Dr. Mahmoud Abo- Elmaaref | Life Sciences Innovation | Life Sciences Innovation

Conservation Department, Faculty of Archaeology, Sohag University, Sohag, Egypt

Mahmoud Abo Elmaaref is a lecturer and specialist in the conservation of archaeological organic materials, with a particular focus on ancient textiles. He holds a master’s degree in textile conservation (2017) and a PhD in the prevention of microbiological deterioration in archaeological linen using enzymes and nanomaterials (2022), both from Sohag University. Over the course of his academic career, he has served as demonstrator, assistant lecturer, lecturer, and former director of the Center for Studies and Research of Archaeology and Restoration. He has completed extensive training in conservation sciences, documentation, quality assurance, scientific research skills, data analysis, microscopy, nanomaterials applications, and museum collection care through national and international workshops. His research interests include textile conservation, nanomaterials, enzymatic cleaning, antifungal treatments, aging studies, characterization techniques, and sustainable conservation approaches. He has published numerous studies in recognized journals, contributing knowledge on linen and cotton conservation, fungal deterioration, silver-nanoparticle treatments, polymer nanocomposites, and eco-friendly antimicrobial agents. His work demonstrates strong commitment to advancing textile preservation through innovative scientific methods. Overall, his career reflects a blend of research productivity, academic development, conservation practice, and dedication to protecting archaeological heritage for future generations.

Profiles: Orcid | Research Gate

Featured Publications

Abo-Elmaaref, M., Mohamed, W. S., & Swielam, E. M. (2025, November 29). Eco-friendly nano-curcumin loaded on different polymers: Properties and applications as a consolidation and antimicrobial agent for archaeological cotton textiles. Discover Applied Sciences.

Abo-Elmaaref, M. (2025, October 21). TiO2 nanoparticles loaded onto methyl methacrylate/ethyl acrylate nanopolymers as consolidation and antimicrobial agents for ivory artefacts. Pigment & Resin Technology.

Abo-Elmaaref, M. (2025, September 24). Synthesis of Chitosan/Klucel E nanocomposite: Properties and application as an antimicrobial and consolidation agent to conserve dyed linen textiles. Pigment & Resin Technology.

Abo-Elmaaref, M. (2024). The usage of AgNPs/Klucel G nanocomposites and some conventional materials in the conservation of archaeological linen textile remains. Advanced Research in Conservation Science.

Abo-Elmaaref, M. (2023). A comparative study for the effect of laboratory aging and fungal infection on properties of raw and dyed linen textiles. Advanced Research in Conservation Science.

Assoc. Prof. Dr. Cheng Ji | Regenerative Medicine | Best Researcher Award

Jiangsu University | China

Dr. Cheng Ji, an Associate Professor at Jiangsu University Medical College, has established a strong research foundation in the field of stem cell extracellular vesicles (EVs) and renal tissue regeneration. With an h-index of 23, he has authored 30 SCI-indexed publications that have collectively garnered over 1,200 citations, reflecting his impactful contributions to regenerative medicine and translational nanobiotechnology. His ongoing investigations center on the mechanistic roles of mesenchymal stem cell-derived EVs in mitigating acute and chronic kidney injury, focusing on fibrosis prevention through ubiquitination pathways. Dr. Ji has successfully completed two research projects and continues work on three ongoing studies, complemented by five industry collaborations that bridge academic discovery with clinical application. His book, Extracellular Vesicles: From Bench to Bedside, exemplifies his leadership in knowledge dissemination, while six patents highlight his commitment to innovation. As a member of the International Society for Extracellular Vesicles (ISEV), Dr. Ji actively contributes to global collaborative research networks. His integrative work on magnetically modified dual-targeted stem cell EVs to combat chronic kidney fibrosis positions him as a frontrunner for the Best Researcher Award, with a research vision that unites molecular insight and therapeutic advancement.

Profile: Orcid

Featured Publications

Jin, C., Wu, P., Wu, W., Chen, W., Liu, W., Zhu, Y., Wu, Q., Chen, B., Ji, C., & Qian, H. Therapeutic role of hucMSC-sEV-enriched miR-13896 in cisplatin-induced acute kidney injury through M2 macrophage polarization. Cell Biology and Toxicology.

Wang, M., Yang, D., Li, L., Wu, P., Sun, Y., Zhang, X., Ji, C., Xu, W., Qian, H., & Shi, H. A dual role of mesenchymal stem cell derived small extracellular vesicles on TRPC6 protein and mitochondria to promote diabetic wound healing. ACS Nano.

Ji, C., Zhang, J., Shi, L., Shi, H., Xu, W., Jin, J., & Qian, H. Engineered extracellular vesicle-encapsulated CHIP as novel nanotherapeutics for treatment of renal fibrosis. npj Regenerative Medicine.

Zhang, J., Gu, J., Wang, X., Ji, C., Yu, D., Wang, M., Pan, J., Santos, H. A., Zhang, H., & Zhang, X. Engineering and targeting neutrophils for cancer therapy. Advanced Materials.

Zhang, J., Yu, D., Ji, C., Wang, M., Fu, M., Qian, Y., Zhang, X., Ji, R., Li, C., & Gu, J. Exosomal miR-4745-5p/3911 from N2-polarized tumor-associated neutrophils promotes gastric cancer metastasis by regulating SLIT2. Molecular Cancer.