Prof. Brahim Safi | Green Construction | Sustainable Metallurgical Engineering Award

Professor at M’hamed Bougara University of Boumerdes | Algeria

Prof. Brahim Safi is highly suitable for the Sustainable Metallurgical Engineering Award due to his sustained and influential contributions to eco-efficient materials, waste valorization, and sustainability-driven engineering solutions. His research consistently advances sustainable metallurgical practices through recycling of industrial and metallurgical wastes, development of eco-materials, and reduction of environmental impact in construction and materials processing, aligning strongly with circular economy principles. His scholarly output demonstrates both depth and applied relevance, bridging metallurgical science with environmental stewardship and industrial sustainability. According to his Scopus profile, his work has achieved 715 citations across 52 published documents, reflecting strong academic visibility and real-world impact, with a solid h-index of 12, underscoring consistent citation performance and research quality. These metrics, combined with his focused publication portfolio on sustainable materials, recycling technologies, and resource efficiency, clearly position Prof. Safi as a deserving and credible recipient of the Sustainable Metallurgical Engineering Award.

Citation Metrics

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Citations
715

Documents
52

h-index
12

Featured Publications

The use of plastic waste as fine aggregate in self-compacting mortars: Effect on physical and mechanical properties

Construction and Building Materials (2013) · Cited by 330

The use of seashells as a fine aggregate (sand substitution) in self-compacting mortar

Construction and Building Materials (2015) · Cited by 231

Use of recycled plastic bag waste in concrete

Journal of International Scientific Publications (2014) · Cited by 138

Physico-chemical and rheological characterization of water-based mud in the presence of polymers

Journal of Petroleum Exploration and Production Technology (2015) · Cited by 57

Rheological behavior of an Algerian crude oil containing SDBS as a surfactant

Journal of Petroleum Science and Engineering (2015) · Cited by 48

Assist. Prof. Dr. Fahanwi Asabuwa Ngwabebhoh | Sustainable Materials | Research Excellence Award

Research Scientist at Kocaeli University | Turkey

Assist. Prof. Dr. Fahanwi Asabuwa Ngwabebhoh is a materials and polymer scientist recognized for advancing functional biomaterials, nanocomposites, and environmentally responsive polymers through research that integrates synthesis, structural modification, and performance optimization. His scientific work centers on bioinspired hydrogels, nanocellulose-derived systems, electroactive polymer composites, and sustainable biopolymer materials designed for applications in adsorption, drug delivery, wound healing, environmental remediation, energy storage, and biosensing. With 1,385 citations, 48 published documents, and a Scopus h-index of 19, he is widely acknowledged for producing high-impact research that bridges fundamental materials chemistry with practical technological solutions. His investigations have yielded important contributions to controlled drug delivery systems, injectable and self-crosslinking hydrogels, microbial cellulose biocomposites, conductive polymer–based electrodes for supercapacitors, photodegradation materials, and agro-waste-derived sustainable composites. He has also developed optimized nanostructured adsorbents and membrane systems for emerging pollutant removal, applying advanced modeling tools such as response surface methodology and kinetic–isotherm analysis to enhance material efficiency and predict functional behavior. His research on nitrogen-doped cellulose gels, enzymatically crosslinked hydrogels, and biodegradable nanofibrous scaffolds has been influential in both environmental and biomedical materials science. Dr. Ngwabebhoh’s work demonstrates strong interdisciplinary depth, combining polymer chemistry, nanotechnology, materials characterization, and applied engineering principles to generate innovation-driven scientific output. His publication profile and research achievements reflect impactful contributions that support sustainable technologies, advanced biomaterials, and green material design, establishing him as a leading researcher suited for recognition through the Research Excellence Award.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Ngwabebhoh, F. A., Gazi, M., & Oladipo, A. A. (2016). Adsorptive removal of multi-azo dye from aqueous phase using a semi-IPN superabsorbent chitosan-starch hydrogel. Chemical Engineering Research and Design. Citation: 173

Ngwabebhoh, F. A., Erdagi, S. I., & Yildiz, U. (2018). Pickering emulsions stabilized nanocellulosic-based nanoparticles for coumarin and curcumin nanoencapsulations: In vitro release, anticancer and antimicrobial activities. Carbohydrate Polymers. Citation: 165

Erdagi, S. I., Ngwabebhoh, F. A., & Yildiz, U. (2020). Genipin crosslinked gelatin-diosgenin-nanocellulose hydrogels for potential wound dressing and healing applications. International Journal of Biological Macromolecules. Citation: 142

Nguyen, T. H., Fei, H., Sapurina, I., Ngwabebhoh, F. A., Bubulinca, C., Munster, L., & others. (2021). Electrochemical performance of composites made of rGO with Zn-MOF and PANI as electrodes for supercapacitors. Electrochimica Acta. Citation: 131

Ngwabebhoh, F. A., Zandraa, O., Patwa, R., Saha, N., Capáková, Z., & Saha, P. (2021). Self-crosslinked chitosan/dialdehyde xanthan gum blended hypromellose hydrogel for the controlled delivery of ampicillin, minocycline and rifampicin. International Journal of Biological Macromolecules. Citation: 103