Rajab Abousnina | Sustainable Materials | Research Excellence Award

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Dr. Rajab Abousnina | Sustainable Materials | Research Excellence Award

lecturer | Curtin University | Australia

Dr. Rajab Abousnina is an accomplished researcher in civil and environmental engineering, with recognized expertise in sustainable construction materials, geopolymer concrete, waste-based materials, 3D concrete printing, composite materials, structural health monitoring, and wastewater treatment technologies. His research portfolio demonstrates strong interdisciplinary impact, addressing carbon reduction, resource efficiency, and infrastructure durability through innovative use of industrial by-products and advanced material systems. He has published extensively in high-quality international journals and book chapters, contributing to both fundamental understanding and applied engineering solutions, with over 1,400 citations and an h-index of 22, reflecting sustained scholarly influence. His work is characterized by active international collaborations with universities, research centers, industry partners, and government agencies across Australia, the Middle East, Europe, and Asia, strengthening global knowledge exchange. Beyond academia, his research outcomes support societal and industrial needs, including sustainable infrastructure, environmental protection, and circular economy practices, positioning his contributions as both scientifically rigorous and socially impactful

Citation Metrics (Scopus)

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Citations
1,043

Documents
42

h-index
19


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Top 5 Featured Publications

Rajab Abousnina | Sustainable Materials | Research Excellence Award

Posted on by Civil Engineering Awards

Dr. Rajab Abousnina | Sustainable Materials | Research Excellence Award

Lecturer | Curtin University | Australia

Dr. Rajab Abousnina is a researcher in civil and environmental engineering with a strong focus on sustainable construction materials and infrastructure technologies. His research expertise spans geopolymer concrete, waste-based materials, 3D concrete printing, composite materials, and structural health monitoring. A significant part of his work addresses carbon reduction in construction through the use of industrial by-products, alternative binders, and low-cost activators. He has led and contributed to numerous projects on oil-contaminated materials, recycled aggregates, and advanced cementitious systems, linking material innovation with durability and environmental performance. His research also extends to membrane technologies and wastewater treatment, particularly in the context of oily and produced water. With extensive experience in experimental testing, microstructural analysis, and applied engineering solutions, his work has resulted in a substantial body of high-impact journal publications and industry-focused technical reports, contributing to sustainable and resilient infrastructure development.

Citation Metrics (Scopus)

1200

800

400

0

Citations 1,041

Documents 42

h-index
19

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Featured Publications

Chaoxu Li | Green and low-carbon materials | Research Excellence Award

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Prof. Chaoxu Li | Green and low-carbon materials | Research Excellence Award

JiangHan University | China

Prof. Chaoxu Li is a professor and materials scientist whose research centers on flexible intelligent materials, bio-derived nanomaterials, and green, low-carbon polymer systems. He has published over 150 peer-reviewed articles in leading journals such as Nature Nanotechnology, Advanced Materials, and Advanced Functional Materials. His work integrates liquid metals, biomass-based nanofibrils, and smart polymers to enable applications in energy harvesting, sensing, catalysis, and sustainable recycling. Widely cited for interdisciplinary innovation, Li’s publications have significantly advanced functional soft materials and bio-inspired nanotechnology, supported by major national and provincial research funding programs.

Citation Metrics (Scopus)

6000

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Citations 5,697

Documents 114

h-index
38


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Top 5 Featured Publications

Biodegradable nanocomposites of amyloid fibrils and graphene with shape-memory and enzyme-sensing properties

C. Li, J. Adamcik, R. Mezzenga – Nature Nanotechnology, 2012 · 510 citations

Shapeable fibrous aerogels of metal–organic frameworks templated with nanocellulose for rapid and large-capacity adsorption

L. Zhu, L. Zong, X. Wu, M. Li, H. Wang, J. You, C. Li – ACS Nano, 2018 · 443 citations

Liquid metal droplets wrapped with polysaccharide microgel as biocompatible aqueous ink for flexible conductive devices

X. Li, M. Li, L. Zong, X. Wu, J. You, P. Du, C. Li – Advanced Functional Materials, 2018 · 296 citations

Biological nanofibrous generator for electricity harvest from moist air flow

M. Li, L. Zong, W. Yang, X. Li, J. You, X. Wu, Z. Li, C. Li – Advanced Functional Materials, 2019 · 277 citations

Evaporation-induced sintering of liquid metal droplets with biological nanofibrils for flexible conductivity and responsive actuation

X. Li, M. Li, J. Xu, J. You, Z. Yang, C. Li – Nature Communications, 2019 · 255 citations

Ghizlane Moutaoukil | Sustainable construction materials | Eco-friendly Construction Practices Award

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Dr. Ghizlane Moutaoukil | Sustainable construction materials | Eco-friendly Construction Practices Award

Postdoctoral researcher | Centro de Física de Materiales (CFM) | Spain

Dr. Ghizlane Moutaoukil is a distinguished researcher in materials chemistry and environmental science, specializing in the synthesis, characterization, and thermomechanical evaluation of sustainable construction materials. With a PhD jointly earned from Mohammed V University in Rabat and the Institute of Materials Science of Madrid, the research focuses on the development of dense and porous geopolymers derived from industrial waste. Extensive investigations cover the optimization of mechanical and microstructural properties of fly ash-based geopolymers, thermomechanical behavior, foaming processes, and the integration of radiative cooling functions in cementitious composites. As a postdoctoral researcher at the Centro de Fisica de Materiales (CSIC/UPV-EHU), Moutaoukil continues advancing sustainable materials for environmental and energy applications. The impressive publication record in journals such as Materials Letters, Advanced Science, and Construction and Building Materials reflects deep expertise in MAS NMR, FTIR, XRD, and Raman spectroscopy. Patents and collaborative works, notably the “Modern Roman-Inspired Concrete with Daytime Radiative Cooling Capacity,” demonstrate innovative thinking bridging chemistry and civil engineering. Research also includes the mechanosynthesis of phosphate mine waste-based geopolymers and geochemical applications for pollution control. Proficiency in Arabic, French, English, and Spanish strengthens global collaboration capacity. Technical mastery extends to process engineering, corrosion studies, and rheological analysis, with strong computational and statistical design skills. Active participation in international conferences from Morocco to Spain and Turkey underscores commitment to interdisciplinary scientific exchange. Ghizlane Moutaoukil’s contributions—166 citations, 12 publications, and an h-index of 6—reflect consistent research excellence and growing global recognition, making Ghizlane Moutaoukil a promising leader in sustainable materials and environmental innovation.

Profile: Scopus | ORCID
Featured Publications:

Ghizlane Moutaoukil, Isabel Sobrados, & Jorge S. Dolado. (2025, October). Development of phosphate mine waste-based geopolymer by mechanosynthesis. Construction and Building Materials, 143573.

Jorge S. Dolado, Guido Goracci, Ghizlane Moutaoukil, Ridwan O. Agbaoye, Miguel Beruete, Alicia E. Torres‐García, Laura Carlosena, Achutha Prabhu, Jose A. Ibáñez, Nick Adams, et al. (2025, September 12). A modern Roman-inspired concrete with daytime radiative cooling capacity. Advanced Science.

Ghizlane Moutaoukil, Isabel Sobrados, H. Süleyman Gökçe, & Saliha Alehyen. (2025, June). Effect of thermal treatment, foaming and stabilizing agents on the synthesis of fly ash-based geopolymer foams using Raman spectroscopy and 29Si and 27Al MAS NMR. Sustainable Chemistry for the Environment, 100257.

Ghizlane Moutaoukil, Isabel Sobrados, Saliha Alehyen, & M’hamed Taibi. (2024, May 16). Monitoring the geopolymerization reaction of geopolymer foams using 29Si and 27Al MAS NMR. Minerals, 14(5), 516.

Ghizlane Moutaoukil, Isabel Sobrados, Saliha Alehyen, & M’hamed Taibi. (2024, March). Understanding the thermomechanical behavior of geopolymer foams: Influence of rate and type of foaming agent and stabilizer. Chemical Data Collections, 101111.

Ghizlane Moutaoukil, Saliha Alehyen, Isabel Sobrados, & Amine El Mahdi Safhi. (2023, June). Effects of elevated temperature and activation solution content on microstructural and mechanical properties of fly ash-based geopolymer. KSCE Journal of Civil Engineering.