang Liu is an active researcher whose work is deeply rooted in hadron physics, contributing substantially to the global understanding of theoretical models and particle interactions within hadron physics. His research spans advanced investigations of baryon structure, multi-quark dynamics, meson cloud effects and form-factor behavior, all of which are central themes within hadron physics. Through high-quality publications, he has strengthened theoretical frameworks that support precision modeling in hadron physics and expanded collaborations with international groups working on perturbative chiral quark approaches and related computational methods. His scholarly contributions demonstrate methodological depth, consistently advancing the predictive capabilities of hadron physics while offering results that inform broader high-energy studies. His influence is reflected in his cumulative publication record, which showcases impactful findings recognized within the hadron physics community. By integrating refined analytical techniques and cross-disciplinary insights, he continually enhances the scientific dialogue surrounding hadron physics, contributing to both conceptual development and practical modeling applications. His sustained commitment to rigorous research has positioned him as a significant contributor to ongoing progress in hadron physics, supporting both theoretical advancement and societal scientific enrichment. Scopus profile of 306 Citations, 30 Documents, 10 h-index.

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Featured Publications

Dr. Xiaoguang Liu | Particle Experiments | Research Excellence Award

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Dr. Xiaoguang Liu | Particle Experiments | Research Excellence Award

Associate Professor | University of Science and Technology Beijing | China

Dr. Xiaoguang Liu is a distinguished researcher whose work reflects a strong commitment to advancing materials science through the continuous integration of Particle Experiments that shape modern understanding of high temperature ceramics and catalytic systems. Dr. Xiaoguang Liu has built a research profile centered on the development of high temperature ceramic coatings designed for extreme operational environments, while also contributing to high efficiency catalysts applied in wastewater treatment, a field where Particle Experiments consistently guide both conceptual progress and practical outcomes. Through extensive engagement with Particle Experiments that support investigations of electron transfer mechanisms in Z scheme semiconductor catalysts, Dr. Xiaoguang Liu has strengthened fundamental knowledge and broadened technological applications across academic and industrial collaborations. With publications across journals indexed in global databases and contributions that extend to consultancy and industry oriented projects, Dr. Xiaoguang Liu has demonstrated how Particle Experiments reinforce the reliability, precision, and societal relevance of innovative research outputs. Editorial appointments further reflect scientific leadership shaped by meticulous Particle Experiments that validate results across catalytic and ceramic systems. Patents, authored works, and research projects also highlight the consistent integration of Particle Experiments as a methodological core that enhances the robustness of experimental design and the credibility of research conclusions. Professional engagements and collaborative activities continue to expand the impact of Particle Experiments within interdisciplinary frameworks, demonstrating sustained contributions to material enhancement, environmental improvement, and scientific advancement. With ongoing research inspired by Particle Experiments that support both theoretical insight and experimental validation, Dr. Xiaoguang Liu remains a significant contributor to globally relevant innovations. Scopus profile of 1,643 Citations, 54 Documents, 21 h index.

Profile: Scopus

Featured Publications

1. Synergistic design of a novel Z-Scheme M-r-MIL-88A(Fe)/Bi₅O₇I-OVs with Fe²⁺/Fe³⁺ and oxygen vacancies for high-efficiency peroxymonosulfate activation and pollutant degradation: Mechanisms and DFT calculation. Separation and Purification Technology. (2026).

2. Polyvinyl alcohol and methyl cellulose composite membrane for efficient degradation of methylene blue. Materials Chemistry and Physics. (2025).

3. Supramolecular perylene diimides for photocatalytic hydrogen production. (2025).

4. Research progress and development trends in the anti-oxidation mechanism and performance enhancement of uranium nitride as an accident-resistant nuclear fuel. Gongcheng Kexue Xuebao / Chinese Journal of Engineering. (2025).

5. Preparation of Co/S co-doped carbon catalysts for excellent methylene blue degradation. International Journal of Minerals, Metallurgy and Materials. (2025).

Prof. Dr. Evangelos N. Gazis | Experimental Particle Physics | Best Researcher Award

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Prof. Dr. Evangelos N. Gazis | Experimental Particle Physics | Best Researcher Award

Professor of Particle Physics | National Technical University of Athens | Greece

Prof. Dr. Evangelos N. Gazis, a distinguished scholar in Experimental Particle Physics, serves as a Professor at the National Technical University of Athens (NTUA) and holds guest professorships at CERN and Lund University. With a Scopus profile recording 4,942 citations, 108 documents, and an h-index of 24, his influence in the global Experimental Particle Physics community is profound. His extensive career integrates Experimental Particle Physics with nuclear, astro-particle, and accelerator physics, demonstrating a remarkable capacity for pioneering detector R&D, including gas detectors, micro-megas systems, and high-precision DAQ and control systems. Prof. Dr. Gazis has been instrumental in major CERN collaborations such as ATLAS, DELPHI, and CLIC, significantly contributing to the discovery of the Higgs boson and advancements in high-luminosity accelerator upgrades. His Experimental Particle Physics research extends into medical applications such as proton therapy and radioprotection, environmental and energy innovations, and cultural heritage preservation through nuclear technologies. As the Greek National Contact Physicist for multiple CERN collaborations and the Industrial Liaison Officer, he has fostered interdisciplinary partnerships between academia, industry, and government, demonstrating leadership in Experimental Particle Physics transfer and innovation. His contributions to education are equally remarkable, mentoring numerous students and promoting STEM engagement through ERASMUS+ initiatives that integrate Experimental Particle Physics into educational and technological frameworks. He has also authored monographs and co-authored over 1900 scientific papers, underscoring his lasting imprint on Experimental Particle Physics literature and global research dissemination. Prof. Dr. Gazis’s vision combines technical excellence with social and educational outreach, enhancing the societal relevance of Experimental Particle Physics across generations. His career stands as a benchmark of innovation, collaboration, and scientific integrity in Experimental Particle Physics, embodying professional excellence at an international level.

Profile: Scopus

Featured Publications

1. Simulation dosimetry studies for FLASH radiation therapy (RT) with ultra-high dose rate (UHDR) electron beam. (2024). Quantum Beam Science.

2. On the use of foam rubber for sealing applications. (2024). Tribology Letters.

3. Thermal diffusivity variation assessment on radio-frequency quadrupole Cu-OF copper due to proton irradiation. (2023). Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms.

4. The HEV ventilator: At the interface between particle physics and biomedical engineering. (2022). Royal Society Open Science.

5. Methods used for gas tightness test and percent oxygen monitoring of the NSW Micromegas detectors of LHC-ATLAS experiment. (n.d.). Conference Paper.

Dr. Manda Malekpour | Higgs Physics | Best Researcher Award

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Dr. Manda Malekpour | Higgs Physics | Best Researcher Award

Researcher | University of Mazandaran | Iran

 Dr. Manda Malekpour is a distinguished physicist specializing in gravity, cosmology, and Higgs Physics, whose academic journey through advanced studies in cosmological inflation and gravitational theory demonstrates exceptional research depth. Her scholarly focus intertwines Higgs Physics with unimodular gravity, emphasizing the theoretical framework connecting cosmic inflation and the Higgs field. Through her doctoral and master’s research, she explored nonminimal unimodular cosmological inflation and the spectral properties of gravitational waves, integrating Higgs Physics concepts into cosmological models. Her publication record, including studies on Higgs inflation in unimodular gravity and ongoing research on reheating after Higgs inflation, highlights her continuing contribution to Higgs Physics. Dr. Malekpour’s academic work reflects mastery in theoretical modeling, programming, and computational simulation relevant to Higgs Physics and early-universe dynamics. Her analytical strength and ability to merge Higgs Physics with quantum field approaches have earned her recognition and awards within academic circles. She possesses strong research skills in mathematical physics, cosmological perturbation theory, and data analysis using Python and Maple. Her work represents a vital link between gravity, cosmology, and Higgs Physics, contributing to the deeper understanding of universe formation mechanisms. Dr. Malekpour’s innovative approach to Higgs Physics continues to advance modern cosmology and inspire new theoretical pathways for studying the universe’s fundamental structure, marking her as a promising contributor to the global scientific community. Her Google Scholar Citations 5, h-index 2, i10 index 0,

Profile: Google Scholar

Featured Publications

1. Nozari, K., & Malekpour, M. (2024). Higgs inflation in unimodular gravity. Progress of Theoretical and Experimental Physics, 2024(6), 063E02.

2. Malekpour, M., Nozari, K., Rajabi, F., & Rashidi, N. (2024). Non-minimal unimodular inflation. Physics of the Dark Universe, 43, 101405.

3. Malekpour, M., & Nozari, K. (2025). Reheating after the Higgs inflation. Annals of Physics, 170244.