π¬ Hamed Hamouda, Ph.D. is a distinguished microbiologist specializing in enzyme characterization and carbohydrate bioprocessing. He earned his Ph.D. from the Chinese Academy of Sciences and has held postdoctoral positions at Ocean University of China and Dalian Institute of Chemical Physics. His research focuses on polysaccharide-degrading enzymes π§ͺ and biotechnological applications π±. An editorial board member of Frontiers in Microbiology, he has received prestigious awards, including the CAS-TWAS Presidentβs Fellowship π and Shandong Provincial Distinguished Foreign Experts Award.
Professional Profile
π Early Academic Pursuits
Hamed Hamouda’s academic journey began with a Bachelor of Science in Microbiology and Chemistry from Al-Azhar University, Egypt, where he graduated with honors in 2008. His passion for microbiology led him to pursue multiple postgraduate diplomas, including General Microbiology, Analytical Biochemistry, and Microbiology from prestigious Egyptian institutions. He then obtained his Master of Science in Microbiology in 2015, supported by the Academy of Scientific Research and Technology (ASRT), focusing on microbial strains for bioethanol production. His relentless pursuit of knowledge culminated in a Ph.D. in Microbiology from the Chinese Academy of Sciences under the CAS-TWAS Presidentβs Fellowship Program, where he specialized in enzymatic characterization for biomass degradation.
πΌ Professional Endeavors
Dr. Hamouda has built a distinguished career in microbiology, particularly in biochemical and enzymatic research. He has held postdoctoral research positions at the Dalian Institute of Chemical Physics, Chinese Academy of Sciences, and the Ocean University of China. In addition, he has been a research assistant at the Egyptian Petroleum Research Institute (EPRI) since 2012, contributing to petroleum biotechnology innovations. His professional experience spans diverse roles, including medical analysis, fermentation research, and chemical industry expertise, showcasing his multidisciplinary skill set.
π¬ Contributions and Research Focus On BiochemistryΒ
Dr. Hamouda’s research revolves around biochemical interactions between proteins and carbohydrates, with a particular emphasis on polysaccharide-degrading enzymes. His Ph.D. work explored thermophilic bacterial enzymes, such as pectate lyases, alginate lyases, Ξ²-glucanases, and Ξ²-xylosidases, for efficient biomass degradation. His postdoctoral research delved into carrageenase and laminarinase enzymes, focusing on their structural elucidation and application in nanoparticle-based polysaccharide preparations. His work contributes significantly to clean energy solutions, biotechnology, and industrial applications.
π Impact and Influence
Dr. Hamouda’s contributions extend beyond academia into real-world applications. His research has played a crucial role in advancing green biomanufacturing, clean energy transformation, and bioethanol production from agricultural waste. As an Egyptian co-PI in international research projects, he fosters global collaboration, bridging Egyptian and Chinese scientific communities. His active participation in biotechnology and petroleum research underscores his impact on renewable energy and environmental sustainability.
π Awards and Honors
Dr. Hamoudaβs excellence in research has earned him multiple prestigious awards, including:
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CAS-TWAS Presidentβs Fellowship (2016-2020) from the Chinese Academy of Sciences.
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Shandong Provincial Distinguished Foreign Experts Award for his outstanding contributions.
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Postdoctoral Fellowship at Ocean University of China for his research on food security and molecular microbiology.
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M.Sc. Scholarship from the Academy of Scientific Research and Technology (ASRT), Egypt.
π Academic Citations and Publications
Dr. Hamouda has authored several high-impact publications in microbiology, enzymology, and biochemical research. His work is widely cited in international scientific journals, reflecting its significance in the field. Additionally, he serves as an editorial board member of Frontiers in Microbiology, contributing to the advancement of scholarly research.
π Legacy and Future Contributions
With a strong foundation in microbiology, enzymology, and biotechnology, Dr. Hamouda continues to push the boundaries of scientific innovation. His research into enzyme-based solutions for industrial and environmental challenges holds promise for renewable energy, biomedicine, and sustainable agriculture. As an active collaborator in international projects, he is poised to make lasting contributions to biotechnology and global scientific progress.
πPublications Top Notes
1οΈβ£ Multi-walled carbon nanotubes decorated with silver nanoparticles for antimicrobial applications π¦ βοΈ
π Journal of Environmental Chemical Engineering | Cited by: 68 | Year: 2021
2οΈβ£ Response Surface Optimization of Bioethanol Production from Sugarcane Molasses by Pichia veronae Strain HSCβ22 π±π¬
π Biotechnology Research International | Cited by: 39 | Year: 2015
3οΈβ£ Design of Ξ³-AlOOH, Ξ³-MnOOH, and Ξ±-MnβOβ nanorods as advanced antibacterial active agents ππ¦
π Dalton Transactions | Cited by: 35 | Year: 2020
4οΈβ£ Rhamnolipid-coated iron oxide nanoparticles as a novel multitarget candidate against major foodborne E. coli serotypes and MRSA π½οΈπ¦
π Microbiology Spectrum | Cited by: 32 | Year: 2022
5οΈβ£ Preparation, urease inhibition mechanisms, and anti-Helicobacter pylori activities of hesperetin-7-rhamnoglucoside ππ§¬
π Current Research in Microbial Sciences | Cited by: 30 | Year: 2022
6οΈβ£ Bioethanol Production from Water Hyacinth Hydrolysate by Candida tropicalis Y-26 πΏπ¬
π Arabian Journal for Science and Engineering | Cited by: 29 | Year: 2019
7οΈβ£ Biochemical Characterization of a Novel Myrosinase Rmyr from Rahnella inusitata for High-Level Preparation of Sulforaphene and Sulforaphane π§ͺπ¦
π Journal of Agricultural and Food Chemistry | Cited by: 28 | Year: 2022
8οΈβ£ Design of lipid-based nanocarrier for drug delivery with double therapy for common pathogens eradication ππ
π Colloids and Surfaces A: Physicochemical and Engineering Aspects | Cited by: 21 | Year: 2021
9οΈβ£ Multifunctional nanoparticles based on marine polysaccharides for apremilast delivery to inflammatory macrophages ππ
π International Journal of Biological Macromolecules | Cited by: 20 | Year: 2022
π Combinations of alkaline hydrogen peroxide and lithium chloride/N,N-dimethylacetamide pretreatments of corn stalk for improved biomethanation π½βοΈ
π Environmental Research | Cited by: 20 | Year: 2020
1οΈβ£1οΈβ£ Isolation of fermentative microbial isolates from sugar cane and beet molasses and evaluation for enhanced production of bioethanol πΆπ¬
π Energy Sources, Part A | Cited by: 19 | Year: 2016
1οΈβ£2οΈβ£ Novel nanoblades of graphene oxide decorated with zinc oxide nanocomposite as a powerful anti-microbial active weapon πΉπ¦
π Synthetic Metals | Cited by: 15 | Year: 2023
1οΈβ£3οΈβ£ Statistical optimization of bioethanol production from giant reed hydrolysate by Candida tropicalis using Taguchi design πΏπ
π Journal of Biotechnology | Cited by: 13 | Year: 2022
1οΈβ£4οΈβ£ Plastic-associated microbial communities in aquaculture areas ππ¦
π Frontiers in Marine Science | Cited by: 13 | Year: 2022
1οΈβ£5οΈβ£ Expression and Biochemical Characterization of a Novel Fucoidanase from Flavobacterium algicola with the Principal Product of Fucoidan-Derived Disaccharide π¦ π§¬
π Foods | Cited by: 13 | Year: 2022