Zakaria Ziani | Nanophotonics and Nanoelectronics | Research Excellence Award

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Assist. Prof. Dr. Zakaria Ziani | Nanophotonics and Nanoelectronics | Research Excellence Award

Assistant Professor | University of Paris Cité / Laboratory of Interfaces, Treatments, Organization and Dynamics of Systems (ITODYS) | France

Assist. Prof. Dr. Zakaria Ziani is an emerging scientist in molecular electronics, photoactive materials, and hybrid nanostructures, recognized for advancing the design and photochemical control of functional molecular systems. With 86 citations, an h-index of 6, and an i10-index of 2, his growing research influence is supported by 12 peer-reviewed publications in leading journals, including Journal of the American Chemical Society, Angewandte Chemie, Nanoscale, Small, iScience, and Chemistry-A European Journal. His work spans π-conjugated systems, dimethyldihydropyrene-based photoswitches, redox-active complexes, quantum dots, spin-crossover materials, and hybrid semiconductive nanostructures, emphasizing photochemical reactivity, charge-transport mechanisms, and optoelectronic tunability. Assist. Prof. Dr. Zakaria Ziani has contributed notable advances in visible-light photoswitching, singlet oxygen storage, quantum-dot–assisted photoisomerization, and electron-transfer-induced structural transformations. His findings have shaped fundamental understanding of nanoscale electronic processes and enabled new platforms for optical modulation, molecular sensing, and photoresponsive devices. He has been involved in major research projects such as ANR ORGA-PLAS-MIP and ANR CALOMEL, focusing on plasmonic nanostructures, molecular imprinting, and redox-engineered coordination systems. His research excellence has been recognized through the Grenoble Alpes University Academic Thesis Prize and scientific communication awards, alongside service as a reviewer, presenter, and contributor in international research communities.

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Featured Publications

Sajida Nawaz | Nanoscale Characterization | Best Researcher Award

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Ms. Sajida Nawaz | Nanoscale Characterization | Best Researcher Award

PHD Scholar | University of Engineering and Technology (UET) | Pakistan

Ms. Sajida Nawaz is a Ph.D. scholar in Physics (Nanoscience and Nanotechnology) at the University of Engineering and Technology (UET), Lahore, Pakistan. Her research focuses on nanotechnology, biomaterials, and material sciences, emphasizing the synthesis and application of nanostructured materials for biomedical, environmental, and energy-related innovations. She has made notable contributions to the development of nanomedicines, nanofibers, and nanoparticles through advanced techniques such as electrospinning, electrospraying, and laser–matter interaction studies. Her doctoral research investigates the physicochemical properties of essential oil–loaded nanoparticles designed for biocontrol and therapeutic applications against ixodid ticks, integrating eco-friendly and sustainable nanotechnology approaches. She has authored and co-authored several peer-reviewed journal articles, including studies on the biocompatibility of doped magnetite nanoparticles for magnetic hyperthermia, the biocontrol potential of nanoencapsulated essential oils crosslinked with chitosan, and laser surface modification of polymeric materials. Her works are published in reputable journals such as Applied Physics A and Colloids and Surfaces A: Physicochemical and Engineering Aspects. Ms. Sajida Nawaz has presented her research at international conferences and workshops, including events organized by the American Chemical Society (ACS) and UET Lahore. Her research excellence has been recognized through the Higher Education Commission’s International Research Support Initiative Program (IRSIP), under which she conducted collaborative research at the National University of Singapore’s Center for Nanotechnology & Sustainability.With 7 citations, 3 indexed documents, and an h-index of 2 on Scopus, Ms. Sajida Nawaz continues to advance interdisciplinary research in nanobiotechnology, sustainable material design, and surface engineering. Her future work aims to expand innovative nanomaterial formulations for healthcare and environmental sustainability, contributing to the growing field of applied nanoscience and green nanotechnology.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

1. Nawaz, S., Shamaila, S., Oneeb, M., Hassan, J. U., Ahmad, S., & Ramakarshina, S. (2025). Biocontrol potential of nano-encapsulated essential oil crosslinked with chitosan nanoparticles against tick-borne diseases. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 720, 137166.

2. Hassan, J. U., Shahzadi, S., Waheed, F., Nawaz, S., Sharif, R., Riaz, S., & Ban, D. (2024). Synthesis, characterization, and biocompatibility of pure and doped magnetite nanoparticles for magnetic hyperthermia in cancer treatment. Applied Physics A, 130(9), 635.

3. Nawaz, S., Shahzadi, S., Hassan, J. U., Zhao, H., Sharif, R., & Ban, D. (2025). Nanosecond laser processing of common industrial polymers: Surface characterization and morphological changes. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms.

4. Ahmad, M. O. S., Lateef, M., Ijaz, M., Siddique, M. I., & Nawaz, S. (2025). Larvicidal and repellent effects of nano-encapsulated Mentha piperita essential oil against Rhipicephalus microplus. Ticks and Tick-Borne Diseases (TTBDs).

5. Niamat, M. N. T., Azeem, W., Imtiaz, S., Nawaz, S., & Ilyas, K. (2024). ITSM applications within selected logistics and transport. Pakistan Journal of Scientific Research (PJOSR), 4.

Jianwei Chen | Nanophotonics and Nanoelectronics | Best Researcher Award

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Dr. Jianwei Chen | Nanophotonics and Nanoelectronics | Best Researcher Award

Lecturer | Zhejiang Ocean University | China

Dr. Jianwei Chen is a dedicated researcher and lecturer at Zhejiang Ocean University, China, whose work focuses on the development of micro- and nanostructured electronic and photonic devices based on van der Waals (vdW) two-dimensional materials. His research contributes to the advancement of terahertz focal plane array devices and the engineering of high-performance heterostructures for next-generation optoelectronic technologies. With 123 citations, 9 publications, and an h-index of 6, Dr. Jianwei Chen has made impactful contributions to materials science and applied physics. His recent works published in reputed journals such as Materials Today Physics and ACS Applied Materials & Interfaces explore the design, modulation, and optimization of vdW 2D material interfaces and heterostructures, establishing a foundation for their practical use in terahertz imaging and advanced photonics. Earlier in his career, his studies on calcium alumino-titanate and bauxite–SiC composites significantly contributed to the understanding of microstructural control and mechanical performance in ceramic refractories. Dr. Jianwei Chen’s ongoing research integrates electronic engineering, material science, and device physics, emphasizing innovative interface engineering and controlled synthesis of high-quality bubble-free conducting vdW heterostructures. His contributions are recognized through distinctions such as the Outstanding Master’s Thesis Award by the China Society of Metallurgical Education (2020). He actively participates in research collaborations and academic dissemination, promoting advancements in nano-optoelectronics and 2D materials-based device fabrication. His scholarly output reflects a commitment to bridging fundamental research with functional device applications, particularly in terahertz imaging and nanophotonics, aligning with global trends in advanced material innovation and device miniaturization.

Profiles: Scopus | ORCID

Featured Publications

  • Chen, J., Guo, Y., Su, Y., et al. (2025). Interface interaction, design, modulation, and optimization of van der Waals two-dimensional materials. Materials Today Physics, 58, 101878.

  • Chen, J., Liu, L., Chen, H., et al. (2024). Controlled preparation of high-quality bubble-free and uniform conducting interfaces of vertical van der Waals heterostructures of arrays. ACS Applied Materials & Interfaces, 16, 10877–10885.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Effect of partial substitution of calcium alumino-titanate for bauxite on the microstructure and properties of bauxite-SiC composite refractories. Ceramics International, 44, 2934–2940.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Effect of the calcium alumino-titanate particle size on the microstructure and properties of bauxite-SiC composite refractories. Ceramics International, 44, 6564–6572.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Sintering and microstructure characterization of calcium alumino-titanate-bauxite-SiC composite refractories. Ceramics International, 44, 10934–10939.

 

Noureddine Bouras | Nanobiotechnology | Excellence in Research Award

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Prof. Dr. Noureddine Bouras | Nanobiotechnology | Excellence in Research Award

Lecturer | University of Ghardaia | Algeria

Prof. Dr. Noureddine Bouras is a distinguished microbiologist whose research focuses on actinobacteria biodiversity, microbial biotechnology, and the discovery of novel bioactive compounds from Saharan ecosystems. With over 2,300+ citations, an h-index of 28, and more than 100 published documents, his scholarly work has significantly advanced microbial taxonomy, antibiotic biosynthesis, and environmental microbiology. Prof. Dr. Noureddine Bouras has contributed to the identification and classification of numerous new microbial taxa from Algerian Saharan soils, expanding the global taxonomic database with over twenty novel species and genera within Actinopolyspora, Saccharothrix, Nocardiopsis, Streptosporangium, and Actinomadura. His pioneering studies on Saccharothrix algeriensis elucidated the regulation and biosynthesis of dithiolopyrrolone antibiotics, influencing new bioprocess engineering strategies for natural product development. His research integrates microbial genomics, bioinformatics, and secondary metabolite profiling to explore bioactive molecules with antimicrobial, antifungal, and plant growth-promoting properties. He has authored influential works in high-impact journals such as Journal of Natural Products, PLOS ONE, Food and Chemical Toxicology, and Current Microbiology, and co-authored multiple scientific books on microbiology and bioresource utilization. Prof. Dr. Noureddine Bouras has led and collaborated in several national and international R&D and funding projects, notably under the Algerian PNR program, focusing on biotechnological valorization of desert microbial resources. His expertise extends to applied microbiology, biocontrol, and biosynthesis of nanoparticles for antimicrobial applications. Recognized for his extensive contributions, he serves as reviewer and editorial board member for numerous peer-reviewed journals and has presented research in global scientific forums. His innovations in microbial taxonomy, antibiotic biosynthesis, and sustainable biotechnology position him as a leading figure in North African microbial research and global actinobacterial systematics.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | AD Scientific Index

Featured Publications

1. Riba, A., Bouras, N., Mokrane, S., Mathieu, F., Lebrihi, A., & Sabaou, N. (2010). Aspergillus section Flavi and aflatoxins in Algerian wheat and derived products. Food and Chemical Toxicology, 48(10), 2772–2777.

2. Bouras, H. D., Yeddou, A. R., Bouras, N., Hellel, D., Holtz, M. D., & Sabaou, N., et al. (2017). Biosorption of Congo red dye by Aspergillus carbonarius M333 and Penicillium glabrum Pg1: Kinetics, equilibrium and thermodynamic studies. Journal of the Taiwan Institute of Chemical Engineers, 80, 915–923.

3. Bouras, H. D., Isik, Z., Arikan, E. B., Yeddou, A. R., Bouras, N., Chergui, A., Favier, L., & Sabaou, N. (2021). Biosorption characteristics of methylene blue dye by two fungal biomasses. International Journal of Environmental Studies, 78(3), 365–381.

4. Kim, Y. M., Bouras, N., Kav, N. N. V., & Strelkov, S. E. (2010). Inhibition of photosynthesis and modification of the wheat leaf proteome by Ptr ToxB: A host‐specific toxin from the fungal pathogen Pyrenophora tritici‐repentis. Proteomics, 10(16), 2911–2926.

5. Meklat, A., Bouras, N., Zitouni, A., Mathieu, F., Lebrihi, A., Schumann, P., & Sabaou, N. (2012). Actinopolyspora algeriensis sp. nov., a novel halophilic actinomycete isolated from a Saharan soil. Extremophiles, 16(5), 771–776.

 

Assem Thabet | Nanosensors and Actuators | Best Scholar Award

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Prof. Dr. Assem Thabet | Nanosensors and Actuators | Best Scholar Award

Director of Studies, Research Lab MACS, University of Gabes, Tunisia

Prof. Dr. Assem Thabet is a distinguished researcher in Electrical Engineering, with a focus on Automatic Control, Industrial Computing, and Cyber–Physical Systems. His research bridges advanced control theory, system modeling, artificial intelligence, and renewable energy integration. A key area of his expertise lies in state estimation, nonlinear dynamic system control, and reciprocal state representation, where he has made notable theoretical and applied contributions. His recent book, The Reciprocal State Representation: Some Elements for the Control of Nonlinear Dynamic Systems (ISTE Group Editions, 2025), encapsulates innovative methodologies for enhancing system controllability and observer design in nonlinear environments. Prof. Dr. Assem Thabet’s research activities span multiple international collaborations across Tunisia, France, Canada, India, Italy, Algeria, and Spain, contributing to projects on AI-driven resource management, hybrid renewable energy systems, bio-inspired robotics, and smart grid optimization. His work often integrates machine learning with estimation and control theory, applying hybrid computational models to achieve system resilience under uncertain and cyber-threatened environments. With over 50 scientific publications, including 15+ papers in indexed international journals, 15+ international conference papers, and several book chapters, his scholarly influence is well-established. His studies on observer-based control, event-triggered mechanisms, and cyber-attack detection in industrial and power systems reflect his ongoing pursuit of intelligent and secure automation. Prof. Dr. Assem Thabet’s research output has garnered 125 citations across 32 documents, with an h-index of 7, reflecting the growing recognition of his scientific impact. His most recent works—such as Cyber-Attack Detection Strategy with Markovian Distribution Logic in Cyber-Physical Systems and Event-Triggered Observer-Based Control for Enhancing Resilience under Markovian Cyberattacks-demonstrate a deep engagement with contemporary challenges in resilient control and cyber-physical system security. Through his integrative and interdisciplinary approach, Prof. Dr. Assem Thabet continues to advance the frontier of intelligent control systems and sustainable automation technologies.

Profile: Scopus | ORCID | ResearchGate | Sci Profiles | IEEE Xplore | Academia | Web of Science

Featured Publications

  1. Thabet, A., Hassine, E., Gasmi, N., & Bel Haj Frej, G. (2025). Design and real-time application of explicit model-following techniques for nonlinear systems in reciprocal state space. Electronics, 14(20), 4089.

  2. Hassine, E., Thabet, A., Gasmi, N., & Bel Haj Frej, G. (2025). An event-triggered observer-based control approach for enhancing resilience of cyber–physical systems under Markovian cyberattacks. Actuators, 14(8), 412.

  3. Thabet, A., Bel Haj Frej, G., Gasmi, N., Mansouri, K., & Chauveau, E. (2022). State and output feedback control for Lipschitz nonlinear systems in reciprocal state space: Synthesis and real-time validation. Bulletin of Electrical Engineering and Informatics, 11(5), 2702–2712.

  4. Gasmi, N., Boutayeb, M., Thabet, A., Bel Haj Frej, G., & Aoun, M. (2021). Robust control of a class of nonlinear discrete-time systems: Design and experimental results on a real-time emulator. Actuators, 10(11), 303.

  5. Hassine, E., Thabet, A., Gasmi, N., Bel Haj Frej, G., & Metoui, B. (2023). Cyber-attack tolerant control of complex interconnected systems: Output feedback stabilization approach. In Proceedings of the 2023 IEEE International Workshop on Mechatronics Systems Supervision (IW_MSS 2023) (pp. 1–5). IEEE.