Dr. Sijo A K | Physics | Research Excellence Award

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Dr. Sijo A K | Physics | Research Excellence Award

Assistant Professor | Mary Matha Arts & Science College | India

Dr. Sijo A K is a dedicated academic and researcher affiliated with Mary Matha Arts and Science College Wayanad, contributing actively to interdisciplinary advancement across Physics, Materials Science, Science and Technology, Engineering, and Chemistry. His research profile reflects strong expertise in Physics with sustained contributions to experimental and theoretical Physics, applied Physics, and emerging Physics driven technologies. Through continuous engagement in Physics oriented investigations, he has demonstrated the ability to integrate Physics principles with materials innovation and engineering applications. His scholarly output highlights collaborative research culture, with interdisciplinary partnerships that strengthen Physics based problem solving and translational outcomes. The impact of his work in Physics extends to academic knowledge dissemination, mentoring, and societal relevance through technology enabled solutions grounded in Physics fundamentals. His research visibility and influence are supported by consistent citations and recognized scholarly contributions within the global Physics community. Scopus profile of 260 Citations, 29 Documents, 12 h index.

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Featured Publications


Optical and structural characterization of SILAR-coated Mn-doped ZnS films for LEDs

Journal of Materials Science-Materials in Electronics, 2025

Assist. Prof. Dr. Dinesh Kumar Chaudhary | Physics | Research Excellence Award

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Assist. Prof. Dr. Dinesh Kumar Chaudhary | Physics | Research Excellence Award

Assistant Professor | Tribhuvan University | Nepal

Assist. Prof. Dr. Dinesh Kumar Chaudhary is an accomplished academic and researcher with strong expertise in Physics, actively contributing to experimental and applied Physics with emphasis on semiconductor Physics, materials Physics, sensor Physics, and nanostructured systems. His work in Physics integrates thin film Physics, gas sensing Physics, optical Physics, and electrical Physics, demonstrating consistent advancement of Physics driven solutions for real world applications. He has authored multiple peer reviewed publications in reputed journals, reflecting sustained impact in Physics research and interdisciplinary Physics collaboration with international scientists. His Physics contributions have supported advancements in sensing technologies, energy related Physics applications, and applied Physics methodologies relevant to industry and society. Through active collaboration, peer review service, and scholarly dissemination, he strengthens the global Physics community and promotes responsible Physics research aligned with societal needs. His academic service and research engagement highlight a commitment to high quality Physics education, innovation in Physics experimentation, and knowledge transfer through Physics based solutions that support technological and environmental progress. Scopus profile of 277 Citations, 24 Documents, 11 h index.

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Sensing Performance of a ZnO-based Ammonia Sensor

Journal of Physical Science, 2022
Cited by 40

Dr. Anca Melintescu | Nuclear Physics | Research Excellence Award

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Dr. Anca Melintescu | Nuclear Physics | Research Excellence Award

Senior Scientist First Degree equivalent to Professor | Horia Hulubei National Institute of Physics and Nuclear Engineering | Romania

Dr. Anca Melintescu is an internationally recognized researcher whose work demonstrates sustained excellence in Nuclear Physics with a strong focus on Nuclear Physics applications to environmental systems, radiological impact assessment, and risk modeling. Her expertise in Nuclear Physics integrates advanced mathematical modeling, Nuclear Physics based transfer processes of radionuclides, and Nuclear Physics driven assessment frameworks used at global level. She has authored and coauthored more than forty peer reviewed scientific publications, with extensive citations reflecting the relevance of her Nuclear Physics contributions. Her research collaborations span major international institutions and agencies, where her Nuclear Physics knowledge supports harmonized methodologies, decision support tools, and scientific guidance. Through advisory roles and editorial activities, she has strengthened the global Nuclear Physics research ecosystem and ensured high scientific standards. Her work in Nuclear Physics has delivered measurable societal impact by improving environmental safety, public exposure assessment, and policy relevant decision making. Her sustained leadership and collaboration in Nuclear Physics continue to influence international best practices and scientific innovation. Scopus profile of 519 Citations, 44 Documents, 14 h-index.

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Prof. Elvira Rossi | High Energy Physics | Research Excellence Award

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Prof. Elvira Rossi | High Energy Physics | Research Excellence Award

Associate Professor in Particle Physics | University of Naples Federico II | Italy

Prof. Elvira Rossi is a leading experimental scientist whose contributions have significantly advanced global High Energy Physics through pioneering research, interdisciplinary collaborations, and influential work within major international laboratories. Her research spans fundamental interactions, precision measurements, detector technologies, artificial intelligence applications, and large-scale data analysis, reinforcing the core pillars of modern High Energy Physics. She has played a major role in collaborations dedicated to High Energy Physics, including long-standing involvement in ATLAS and activities connected to future collider programs, where her work supports advancements in particle detection, trigger systems, calibration studies, and complex reconstruction strategies. Her scientific output reflects deep engagement with High Energy Physics, with impactful publications, extensive citation influence, and a strong presence across collaborative research networks. She has contributed to major discoveries, precision analyses, high-performance computing initiatives, and methodological innovations that benefit the broader High Energy Physics community and society through technological transfer, scientific outreach, and the development of advanced computational frameworks. Her sustained commitment to High Energy Physics, combined with her leadership roles and contributions to detector development and data-driven analysis, highlights her as a prominent figure shaping the future directions of High Energy Physics at the global level. Professional research metrics Scopus profile of 70403 Citations, 1211 Documents, 126 h-index.

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Featured Publications

Prof. Wail Al Zoubi | Standard Model Physics | Research Excellence Award

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Prof. Wail Al Zoubi | Standard Model Physics | Research Excellence Award

Professor | Yeungnam university | South Korea

Prof. Wail Al Zoubi is a distinguished researcher whose scientific contributions span advanced materials chemistry, catalysis, hybrid organic inorganic systems, electrochemical engineering, and surface science, and his work demonstrates an exceptional interdisciplinary reach that aligns conceptually with the analytical rigor often associated with Standard Model Physics, allowing this thematic reference to appear as a conceptual anchor throughout his professional profile. With more than one hundred publications in high impact journals, his research achievements integrate experimental design, theoretical modeling, machine learning assisted prediction, and novel synthesis pathways for nanostructures and functional materials, echoing the structured methodological precision characteristic of Standard Model Physics while advancing innovations in catalysis, adsorption, corrosion protection, photon assisted reactions, and energy storage. His collaborations with leading international teams strengthen the global relevance of his work and reflect a research ecosystem where the systematic reasoning similar to Standard Model Physics guides the interpretation of material behavior, catalytic mechanisms, and structure property relationships. Prof. Wail Al Zoubi has made significant scientific contributions in areas such as high entropy nanoparticles, MXenes, Schiff base derived complexes, organic inorganic hybrid coatings, plasma assisted fabrication, and environmentally oriented remediation materials, and these contributions are repeatedly framed within a conceptual space where Standard Model Physics serves as a metaphor for disciplined scientific structure, predictive accuracy, and methodological coherence. His publications receive sustained citations and demonstrate broad influence across chemistry, materials science, nanotechnology, and environmental science, forming an academic trajectory that reflects both depth and interdisciplinary breadth. Through impactful collaborations, editorial responsibilities, and sustained research productivity, he continues to shape key directions in advanced materials research, maintaining conceptual parallels to Standard Model Physics in the way his scientific work constructs, tests, and refines multi variable frameworks that explain material interactions and catalytic behavior. His scholarly presence is further affirmed through the Google Scholar profile of 5831 Citations, 41 h index, 107 i10 index.

Profile: Google Scholar

Featured Publications

1. Al Zoubi, W. (2013). Biological activities of Schiff bases and their complexes: A review of recent works. International Journal of Organic Chemistry, 3(3), 73–95.

2. Al Zoubi, W., Al-Hamdani, A. A. S., & Kaseem, M. (2016). Synthesis and antioxidant activities of Schiff bases and their complexes: A review. Applied Organometallic Chemistry, 30(10), 810–817.

3. Al Zoubi, W., Kamil, M. P., Fatimah, S., Nashrah, N., & Ko, Y. G. (2020). Recent advances in hybrid organic–inorganic materials with spatial architecture for state-of-the-art applications. Progress in Materials Science, 112, 100663.

4. Al Zoubi, W., & Ko, Y. G. (2016). Organometallic complexes of Schiff bases: Recent progress in oxidation catalysis. Journal of Organometallic Chemistry, 822, 173–188.

5. Al Zoubi, W., & Ko, Y. G. (2017). Schiff base complexes and their versatile applications as catalysts in oxidation of organic compounds: Part I. Applied Organometallic Chemistry, 31(3), e3574.

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).

Kai-Li Wang | Physics and Astronomy | Young Scientist Award

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Mr. Kai-Li Wang | Physics and Astronomy | Young Scientist Award

Postdoctoral Researcher | Soochow University | China

Mr. Kai-Li Wang is a leading researcher whose contributions in Physics and Astronomy have positioned him at the forefront of advanced semiconductor and perovskite device innovation. His work demonstrates a strong command of Physics and Astronomy, especially in areas related to organic and perovskite semiconductor mechanisms, device engineering, and photophysical behavior crucial to next-generation energy technologies. Across more than eighty publications, his research in Physics and Astronomy consistently advances fundamental understanding while delivering high-impact practical outcomes for photovoltaic and optoelectronic systems. His publications in major journals such as Science, JACS, Advanced Materials, Advanced Energy Materials, and Nano Letters reflect exceptional influence within global Physics and Astronomy communities. Mr. Kai-Li Wang’s expertise integrates material design, vacuum-based fabrication strategies, tandem and indoor photovoltaics, and defect passivation concepts technical areas rooted deeply in Physics and Astronomy. Through multidisciplinary collaborations bridging chemistry, nanotechnology, and device engineering, he elevates the role of Physics and Astronomy in solving large-scale energy and sustainability challenges. His work has reshaped modern understanding of perovskite crystallization, interface engineering, charge-transfer pathways, and stability mechanisms, making him a consistent contributor to international advancements in Physics and Astronomy. As a co-inventor on multiple patents and a frequent collaborator with highly cited research groups, Mr. Kai-Li Wang exemplifies the societal value of Physics and Astronomy through innovations aimed at high-efficiency, low-cost, and environmentally responsible energy conversion. His research continues to influence experimental design and industrial translation across the expanding global fields of photovoltaics, semiconductor materials, and applied Physics and Astronomy, reinforcing the discipline’s vital impact on technological progress. Google Scholar profile of 6389 Citations, 39 h-index, 94 i10-index.

Profiles: Google Scholar | ORCID

Featured Publications

1. Wang, R., Xue, J., Wang, K. L., Wang, Z. K., Luo, Y., Fenning, D., Xu, G., Nuryyeva, S., … (2019). Constructive molecular configurations for surface-defect passivation of perovskite photovoltaics. Science, 366(6472), 1509–1513.

2. Igbari, F., Wang, R., Wang, Z. K., Ma, X. J., Wang, Q., Wang, K. L., Zhang, Y., Liao, L. S., … (2019). Composition stoichiometry of Cs₂AgBiBr₆ films for highly efficient lead-free perovskite solar cells. Nano Letters, 19(3), 2066–2073.

3. Xue, J., Wang, R., Chen, X., Yao, C., Jin, X., Wang, K. L., Huang, W., Huang, T., … (2021). Reconfiguring the band-edge states of photovoltaic perovskites by conjugated organic cations. Science, 371(6529), 636–640.

4. Xue, J., Wang, R., Wang, K. L., Wang, Z. K., Yavuz, I., Wang, Y., Yang, Y., Gao, X., … (2019). Crystalline liquid-like behavior: surface-induced secondary grain growth of photovoltaic perovskite thin film. Journal of the American Chemical Society, 141(35), 13948–13953.

5. Phung, N., Félix, R., Meggiolaro, D., Al-Ashouri, A., Sousa e Silva, G., … (2020). The doping mechanism of halide perovskite unveiled by alkaline earth metals. Journal of the American Chemical Society, 142(5), 2364–2374.

Zhen Wang | Nuclear Physics | Research Excellence Award

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Mr. Zhen Wang | Nuclear Physics | Research Excellence Award

Associate Professor | China Institute for Radiation Protection | China

Mr. Zhen Wang is a dedicated researcher whose work reflects a strong commitment to advancing Nuclear Physics through practical innovation and scientific rigor. His professional contributions focus on Nuclear Physics applications in nuclear air cleaning technology and radioactive gas purification, where he has played a meaningful role in strengthening safety standards within environments that rely on Nuclear Physics operational systems. Through his continuous involvement in research activities, Mr. Zhen Wang has developed insights that support the progress of experimental and applied Nuclear Physics, especially in areas that intersect environmental protection and radiation control. His engagement with Nuclear Physics has allowed him to participate in collaborative studies that enhance purification mechanisms and improve technological frameworks used in Nuclear Physics laboratories and industrial facilities. He has contributed to research efforts that integrate Nuclear Physics with engineering based solutions, generating outcomes that offer societal benefits by promoting safer handling of radioactive materials. His professional path demonstrates a consistent alignment with Nuclear Physics oriented problem solving, supported by active participation in projects related to environmental radiation management. Mr. Zhen Wang continues to strengthen his expertise in Nuclear Physics by contributing to scientific discussions, sharing research findings, and engaging with multidisciplinary teams that focus on practical improvements within Nuclear Physics systems. His growing scholarly presence supports broader goals in Nuclear Physics and reinforces the importance of developing technologies that protect public health and environmental stability. His ongoing work reflects precision, analytical depth, and a sustained commitment to research advancement within the global Nuclear Physics community. This profile acknowledges his contribution to Nuclear Physics and highlights his continued dedication to meaningful scientific development. Scopus profile of 11 Citations, 3 Documents, 3 h-index.

Profile: Scopus

Featured Publication

1. Study on fire safety assessment of nuclear grade activated carbon. Progress in Nuclear Energy. (2024)

Muhammad Mustafa Dastageer | Physics and Astronomy | Best Researcher Award

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Mr. Muhammad Mustafa Dastageer | Physics and Astronomy | Best Researcher Award

Research Assistant | University of Engineering and Technology | Pakistan

Mr. Muhammad Mustafa Dastageer is a dedicated researcher whose work is deeply rooted in the advancing frontiers of Physics and Astronomy. His scientific contributions focus on laser spectroscopy, plasma diagnostics, and machine-learning-assisted analytical techniques, forming a strong foundation for impactful research within the broader domains of Physics and Astronomy. Through his involvement in collaborative projects spanning national and international institutions, he has strengthened the integration of experimental methods with computational intelligence, demonstrating how Physics and Astronomy can bridge fundamental inquiry and applied innovation. Mr. Dastageer has contributed to significant publications addressing biomedical sensing, laser–matter interaction, and materials characterization, with his research appearing in reputable scientific journals. His role in major collaborative efforts, including studies on laser-induced breakdown spectroscopy for medical applications, underscores his commitment to expanding the practical relevance of Physics and Astronomy. His publications highlight rigorous experimental methodology, interdisciplinary coordination, and a clear dedication to scientific advancement. In addition to research excellence, he has actively contributed to scholarly events, conferences, and scientific communities, further reinforcing the global impact of Physics and Astronomy. His participation in academic symposiums and specialized workshops reflects his ongoing effort to promote knowledge exchange and foster innovation. Through these engagements, he contributes to shaping the evolving landscape of Physics and Astronomy, ensuring that theoretical understanding and technical application continue to progress side by side. With a professional trajectory centered on academic rigor, scientific integrity, and international collaboration, Mr. Dastageer remains committed to pushing forward the boundaries of Physics and Astronomy. His work exemplifies how modern research in Physics and Astronomy can meaningfully contribute to society, healthcare, materials science, and technological development. Scopus profile of 2 Citations, 3 Documents, 1 h-index.

Profiles: Google Scholar | ORCID | Scopus

Featured Publications

1. Mustafa, M., Latif, A., Jehangir, M., & Siraj, K. (2022). Nd: YAG laser irradiation consequences on calcium and magnesium in human dental tissues. Lasers in Dental Science, 6(2), 107–115.

2. Mustafa, M., Latif, A., & Jehangir, M. (2022). Laser-induced breakdown spectroscopy and microscopy study of human dental tissues. Electron Microscopy, 1–14.

3. Dastageer, M. M., Siraj, K., Pedarnig, J. D., Zhang, D., Qasim, M., Rahim, M. S. A., ... (2025). From fundamentals of laser-induced breakdown spectroscopy to recent advancements in cancer detection and calcified tissues analysis: An overview (2015–2025). Molecules, 30(21), 4176.

4. Mushtaq, S., Siraj, K., Rahim, M. S. A., Younas, Q., Hussain, B. M., Qasim, M., ... (2025). Analysis of edible silver foils under steady magnetic field by calibration free laser induced breakdown spectroscopy (CF-LIBS). Iranian Journal of Science, 49(3), 889–899.

5. Younas, Q., Siraj, K., Osipowicz, T., Naeem, S., Zhao, Y., Tan, C. C., Bashir, S., ... (2025). Impact of gold ions on nanohardness and various characteristics of G-metal alloy surface. Metals and Materials International, 1–17.

Prof. Dr. Zbigniew Haba | Quantum Field Theory | Best Researcher Award

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Prof. Dr. Zbigniew Haba | Quantum Field Theory | Best Researcher Award

Professor | University of Wroclaw | Poland

Prof. Dr. Zbigniew Haba is a distinguished theoretical physicist whose scholarly endeavors have significantly advanced the understanding of Quantum Field Theory, which he has explored in various theoretical and mathematical frameworks. Throughout his academic and research career, Quantum Field Theory has remained the cornerstone of his investigations, particularly in relation to quantum gravity, statistical field theory, and stochastic processes. He earned his Ph.D. and later served as a visiting professor at Bielefeld University, Bochum University, the Max Planck Institute in Munich, and Lisbon University, where his expertise in Quantum Field Theory contributed to both research and mentorship. His scientific output, reflected in his Google Scholar profile with 1007 citations, an h-index of 16, and an i10-index of 31, demonstrates his influence in the global research community. Prof. Dr. Haba’s profound understanding of Quantum Field Theory extends to its applications in cosmology, string theory, and renormalization techniques. His research interests include advanced formulations of Quantum Field Theory, path integrals, and non-perturbative effects in gauge theories. Recognized for his academic contributions, he has been associated with several leading institutions and has published numerous papers that continue to guide scholars in theoretical physics. His research skills encompass analytical modeling, mathematical physics, and the rigorous development of quantum systems within the scope of Quantum Field Theory, which he has emphasized repeatedly as the unifying framework of modern physics. In conclusion, Prof. Dr. Z. Haba’s enduring commitment to Quantum Field Theory establishes him as a pioneering figure whose theoretical insights continue to shape contemporary physics.

Profiles: ORCID | Google Scholar

Featured Publications

1. Albeverio, S., Haba, Z., & Francesco, R. (1996). Trivial solutions for a nonlinear two-space dimensional wave equation perturbed by space-time white noise. Stochastics: An International Journal of Probability and Stochastic Processes, 80.

2. Albeverio, S., & Haba, Z. (2001). A two-space dimensional semilinear heat equation perturbed by (Gaussian) white noise. Probability Theory and Related Fields, 121, 319–366.

3. Haba, Z. (2009). Relativistic diffusion. Physical Review E: Statistical, Nonlinear, and Soft Matter Physics, 79(2).

4. Benisty, D., Guendelman, E. I., & Haba, Z. (2019). Unification of dark energy and dark matter from diffusive cosmology. Physical Review D, 99(12), 123521.

5. Haba, Z., Stachowski, A., & Szydłowski, M. (2016). Dynamics of the diffusive DM-DE interaction–dynamical system approach. Journal of Cosmology and Astroparticle Physics, 2016(07), 024.*