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2026
EL-GENEADY, M. A., O. A. Mahdy, R. M. Ramadan, M. S. Kamel, H. Youssef, and M. A. I. A. SALEM, "Integrated characterization of monogenean infestation in Tilapia zillii: cox1 barcoding, cytokine transcription, oxidative biomarkers, and histopathological insights", Aquaclture International, vol. Volume 34, pp. 57, 2-2-2026.
Sarhan, O., M. A. Wahed, and M. A. Rushdi, "Machine Learning Models for Emergency Department Layout Prediction Using Graph Metrics", Egyptian Informatics Journal, vol. 34, 2 June 2026.
Seif, W. M., and A. S. Hashem, "Tidal deformability and compactness of neutron stars and massive pulsars from semi-microscopic equations of state", Annals of Physics, vol. 486, issue 170349, pp. 1-16, 16 January 2026. Abstract

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Bruno, D., A. Mohamed, R. K. Al-Akeel, H. M. Alharbi, G. Tettamanti, and I. Eleftherianos, "Immunity of the black soldier fly (Hermetia illucens): recent progress and technological applications", Journal of Invertebrate Pathology, vol. 215, pp. 108519, 12/2025, 2026. immunity_of_the_black_soldier_fly_hermetia_illucens--recent_progress_and_technological_applications.pdf
AboDalam, H. M., M. M. M. Ragab, M. A. - E. Zayton, and M. Mannaa, "Biocontrol of Aspergillus flavus in stored wheat using Bacillus sp. B3 and Bacillus sp. Mn1 with antagonistic capacity through volatile compounds production", Egyptian Journal of Biological Pest Control, vol. 36, issue 1, pp. 7, 1/2026.
Ourahmoun, H., M. El-Hawagry, K. Kettani, B. Chergui, A. Belhaj, M. D. Daief, and M. M. Soliman, "Climate change impact on the geographic distribution of important tachinid parasitoids in Morocco: a species distribution modelling study", The Journal of Basic and Applied Zoology, vol. 87, issue 5, pp. 1-15, 1/2026. climate_change_impact_on_the_geographic_distribution_of_important_tachinid_parasitoids_in_morocco.pdf
Elkashef, H., S. El-Dieb, A. Emam, A. A. El-Fattah, and A. Fawzy., "Development of functional Cheddar cheese with native sensory properties and rich in bioactive molecules using various lactobacilli adjunct cultures", Journal of Food Measurement and Characterization, vol. 20, issue 4, pp. 4291–4306, 1/2026. paper.pdf
Elkashef, H., S. El-Dieb, A. Emam, A. A. El-Fattah, and A. Fawzy, "Development of functional Cheddar cheese with native sensory properties and rich in bioactive molecules using various lactobacilli adjunct cultures", Journal of Food Measurement and Characterization , vol. 20, issue 4, pp. 4291–4306, 1/2026. paper_cheddar.pdf
Abdel-Rady, A., H. A. Abu-Seida, and A. M. Abu-Seida, "An overview of camel brucellosis and its impact on human health in endemic regions", Vector-Borne and Zoonotic Diseases, vol. 26, issue 1, pp. 1-11, 1/2026. camel_brucellosis.pdf
Yasser, M., S. Fangary, S. A. Fahim, Marwa Sharaky, A. M. Saadeldeen, J. El-Sayed, and C. Yousry, "PEGylated Brij®-stabilized cubosomes of Anchusa azurea extract for resistant NSCLC: Characterization, I-optimal statistical optimization and mechanistic insights into cytotoxicity and multidrug resistance", journal of drug delivery science and techology, vol. 123, issue 108486, 09/2026.
Elhelw, J., S. Fangary, R. M. Abdelsalam, M. Abdel-Halim, M. Salah, and C. Yousry, "Network pharmacology-guided repurposing of vardenafil via intranasal transfersomal in-situ hydrogel for brain-targeted neuroprotection in chemotherapy-induced cognitive dysfunction", journal of drug delivery science and techology, vol. 121, 07/2026.
Elnady, S. M., J. M. Guerrero, K. Louassaa, A. Azeem, X. Zhang, M. H. Alham, G. Wang, and E. A. Khalil, "Fractional-order techniques in renewable energy microgrids: A comprehensive survey of modeling, control, and forecasting methods", Renewable and Sustainable Energy Reviews, vol. 239, 06/2026. AbstractWebsite

Renewable energy microgrids exhibit memory-dependent, nonlinear, and multi-timescale dynamics that classical integer-order methods cannot adequately represent. Fractional calculus extends differentiation and integration to non-integer orders, providing a rigorous framework for capturing hereditary effects, anomalous diffusion, and long-range dependence across microgrid subsystems. Despite growing research activity, existing reviews address isolated topics without a unified treatment spanning all major application domains. This survey organizes fractional-order methodologies within a two-domain framework — fractional-order control and integrated fractional calculus-based methods — spanning five technical categories: component modeling, hierarchical control, optimization, forecasting, and validation. Fractional-order equivalent circuit models with constant phase elements are reviewed for state-of-charge and state-of-health estimation in electrochemical storage and photovoltaic systems. Fractional-order control schemes, encompassing single-loop and cascade topologies, optimized by metaheuristic methods, exhibit reliable improvements in transient response and robustness compared to integer-order designs. Fractional grey models, FARIMA formulations, and hybrid fractional machine-learning architectures are assessed for renewable generation and load forecasting. Three standardized case studies provide quantitative cross-domain comparisons under consistent conditions. Identified deployment barriers include fractional operator computational cost, absent tuning protocols, and limited hardware validation, motivating future research in physics-informed fractional learning, digital twin integration, and edge computing. This survey provides researchers and practitioners with a unified reproducible framework for applying fractional-order techniques in next-generation renewable energy microgrids.

Elnady, S. M., J. M. Guerrero, K. Louassaa, A. Azeem, X. Zhang, M. H. Alham, G. Wang, and E. A. Khalil, "Fractional-order techniques in renewable energy microgrids: A comprehensive survey of modeling, control, and forecasting methods", Renewable and Sustainable Energy Reviews, vol. 239, 06/2026. AbstractWebsite

Renewable energy microgrids exhibit memory-dependent, nonlinear, and multi-timescale dynamics that classical integer-order methods cannot adequately represent. Fractional calculus extends differentiation and integration to non-integer orders, providing a rigorous framework for capturing hereditary effects, anomalous diffusion, and long-range dependence across microgrid subsystems. Despite growing research activity, existing reviews address isolated topics without a unified treatment spanning all major application domains. This survey organizes fractional-order methodologies within a two-domain framework — fractional-order control and integrated fractional calculus-based methods — spanning five technical categories: component modeling, hierarchical control, optimization, forecasting, and validation. Fractional-order equivalent circuit models with constant phase elements are reviewed for state-of-charge and state-of-health estimation in electrochemical storage and photovoltaic systems. Fractional-order control schemes, encompassing single-loop and cascade topologies, optimized by metaheuristic methods, exhibit reliable improvements in transient response and robustness compared to integer-order designs. Fractional grey models, FARIMA formulations, and hybrid fractional machine-learning architectures are assessed for renewable generation and load forecasting. Three standardized case studies provide quantitative cross-domain comparisons under consistent conditions. Identified deployment barriers include fractional operator computational cost, absent tuning protocols, and limited hardware validation, motivating future research in physics-informed fractional learning, digital twin integration, and edge computing. This survey provides researchers and practitioners with a unified reproducible framework for applying fractional-order techniques in next-generation renewable energy microgrids.

Elnady, S. M., J. M. Guerrero, K. Louassaa, A. Azeem, X. Zhang, M. H. Alham, G. Wang, and E. A. Khalil, "Fractional-order techniques in renewable energy microgrids: A comprehensive survey of modeling, control, and forecasting methods", Renewable and Sustainable Energy Reviews, vol. 239, 06/2026. AbstractWebsite

Renewable energy microgrids exhibit memory-dependent, nonlinear, and multi-timescale dynamics that classical integer-order methods cannot adequately represent. Fractional calculus extends differentiation and integration to non-integer orders, providing a rigorous framework for capturing hereditary effects, anomalous diffusion, and long-range dependence across microgrid subsystems. Despite growing research activity, existing reviews address isolated topics without a unified treatment spanning all major application domains. This survey organizes fractional-order methodologies within a two-domain framework — fractional-order control and integrated fractional calculus-based methods — spanning five technical categories: component modeling, hierarchical control, optimization, forecasting, and validation. Fractional-order equivalent circuit models with constant phase elements are reviewed for state-of-charge and state-of-health estimation in electrochemical storage and photovoltaic systems. Fractional-order control schemes, encompassing single-loop and cascade topologies, optimized by metaheuristic methods, exhibit reliable improvements in transient response and robustness compared to integer-order designs. Fractional grey models, FARIMA formulations, and hybrid fractional machine-learning architectures are assessed for renewable generation and load forecasting. Three standardized case studies provide quantitative cross-domain comparisons under consistent conditions. Identified deployment barriers include fractional operator computational cost, absent tuning protocols, and limited hardware validation, motivating future research in physics-informed fractional learning, digital twin integration, and edge computing. This survey provides researchers and practitioners with a unified reproducible framework for applying fractional-order techniques in next-generation renewable energy microgrids.

Elnady, S. M., J. M. Guerrero, K. Louassaa, A. Azeem, X. Zhang, M. H. Alham, G. Wang, and E. A. Khalil, "Fractional-order techniques in renewable energy microgrids: A comprehensive survey of modeling, control, and forecasting methods", Renewable and Sustainable Energy Reviews, vol. 239, 06/2026. AbstractWebsite

Renewable energy microgrids exhibit memory-dependent, nonlinear, and multi-timescale dynamics that classical integer-order methods cannot adequately represent. Fractional calculus extends differentiation and integration to non-integer orders, providing a rigorous framework for capturing hereditary effects, anomalous diffusion, and long-range dependence across microgrid subsystems. Despite growing research activity, existing reviews address isolated topics without a unified treatment spanning all major application domains. This survey organizes fractional-order methodologies within a two-domain framework — fractional-order control and integrated fractional calculus-based methods — spanning five technical categories: component modeling, hierarchical control, optimization, forecasting, and validation. Fractional-order equivalent circuit models with constant phase elements are reviewed for state-of-charge and state-of-health estimation in electrochemical storage and photovoltaic systems. Fractional-order control schemes, encompassing single-loop and cascade topologies, optimized by metaheuristic methods, exhibit reliable improvements in transient response and robustness compared to integer-order designs. Fractional grey models, FARIMA formulations, and hybrid fractional machine-learning architectures are assessed for renewable generation and load forecasting. Three standardized case studies provide quantitative cross-domain comparisons under consistent conditions. Identified deployment barriers include fractional operator computational cost, absent tuning protocols, and limited hardware validation, motivating future research in physics-informed fractional learning, digital twin integration, and edge computing. This survey provides researchers and practitioners with a unified reproducible framework for applying fractional-order techniques in next-generation renewable energy microgrids.

Abdelaziz, M. S., and T. F. Abdelmaguid, "Impact of Circular Economy and Key Operational Parameters on Steel Supply Chain Performance Under a Dedicated Warehousing Policy: A Multi-Objective Case Study", Logistics, vol. 10, issue 6, 06/2026. AbstractWebsite

Background: Egypt is one of the top steel producers in the Middle East and Africa, yet it faces acute water scarcity and rising energy costs, making it a critical context for studying trade-offs among carbon emissions, water ecological effects, and operational cost in steel supply chain. Methods: Using a multi-objective optimization model based on real data from a major Egyptian steel manufacturer, this study evaluates trade-offs among cost, tardiness, and environmental impact measured by carbon emissions and water ecological effects. Unlike prior studies, this study demonstrates that dedicated warehousing enables batch-level traceability of returned scrap while reducing material handling travel time and carbon emissions. The AUGMECON method generates Pareto-optimal solutions, and sensitivity analysis is conducted on six parameters: scrap take-back rate, demand variability, raw material price, energy cost, production capacity, and carbon tax. Results: Demand and raw material prices dominate performance: a 5% demand increase raises cost by 8.6%, and a 15% raw material price increase raises cost by 32.7%. The knee-point solution achieves 58.18 billion EGP, 0.99 months tardiness, and 2096 million kg CO2 over nine months. Conclusions: This study quantifies the impact of the circular economy and operational parameters on steel supply chain performance under a dedicated warehousing policy.

Abdelaziz, M. S., and T. F. Abdelmaguid, "Impact of Circular Economy and Key Operational Parameters on Steel Supply Chain Performance Under a Dedicated Warehousing Policy: A Multi-Objective Case Study", Logistics, vol. 10, issue 6, 06/2026. Abstractlogistics-10-00139.pdfWebsite

Background: Egypt is one of the top steel producers in the Middle East and Africa, yet it faces acute water scarcity and rising energy costs, making it a critical context for studying trade-offs among carbon emissions, water ecological effects, and operational cost in steel supply chain. Methods: Using a multi-objective optimization model based on real data from a major Egyptian steel manufacturer, this study evaluates trade-offs among cost, tardiness, and environmental impact measured by carbon emissions and water ecological effects. Unlike prior studies, this study demonstrates that dedicated warehousing enables batch-level traceability of returned scrap while reducing material handling travel time and carbon emissions. The AUGMECON method generates Pareto-optimal solutions, and sensitivity analysis is conducted on six parameters: scrap take-back rate, demand variability, raw material price, energy cost, production capacity, and carbon tax. Results: Demand and raw material prices dominate performance: a 5% demand increase raises cost by 8.6%, and a 15% raw material price increase raises cost by 32.7%. The knee-point solution achieves 58.18 billion EGP, 0.99 months tardiness, and 2096 million kg CO2 over nine months. Conclusions: This study quantifies the impact of the circular economy and operational parameters on steel supply chain performance under a dedicated warehousing policy.

Fikry, D. E. H., S. R. A. El-Dokony, and A. A. I. Khalil, "Modern advances in pulsed laser deposition of rare earth doped YBCO Superconductors", Journal of Laser Sciences and Applications, vol. 3, issue 1, pp. 233-243, 06/2026.
Desoki, D. A., N. A. Saleh, A. N. Saad, and M. A. Mahmoud, "On the Use of Machine Learning Imputation Methods in Phase I Multivariate Statistical Process Control", Journal of Statistical Theory and Practice, 06/2026.
El-Kholy, R. I., and Z. M. Hayman, "Active Learning for Planet Habitability Classification Under Extreme Class Imbalance", Publications of the Astronomical Society of the Pacific, vol. 138, 05/2026.
Shokry, M., and L. BenAli, "Burden of periodontal disease in dogs without oral hygiene", Open Journal of Physiology and Pharmacology, vol. 1, issue 1, pp. 6-9, 04/2026. 300-1763997192.pdf
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