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.

Sarra Senouci | Engineering | Editorial Board Member

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Mrs. Sarra Senouci | Engineering | Editorial Board Member

Sarra Senouci | University of Electronic Science and Technology of China | Algeria

Mrs. Sarra Senouci is an active contributor to contemporary Engineering research, recognized for her commitment to advancing scholarly inquiry and strengthening collaborative scientific networks. Her work reflects a rigorous approach to Engineering challenges, integrating analytical methodologies with practical applications that support innovation across multiple Engineering domains. Mrs. Sarra Senouci has contributed to the broader Engineering community through focused research outputs that highlight both technical depth and interdisciplinary relevance. Her publications demonstrate a clear engagement with emerging Engineering problems, addressing key gaps and offering solutions that align with global priorities in Engineering development, sustainability, and technological advancement. Throughout her professional journey, Mrs. Sarra Senouci has participated in collaborative initiatives that enhance the visibility and applicability of Engineering research. Her scholarly activities reinforce the importance of Engineering as a driver of societal progress, with particular emphasis on structured problem-solving and evidence-based approaches. By contributing to peer-reviewed scientific work, she supports the continuous growth of Engineering knowledge and the dissemination of high-quality research findings. Her academic presence underscores a dedication to Engineering excellence, methodological precision, and constructive international collaboration. Mrs. Sarra Senouci’s research interests intersect with multiple branches of Engineering, allowing her to engage with diverse scientific communities and contribute meaningfully to multidisciplinary Engineering dialogues. Her work aligns with global standards in Engineering innovation, reflecting a strong orientation toward impactful research that supports technological and societal advancement. As a researcher, she emphasizes integrity, analytical clarity, and a sustained commitment to Engineering-driven solutions that benefit both academic and industrial ecosystems. Her contributions continue to reinforce the role of Engineering as a foundational pillar of modern scientific progress. Google Scholar profile of 4 Citations, 1 h-index, 0 i10-index.

Profile: Google Scholar

Featured Publications

1. Senouci, S., Madoune, S. A., Senouci, M. R., Senouci, A., & Tang, Z. (2025). A novel PRNG for fiber optic transmission. Chaos, Solitons & Fractals, 192, 116038.

2. Madoune, S. A., Senouci, S., Dingde, J., & Senouci, A. (2024). Deep convolutional neural network-based high-precision and speed DDOS detection in SDN environments. In 2024 21st International Computer Conference on Wavelet Active Media.

3. Madoune, S. A., Senouci, S., Setitra, M. A., & Dingde, J. (2024). Toward robust DDOS detection in SDN: Leveraging feature engineering and ensemble learning. In 2024 21st International Computer Conference on Wavelet Active Media.

4. Madoune, S. A., Senouci, S., De Jiang, D., Senouci, M. R., Daoud, M. A., & others. (2025). A novel approach for real-time DDoS detection in SDN using dimensionality reduction and ensemble learning. Journal of Information Security and Applications, 94, 104195.

5. Senouci, S., Madoune, S. A., Senouci, M. R., Senouci, A., & Zhangchuan, T. (2024). A new chaotic based cryptographically secure pseudo random number generator. In 2024 21st International Computer Conference on Wavelet Active Media.

Almara Aliyeva | Nanotechnology | Editorial Board Member

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Ms. Almara Aliyeva | Nanotechnology | Editorial Board Member

Researcher | Baku State University | Azerbaijan

Ms. Almara Aliyeva is a distinguished researcher whose work demonstrates sustained excellence in Nanotechnology and its diverse scientific applications. Her contributions reflect a deep commitment to advancing Nanotechnology through rigorous investigation, multidisciplinary collaboration, and impactful scholarly output. She has authored numerous publications in reputable journals and has accumulated significant citations that highlight the relevance and influence of her research within the global Nanotechnology community. Through her extensive engagement in projects and collaborative initiatives, Ms. Almara Aliyeva has positioned herself as a respected figure in Nanotechnology research, contributing to scientific progress and technological innovation. Her research activities integrate Nanotechnology with advanced materials development, experimental analysis, and emerging scientific methodologies. This ongoing commitment has strengthened the role of Nanotechnology in solving complex scientific challenges and supporting the development of high performance materials that contribute to technological progress. Her involvement in collaborative research teams further enhances the reach of Nanotechnology by fostering knowledge exchange and encouraging new scientific perspectives. These efforts have enabled her to participate in impactful research that supports societal advancement through Nanotechnology based solutions and innovations. Ms. Almara Aliyevacontinuously contributes to the scientific community through active participation in academic discussions, peer review engagements, and interdisciplinary partnerships. Her work demonstrates the transformative potential of Nanotechnology in modern research environments and emphasizes the importance of integrating Nanotechnology into broader scientific and technological frameworks. Her scholarly activities and contributions strengthen the global understanding of Nanotechnology and reinforce its value in addressing scientific, environmental, and industrial challenges. Through her dedication, Ms. Almara Aliyeva remains an influential contributor to the advancement of Nanotechnology and its expanding role in contemporary research.

Profile: SciProfiles

Featured Publication

1. Rahimli, A., & Jafarov, M. (2025). Effect of nanoparticle concentration on the crystallinity, vibrational dynamics and morphology of PS/TiO₂ nanocomposites. Physical Chemistry Chemical Physics.

2. Rahimli, A., & Jafarov, M. (2025). Effect of nanoparticle concentration on the crystallinity, vibrational dynamics, and morphology of PS/TiO₂ nanocomposites. Physics of the Solid State.

Mohammadmahdi Negaresh | Engineering | Editorial Board Member

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Mr. Mohammadmahdi Negaresh | Engineering | Editorial Board Member

Polymer Researcher | Amirkabir University of Technology | Iran

Mr. Mohammadmahdi Negaresh is an accomplished researcher whose work reflects a strong commitment to Engineering innovation, Engineering advancement, and Engineering oriented problem solving across multidisciplinary research environments. His contributions demonstrate a sophisticated understanding of Engineering principles, with a focus on developing solutions that support scientific progress and practical applications. His scholarly outputs highlight a consistent engagement with Engineering methodologies, and his collaborations underscore the value he brings to collective scientific endeavors in Engineering driven fields. As an active contributor to high quality publications, he has authored multiple Engineering related studies that extend technical knowledge and strengthen global research dialogue. His work represents a meaningful intersection of Engineering practice and scientific inquiry, emphasizing analytical depth, research precision, and purposeful academic direction. Through his involvement in impactful collaborative projects, he demonstrates how Engineering insights can enhance societal development, industrial capability, and technological growth. His research contributions show continued refinement of Engineering concepts applied to real world challenges, offering clear evidence of professional dedication and scholarly integrity. With an established record of publications and citations within reputable academic sources, he remains a recognized contributor whose work promotes Engineering excellence and Engineering based solutions with sustained relevance. His scientific engagement reflects a strong alignment with international research standards, reinforcing the importance of Engineering competence within collaborative networks and research communities. His ability to integrate Engineering knowledge with emerging research themes demonstrates both academic maturity and technical expertise. This professional profile positions him as a valuable figure who continues to support the progression of Engineering scholarship and its broader societal impacts with clarity, quality, and commitment. Scopus profile of 15 Citations, 4 Documents, 3 h index.

Profile: Scopus

Featured Publication

1. Poly(lactic acid)/poly(ε-caprolactone) blends: Separate effects of nanocalcium carbonate and glycidyl methacrylate on interfacial characteristics. Journal of Thermoplastic Composite Materials. (2024).

Assoc. Prof. Dr Elnaz Khodapanah | Engineering | Editorial Board Member

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Assoc. Prof. Dr Elnaz Khodapanah | Engineering | Editorial Board Member

Associate Professor | Sahand University of Technology | Iran

Assoc. Prof. Dr Elnaz Khodapanah reflects a distinguished record of contributions shaped by sustained commitment to Engineering research, Engineering innovation, and Engineering-driven societal advancement. As an active scholar in the global Engineering community, Assoc. Prof. Dr Elnaz Khodapanah has established a strong research footprint through impactful studies that integrate Engineering principles with applied scientific inquiry, resulting in high-quality outputs recognized across international platforms. Her body of work demonstrates consistent engagement with multidisciplinary Engineering collaborations, leading to publications that advance methodological rigor and strengthen the broader relevance of Engineering solutions for contemporary challenges. Through productive partnerships with research teams and institutional networks, she has expanded the scope and visibility of Engineering knowledge, with her publications receiving meaningful scholarly attention aligned with the evolving frontiers of Engineering practice. Her research contributions reflect a commitment to bridging theoretical Engineering foundations with practical outcomes that yield long-term societal value. The scholarly influence of Assoc. Prof. Dr Elnaz Khodapanah continues to grow through active participation in Engineering communities, strategic involvement in collaborative Engineering projects, and sustained dissemination of high-impact findings that reinforce the essential role of Engineering in global scientific progress. Her contributions exemplify the intellectual depth, professional integrity, and forward-looking perspective expected within the international Engineering landscape, ensuring continued impact across multiple domains enriched by Engineering excellence. Presented in alignment with recognized academic standards, her professional influence is further reflected through the Scopus profile of 570 Citations, 43 Documents, 13 h-index.

Profile: Scopus

Featured Publications

1. Experimental investigation of silica nanoparticle morphology on interfacial properties, diffusion behavior, and oil recovery in carbonate reservoirs: Insights into spherical and rod-shaped particles. Journal of Molecular Liquids. (2025).

2. An evaluation of the viscoelastic properties of nanosized preformed particle gels. ACS Omega. (2025)

3. Comprehensive review of hybrid chemical enhanced oil recovery methods: synergistic mechanisms, applications, and insights into chemical-based water alternating gas techniques. (2025).

4. Evaluation of nanosilica morphology: Effects on nanofluid stability and interaction with carbonate rock surfaces. Journal of Cluster Science. (2024).

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)

Assoc. Prof. Dr. Longxiang Liu | Photonuclear Physics | Excellence in Innovation

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Assoc. Prof. Dr. Longxiang Liu | Photonuclear Physics | Excellence in Innovation

Associated Researcher | Shanghai Advanced Research Institute | China

Assoc. Prof. Dr. Longxiang Liu is a distinguished researcher whose work in Photonuclear Physics has significantly advanced experimental nuclear science and precision measurement studies. His sustained contributions to Photonuclear Physics reflect a strong command of detector development, beamline optimization, and advanced spectrometry. His research in Photonuclear Physics has supported the design and enhancement of major synchrotron and gamma source facilities, where he has consistently demonstrated leadership in collaborative scientific programs. Through active participation in numerous national research projects, he has strengthened the role of Photonuclear Physics in understanding reaction mechanisms, photon induced processes, and nuclear structure behavior. His publications highlight impactful findings in Photonuclear Physics, including precise cross section measurements, high fidelity radiation response modeling, and data driven approaches to photon based nuclear interactions. He has contributed to the development of critical instrumentation that supports Photonuclear Physics experiments, including spectrometers, automatic data acquisition systems, and detector calibration procedures. His collaborative work with multidisciplinary teams further expands the reach of Photonuclear Physics into applications such as isotope production, nuclear safety analysis, and advanced imaging methods. The influence of his research is evident through his numerous peer reviewed papers, patents, and contributions to facility level scientific advancements. As an active contributor to Photonuclear Physics communities, he continues to foster research environments that emphasize innovation, methodological rigor, and scientific impact. His work demonstrates how Photonuclear Physics can serve both fundamental discovery and practical technological development, positioning him as a key figure in this evolving field. His growing citation record and research collaborations illustrate the expanding global relevance of his findings and his commitment to strengthening Photonuclear Physics as a core pillar of nuclear science. Scopus profile of 945 Citations, 73 Documents, 16 h-index.

Profile: Scopus

Featured Publications

1. Authors. (2026). Direct unfolding determination of energy spectra using a LaBr₃ detector for SLEGS. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.

2. Authors. (2026). PCSa: A tool for photoneutron cross section measurement data analysis at SLEGS. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.

3. Authors. (2025). A substitution measurement for cross section of 65Cu(γ, n)64Cu reaction using natCu and 63Cu targets by quasi-monoenergetic γ beams at SLEGS. Nuclear Science and Techniques.

4. Authors. (2025). Photoneutron cross-section data generation and analysis at the Shanghai laser electron gamma source. Nuclear Science and Techniques.

5. Authors. (2025). Experimental extraction of neutron resonance parameters at 20–300 eV for 147,149Sm. Nuclear Science and Techniques.

Prof. Dr. Yangwon Lee | Satellite Remote Sensing | Research Excellence Award

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Prof. Dr. Yangwon Lee | Satellite Remote Sensing | Research Excellence Award

Professor | Pukyong National University | South Korea

Prof. Dr. Yangwon Lee is a distinguished scholar whose work in Satellite Remote Sensing has contributed significantly to the advancement of environmental monitoring and geospatial intelligence. His research integrates Satellite Remote Sensing with artificial intelligence to address critical challenges related to hydrology, agriculture, forestry, meteorology, marine environments, and disaster assessment. Prof. Dr. Yangwon Lee has produced influential studies utilizing Satellite Remote Sensing for flood estimation, soil moisture retrieval, reservoir storage prediction, wildfire detection, marine oil spill monitoring, and atmospheric data gap filling. His extensive publication record demonstrates strong expertise in Satellite Remote Sensing applications that blend machine learning, deep learning, and transformer-based models to extract high quality insights from diverse satellite platforms. Through collaborations across multidisciplinary domains, he has advanced practical uses of Satellite Remote Sensing in real time monitoring, ecological conservation, and sustainable resource management. Prof. Dr. Yangwon Lee has consistently demonstrated leadership in developing automated systems that enhance the accuracy, efficiency, and reliability of Satellite Remote Sensing analytics. His work has strengthened scientific understanding of climate related processes and improved decision making frameworks for environmental agencies through the integration of Satellite Remote Sensing data with meteorological variables and digital elevation models. By expanding methodological innovations in Satellite Remote Sensing, he has contributed to the creation of scalable models that support national and international research communities. The societal relevance of his work is reflected in its direct application to disaster preparedness, agricultural productivity, coastal protection, and environmental restoration efforts where Satellite Remote Sensing plays a central role in timely data driven assessments. Prof. Dr. Yangwon Lee continues to influence the global scientific landscape through impactful publications, sustained research productivity, and progressive approaches to complex environmental challenges empowered by Satellite Remote Sensing. Presented with professional clarity Scopus profile of 1058 Citations, 169 Documents, 15 h index.

Profiles: ORCID | Scopus

Featured Publications

1. Machine Learning-Based Near-Real-Time Monitoring of Wildfire Spread Extent Using GK2A and VIIRS. (2025). Korean Journal of Remote Sensing.

2. Semiautomated sedimentary type classification of seamounts in the Western Pacific using deep-sea camera images. (2025). Geosciences Journal.

3. An optimized LNA utilizing MGA for high performance 24 GHz radar applications. (2025). Analog Integrated Circuits and Signal Processing.

4. Estimation of flood inundation area using Soil Moisture Active Passive fractional water data with an LSTM model. (2025). Sensors.

5. An adaptive 24 GHz PSO-based optimized VCO in next-generation wireless sensor networks. (2025). Applied Sciences.

Prof. Dr. Xianming Zhou | Molecular Physics | Research Excellence Award

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Prof. Dr. Xianming Zhou | Molecular Physics | Research Excellence Award

Professor | Xianyang Normal University | China

Prof. Dr. Xianming Zhou  is a distinguished scholar recognized for his extensive contributions to molecular physics and related branches of advanced physical sciences. Serving as Deputy Director of a leading Ion-Beam and Optical Physics Laboratory, he has established a strong research profile marked by high-impact publications, interdisciplinary collaborations, and sustained contributions to fundamental and applied molecular physics. His work spans particle physics, high-charge ion physics, atomic interactions, radiation processes, and the complex behaviour of matter under extreme conditions, all consistently grounded in the principles and analytical frameworks of molecular physics. Prof. Dr. Xianming Zhou has authored numerous publications in respected international journals, contributing significantly to the global understanding of ion-matter interactions and the evolution of precision measurement approaches derived from molecular physics. His research outputs include more than two dozen peer-reviewed articles, demonstrating a strong record of innovation, methodological advancement, and scholarly rigour. Many of his studies are frequently cited and positioned at the forefront of contemporary research in molecular physics, high-charge ion dynamics, and atomic collision phenomena. Throughout his research career, Prof. Dr. Xianming Zhou has collaborated with experts across major scientific institutes and laboratories, enhancing the global visibility of his contributions. His investigations often integrate experimental and theoretical tools, extending the reach of molecular physics into frontier areas such as X-ray emission mechanisms, electron behaviour in extreme environments, and the broader physics of energetic ions. His leadership roles have further strengthened the development of research programmes grounded in molecular physics, supporting emerging scholars and facilitating high-level scientific cooperation. The societal impact of his work is reflected in its relevance to advanced instrumentation, materials analysis, radiation science, and precision technologies, where molecular physics remains central to innovation. Prof. Dr. Xianming Zhou continues to influence the international research community through his sustained commitment to molecular physics, his capacity for scientific leadership, and his enduring contributions to the advancement of modern physics.

Profile: ORCID

Featured Publications

1. Zhou, X.-M., Wei, J., Cheng, R., Liang, C.-H., Chen, Y.-H., Zhao, Y.-T., & Zhang, X.-A. (2023). K-shell X-ray of Al produced by collisions of ions with near Bohr velocities. Acta Physica Sinica, 72.

2. Zhou, X., Wei, J., Cheng, R., Zhang, Y., Zhang, Y., Chen, Y., Zhang, X., & Zhao, Y. (2023). L-shell X-ray production cross sections in 50Sn by 100 keV–300 keV protons. Radiation Physics and Chemistry, 110789.

3. Liang, C., Zhang, X., Zhou, X., Zhao, Y., Cheng, R., & Xiao, G. (2023). 96_42Mo L-shell X-ray production cross sections by 2.0–6.0 MeV 15263Eu ions. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms.

4. Zhou, X.-M., Wei, J., Cheng, R., Mei, C.-X., Zeng, L.-X., Wang, X., Liang, C.-H., Zhao, Y.-T., & Zhang, X.-A. (2022). W L-shell X-ray emission induced by C⁶⁺ ions with several hundred MeV/u. Acta Physica Sinica, 70.

5. Zhou, X., Wei, J., Cheng, R., Zhang, Y., Chen, Y., Liang, C., Zhang, X., & Zhao, Y. (2022). Au L-shell X-ray emission induced by 154.3–423.9 MeV/u C⁶⁺ ions. Scientific Reports.

Dr. Muhammad Ahsan | Mathematics | Research Excellence Award

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Dr. Muhammad Ahsan | Mathematics | Research Excellence Award

Assistant Professor | University of Swabi | Pakistan

Dr. Muhammad Ahsan is a distinguished scholar in Mathematics, recognized for his influential contributions to applied Mathematics, computational Mathematics, and numerical methods. His research spans high-order wavelet collocation techniques, multi-resolution algorithms, and advanced modeling approaches that address complex challenges in science and engineering through the rigorous application of Mathematics. As an active researcher in the global Mathematics community, he has authored more than thirty peer-reviewed publications in leading international journals, demonstrating consistent excellence in theoretical and computational Mathematics. Dr. Muhammad Ahsan has built a strong reputation for advancing innovative  methodologies in Mathematics, particularly in the areas of differential equations, inverse problems, nonlinear systems, and wavelet-based numerical frameworks. His collaborative work with researchers from multiple countries reflects his commitment to expanding the frontiers of Mathematics through interdisciplinary engagement. His impactful publications, extensive citation record, and sustained research productivity underscore the importance of his contributions to applied Mathematics and strengthen the global relevance of his work. In addition to his research achievements, he has played a pivotal role in academic leadership, contributing to institutional development, departmental responsibilities, and scholarly review activities for numerous international journals in Mathematics. His mentorship of graduate and undergraduate students further reflects his dedication to nurturing the next generation of professionals in Mathematics. Through his continuous pursuit of high-quality research, dedication to international collaboration, and commitment to advancing Mathematics, Dr. Muhammad Ahsan exemplifies scholarly excellence and global academic impact. His work remains a valuable asset to the broader scientific community, reinforcing the essential role of Mathematics in addressing modern scientific and technological challenges. Scopus profile of 591 Citations, 37 Documents, 16 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. High-order wavelet-based numerical algorithms for nonlinear singular Lane–Emden–Fowler equations: Applications to physical models in astrophysics. (2026). Astronomy and Computing.

2. A high-order Haar wavelet approach to solve differential equations of fifth-order with simple, two-point and two-point integral conditions. (2026). Applied Numerical Mathematics.

3. Enhanced resolution in solving first-order nonlinear differential equations with integral condition: A high-order wavelet approach. (2025). European Physical Journal Special Topics.