Mr Qiusheng Shi | Materials Science | Best Researcher Award

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Mr Qiusheng Shi | Materials Science | Best Researcher Award

Mr. Qiusheng Shi is a dedicated postgraduate researcher at the College of Optoelectronics Engineering, Chongqing University πŸ“‘. His research focuses on smart materials, point defects, and doping mechanisms to enhance photoelectric and mechanical properties of materials for flexible sensor applications πŸ€–. His work on pentagonal-BCN materials contributes to next-generation optoelectronic devices and energy-efficient technologies ⚑. He has published in the Journal of Solid State Chemistry, demonstrating his commitment to scientific innovation πŸ“–. His expertise in materials characterization, nanotechnology, and optoelectronics positions him as a rising talent in smart material engineering 🌍.

Mr Qiusheng Shi, College of Optoelectronics Engineering, Chongqing University, China

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Education πŸŽ“

Mr. Qiusheng Shi is a graduate student at the School of Optical and Electronic Engineering, Chongqing University πŸ“‘. His research focuses on smart materials and structures, with applications in flexible electronics, sensors, and optoelectronic devices πŸ€–. He specializes in material doping, point defects, and their influence on photoelectric and mechanical properties ⚑. His academic journey has equipped him with advanced knowledge in material science, nanotechnology, and optoelectronics πŸ”¬. As an emerging researcher, he is committed to developing next-generation energy-efficient and intelligent material systems for industrial and technological advancements πŸ†.

Research and Innovations πŸ”¬

Mr. Shi’s research primarily explores doping and point defects to regulate the photoelectric and mechanical properties of pentagonal-BCN. His completed research includes:
βœ… Investigation of smart materials for flexible sensor applications πŸ€–
βœ… Study of photoelectric properties in doped materials πŸ”†
βœ… Contributions to the understanding of point defects in BCN-based materials πŸ—οΈ
βœ… Advancement of mechanical property optimization through nanostructuring βš™οΈ

His work supports the next-generation electronic and optoelectronic materials, contributing to flexible and energy-efficient device applications.

Contributions πŸ›οΈ

While Mr. Shi is an early-career researcher, his work has significant implications for flexible electronics and material applications. His contributions include:
πŸ“‘ Development of smart materials for sensor technologies
πŸ“– Enhancing understanding of BCN-based material defects
πŸ› οΈ Potential applications in energy-efficient and flexible electronics

His research lays a foundation for future innovations in material science and engineering.

Research Focus πŸ”¬

Mr. Qiusheng Shi’s research focuses on smart materials and structures, particularly in doping and point defects to regulate the photoelectric and mechanical properties of pentagonal-BCN πŸ—οΈ. His work explores novel material modifications to enhance optical, electrical, and mechanical performance for next-generation flexible sensors and optoelectronic devices πŸ“‘. Through nanostructuring and material engineering, he aims to develop energy-efficient, highly durable smart materials πŸ”†. His published work in the Journal of Solid State Chemistry highlights significant advancements in material optimization for flexible electronics, wearables, and intelligent material systems, contributing to the future of optoelectronic applications πŸ€–.

Notable Publication πŸ“š

Prof. Dr Abdelkhalek kammouni | Materials Science | Best Researcher Award

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Prof. Dr Abdelkhalek kammouni | Materials Science | Best Researcher Award

Prof. Dr. Abdelkhalek Kammouni is a leading researcher in materials science, nanotechnology, and sustainable engineering. Currently a Professor of Higher Education at Moulay IsmaΓ―l University, Morocco, he holds a Ph.D. in Materials Science from Paul CΓ©zanne University, France (2007) πŸŽ“. His expertise includes thermoelectric materials, composite materials, and advanced thin films. He has pioneered fire-resistant bio-based composites, non-destructive testing techniques, and energy-efficient material solutions βš‘πŸ—οΈ. With numerous SCI-indexed publications, international collaborations, and leadership in materials research, Prof. Kammouni’s innovations contribute to green energy, infrastructure safety, and sustainable material development πŸŒπŸ”¬. His impactful research makes him a top contender for the Best Researcher Award πŸ….

Prof. Dr Abdelkhalek kammouni, Faculty of Sciences, Morocco

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πŸŽ“ EducationΒ 

Prof. Dr. Abdelkhalek Kammouni has an extensive academic background in materials science, metallurgy, and computational modeling. He earned his Doctorate in Materials Science (2007) from Paul CΓ©zanne University, France, focusing on precipitation mechanisms and microstructural stability in TRIP steels πŸ—οΈ. In 2016, he received his Habilitation Universitaire in metallic and composite materials for environmental applications 🌱. He also holds a Master’s in Computer Science from INP Toulouse, a DiplΓ΄me d’Etudes Approfondies (DEA) in Processes and Materials from Perpignan University, and was appointed Professor of Higher Education in 2022 πŸ‘¨β€πŸ«. His diverse expertise bridges materials engineering, nanotechnology, and sustainability πŸ”¬βš‘.

πŸ‘¨β€πŸ« ExperienceΒ 

Prof. Dr. Abdelkhalek Kammouni is a permanent professor and researcher at Moulay IsmaΓ―l University, MeknΓ¨s, specializing in materials science, metallurgy, and nanotechnology πŸ—οΈ. From 2011-2017, he served as an Assistant Professor at the Γ‰cole Nationale SupΓ©rieure d’Arts et MΓ©tiers, Casablanca 🏫. He has conducted scientific research stays at IM2NP Marseille, INSA Lyon, and ENSCI Limoges (France) πŸ‡«πŸ‡·. His postdoctoral research at CP2M, France, focused on the influence of galvanization on bainitic steels. He has worked as an expert consultant for Sollac MΓ©diterranΓ©e, optimizing precipitation and microstructural properties of steels. His expertise bridges academia, industry, and advanced material characterization πŸ”¬βš‘.

πŸ“‘Research ProjectsΒ 

🌍 International Projects:
βœ… TOUBKAL Project (2025-2027, 2018-2021) – Development of bio-based fire-resistant composites in collaboration with CNRS France πŸ”₯.
βœ… Residential Research School (2024) – Research on functional nanostructured materials πŸ—οΈ.
βœ… FINCOM Project (2023, 2015) – Characterization of nanostructured materials ⚑.

πŸ›οΈ National Projects:
βœ… URL-CNRST (2020-2024) – Research on advanced materials 🏭.
βœ… UMI Project (2018-2022) – Thermal energy recycling for sustainability 🌱.

πŸ”¬ Research Focus

Prof. Dr. Abdelkhalek KammouniΒ research primarily focuses on materials characterization, microstructural analysis, and composite materials. Their work includes TEM-based local carbon concentration measurements in retained austenite, mechanical and thermal properties of natural fiber composites, and COβ‚‚ sensing using CuO/spinel thin films. They also study thermoelectric properties of Mg-Ag-Sb thin films, microalloyed steels, and historical lime mortars for self-healing properties. Their expertise spans nanomaterials, metallurgy, and environmental materials, contributing to advanced materials science for construction, aerospace, and energy applications. πŸ—οΈπŸ”¬βš‘πŸŒΏ

πŸ“š PublicationsΒ 

πŸ“– A methodology suitable for TEM local measurements of carbon concentration in retained austenite
πŸ‘¨β€πŸ”¬ Authors: A. Kammouni, W. Saikaly, M. Dumont, C. Marteau, X. Bano, A. CharaΓ―
πŸ“° Journal: Materials Characterization πŸ—οΈ (2008)

πŸ“– Effect of surface modification on morphological, mechanical, and thermal conductivity of hemp fiber: Characterization of the interface of hemp–Polyurethane composite
πŸ‘¨β€πŸ”¬ Authors: S. Sair, A. Oushabi, A. Kammouni, O. Tanane, Y. Abboud, H. F. Oudrhiri
πŸ“° Journal: Case Studies in Construction Materials 🏑 (2017)

πŸ“– COβ‚‚ sensing characteristics of CuO/Spinel thin films deposited on micro-heater
πŸ‘¨β€πŸ”¬ Authors: P. T. F. Oudrhiri-Hassani, L. Presmanes, A. Barnabe, A. Kammouni
πŸ“° Journal: Journal of Materials and Environmental Science 🌍 (2015)

πŸ“– Seebeck coefficient variations of Ξ±-MgAgSb in crystalline Mg-Ag-Sb thin films
πŸ‘¨β€πŸ”¬ Authors: N. Oueldna, A. Portavoce, M. Bertoglio, M. Descoins, A. Kammouni
πŸ“° Journal: Journal of Alloys and Compounds ⚑ (2023)

πŸ“– Investigation of historical lime mortars from the Chellah Mosque (Morocco): Mineralogical characterization and self-healing mechanisms of micro-cracks
πŸ‘¨β€πŸ”¬ Authors: N. Oulida, A. Kammouni, T. Lamhasni, M. Haddad, M. Ziani, S. A. Lyazidi
πŸ“° Journal: Construction and Building Materials πŸ›οΈ (2023)

His work spans nanomaterials, thermoelectrics, heritage conservation, and sustainable composites πŸ”₯🌱.

Prof Fanxiu Chen | Materials for Energy Applications | Best Researcher Award

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Prof Fanxiu Chen | Materials for Energy Applications | Best Researcher Award

Prof. Fanxiu Chen is a leading expert in experimental mechanics, structural health monitoring, and material characterization. She serves as a professor and doctoral supervisor, a member of the Experimental Mechanics Committee of the Chinese Mechanical Society, and a Taishan Scholar Young Expert in Shandong Province πŸ›οΈ. Her research focuses on non-contact optical sensing, concrete durability, and real-time infrastructure monitoring πŸ“‘πŸ—οΈ. With publications in Nature Communications, ScienceDirect, and Sensors and Actuators, she has revolutionized non-destructive testing and corrosion detection technologies. Her innovative contributions to smart infrastructure sensing and industrial applications make her a top candidate for the Best Researcher Award πŸ†.

Prof Fanxiu Chen, Qingdao University of Technology, China

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πŸŽ“ EducationΒ 

Prof. Fanxiu Chen earned her Doctoral Degree in Experimental Mechanics from Southeast University, Nanjing, China in 2007 πŸ›οΈ. Her academic journey has been marked by expertise in structural health monitoring, material characterization, and non-contact optical sensing πŸ”¬πŸ“‘. She is a renowned professor and doctoral supervisor, shaping the future of engineering and infrastructure safety πŸ—οΈ. As a Taishan Scholar Young Expert, she has contributed significantly to mechanical property measurement and real-time structural assessments. With a strong foundation in experimental mechanics and advanced optical techniques, she continues to pioneer innovative research in material science and engineering πŸ†.

πŸ›οΈ ExperienceΒ 

Prof. Fanxiu Chen has been a professor at Qingdao Technological University, School of Science, since 2007 πŸ“š. As a leading expert in experimental mechanics and structural health monitoring, she has played a crucial role in advancing optical sensing, material characterization, and non-destructive testing πŸ—οΈπŸ”¬. She is a doctoral supervisor and Taishan Scholar Young Expert, mentoring future researchers in mechanical property assessment and smart infrastructure technologies πŸ“‘. Her cutting-edge research and industrial collaborations have led to innovative solutions for real-time structural monitoring, significantly impacting civil engineering and materials science worldwide πŸŒπŸ†.

πŸ—οΈ Innovations & ContributionsΒ 

Prof. Fanxiu Chen has revolutionized structural health monitoring and experimental mechanics through cutting-edge technologies. Her research focuses on damage detection and durability assessment of concrete structures, securing funding from the National Natural Science Foundation and Shandong Outstanding Youth Fund πŸ’°. She developed multi-camera 3D-DIC methods πŸ“Έ, underwater non-contact camera arrays 🌊, and high-precision in-situ monitoring sensors ⚑ to track microstructural deterioration, corrosion, and stress in reinforced concrete πŸ—οΈ. Her cloud-based IoT platform enables real-time safety monitoring πŸ“‘, enhancing coastal infrastructure longevity. Her pioneering work in non-destructive testing and smart sensing makes her a leader in civil engineering innovation 🌟.

πŸ”¬ Research FocusΒ 

Prof. Fanxiu Chen specializes in structural health monitoring, experimental mechanics, and material characterization. Her research integrates non-destructive testing (NDT) methods, including X-ray computed tomography (XCT) 🩻, 3D digital image correlation (3D-DIC) πŸ“Έ, and electrochemical sensing ⚑, to assess concrete deterioration, reinforcement corrosion, and fracture mechanics. She develops real-time monitoring systems πŸ“‘ for coastal and large-scale infrastructure, focusing on cement composites, granular materials, and fiber-reinforced concrete. Her innovative optical and AI-driven sensing technologies πŸ€– enable early damage detection and predictive maintenance, ensuring safe and sustainable civil engineering structures πŸŒπŸ—οΈ.

πŸ“š PublicationsΒ 

“Effects of water-cement ratio and particle diameter on the mechanical properties of cement paste particles” – Optics and Lasers in Engineering (2025) πŸ“–
πŸ‘©β€πŸ”¬ Co-authors: Ziming Qiu, Fanxiu Chen, Yang Yu, Xiao Wang, Yuan Wang

“Structural properties and mechanical behavior of three-dimensional cylindrical particle-like systems under in situ loading” – Powder Technology (2025) πŸ’‘
πŸ‘¨β€πŸ”¬ Co-authors: Yanji Gu, Fanxiu Chen, Yang Yu, Jinglan Liu, Ziming Qiu

“Contact force calculation and evolution analysis of granular systems based on micro-CT experiment” – Acta Physica Sinica (2025) πŸ—οΈ
πŸ‘¨β€πŸ”¬ Co-authors: Xiao Wang, Shiqi Song, Zijian Ping, Xianyi Shang, Fanxiu Chen

“Real-time strain monitoring of reinforced concrete under the attacks of sulphate and chloride ions based on XCT and DIC methods” – Cement and Concrete Composites (2022) πŸ—οΈ
πŸ”¬ Co-authors: Xiaoxian Wang, Jiaping Liu, Zuquan Jin, Fanxiu Chen, Peihua Zhong, Liang Zhang
πŸ”Ž Focus: Advanced XCT and DIC methods for real-time monitoring of reinforced concrete deterioration in harsh environments.

“Prediction of Fracture Damage of Sandstone Using Digital Image Correlation” – Applied Sciences (2020) πŸ“–
πŸ”¬ Co-authors: Fanxiu Chen, Endong Wang, Bin Zhang, Liming Zhang, Fanzhen Meng
πŸ”Ž Focus: Utilizing DIC techniques to predict and analyze fracture damage in sandstone structures under stress conditions.

Her innovative research significantly impacts non-destructive testing, concrete durability, and material damage prediction πŸ”¬πŸ—οΈ.