- Address
- 305-0047 茨城県つくば市千現1-2-1 [アクセス]
研究内容
- Keywords
Metal oxide nanostructures, Sensor, Photo-voltaic, Nanocatalysts, Photo-strips
出版物2004年以降のNIMS所属における研究成果や出版物を表示しています。
論文
- LI Xia, SHENASHEN Mohamed A., MEKAWY Moataz, TANIGUCHI Akiyoshi, EI-SAFTY Sherif A.. Aluminum Hydroxide Nanosheets with Structure-dependent Storage and Transportation toward Cancer Chemotherapy. Journal of Inorganic Materials. (2019) 1 10.15541/jim20190052 Open Access
- Ahmed M. Azzam, Mohamed A. Shenashen, Mohamed S. Selim, Bayaumy Mostafa, Ahmed Tawfik, Sherif A. El-Safty. Vancomycin-Loaded Furriness Amino Magnetic Nanospheres for Rapid Detection of Gram-Positive Water Bacterial Contamination. Nanomaterials. 12 [3] (2022) 510 10.3390/nano12030510 Open Access
- Hassanien Gomaa, SHENASHEN, Mohamed, YAMAGUCHI, Hitoshi, Mohamed Abdelmottaleb, Ahmad S. Alamoudi, Mohamed F. Cheira, Tarek A. Seaf El-Naser, EL-SAFTY, Sherif. . JOURNAL OF CLEANER PRODUCTION. (2018) 910-925
書籍
- Selim, M.S., EL-SAFTY, Sherif, SHENASHEN, Mohamed, Shimaa A. Higazy, Ahmed I. Hashem. Vegetable Oil-Based Biodegradable Alkyd Materials for Eco-friendly Coating Applications. Handbook of Biodegradable Materials. Springer Cham, 2023, 35.
- Mohamed S. Selim, EL-SAFTY, Sherif, SHENASHEN, Mohamed. Superhydrophobic foul resistant and self-cleaning polymer coating. Elsevier, 2019
- Selim, M.S., SHENASHEN, Mohamed, Maher A. El-Sockary, Nesreen A. Fatthallah, Shimaa A. Higazy, Ashraf M. El-Saeed, Olfat E. El-Azabawy2, EL-SAFTY, Sherif. Polymer/graphene-derived nanocomposites as advanced marine antifouling coatings. Advances in Nanotechnology for Marine Antifouling. ELSEVIER, 2023, 38.
会議録
- EL-SAFTY, Sherif, SHENASHEN, Al-khodary Esmaiel Mohamed. High-Order Mesoporous (HOM) Sensors for Visual Removal and Recognition of Toxic Metal Ions from Drinking Water. IMCS 2012 – The 14th International Meeting on Chemical Sensors. (2012) 10.5162/imcs2012/8.5.1
- MOHAMED, Khairy, EL-SAFTY, Sherif, YOSSEF, Mohamed Ismael, SHENASHEN, Al-khodary Esmaiel Mohamed. Green Chemical Transformation of phenolic pollutants using. Recent Researches in Communications, Electronics, Signal Processing and Automatic Control. (2012) 214-219
- YOSSEF, Mohamed Ismael, EL-SAFTY, Sherif. Nano-modeling Adsorption of Aniline Compounds onto Mesoporous. Recent Researches in Communications, Electronics, Signal Processing and Automatic Control. (2012) 220-225
口頭発表
- EL-SAFTY, Sherif. Extraction of uranium from environmental samples using hybrid porous HOM materials. Technical Meeting to Collect and Document Innovations in the Uranium Production Cycle; Virtual Event . 2022 招待講演
- EL-SAFTY Sherif. Method for extraction, separation, and recovery of uranium from very low grade ores. Consultancy Meeting to Determine the Scope of a Technical Meeting on Innovations in the Recovery of Uranium from Very Low Grade Conventional Ores and Unconventional Ores. 2021 招待講演
- EL-SAFTY Sherif. Cost-efficient and environmentally friendly nano-porous filter medium. 9th International Conference on Water Resources and Arid Environments (ICWRAE) https://icwrae-psipw.org/. 2021 招待講演
その他の文献
- Mohamed S. Selim, EL-SAFTY, Sherif, SHENASHEN, Mohamed, Shimaa A. Higazy, Ahmed Elmarakbi. Progress in biomimetic leverages for marine antifouling using nanocomposite coatings. Journal of Materials Chemistry B. (2020) カバーページ
- Hesham Khalifa, Sherif A. El‐Safty, Abdullah Reda, Mohamed A. Shenashen, Ahmed Elmarakbi, Hussain A. Metawa. Cover Feature: Structurally Folded Curvature Surface Models of Geodes/Agate Rosettes (Cathode/Anode) as Vehicle/Truck Storage for High Energy Density Lithium‐Ion Batteries (Batteries & Supercaps 1/2020). Batteries & Supercaps. 3 [1] (2020) 4 10.1002/batt.201900210
- Wojciech Warkocki, Sherif A. El-Safty, Mohamed A. Shenashen, Emad Elshehy, Hitoshi Yamaguchi, Naeem Akhtar, WARKOCKI Wojciech, EL-SAFTY Sherif, SHENASHEN Mohamed A, ELSHEHY Emad.A.A, YAMAGUCHI Hitoshi, AKHTAR Naeem. Photo-induced recovery, optical detection, and separation of noxious seO32 using a mesoporous nanotube hybrid memberane. JOURNAL OF MATERIALS CHEMISTRY A. 3 [34] (2015) 表紙
公開特許出願
所属学会
Royal Society of Chemistry
高分子・バイオ材料研究センター
Hierarchal mesostructures for environment healthcare
Nanoscale, Biocaptors, Sensors, Catalysts, E-waste Recycling, Water Treatment
概要
• The environmental protection, recognition and prevention of hazards and pathogens.
• Monitoring of neurotransmitters in human neuronal cells for diagnoses of Parkinson’s and schizophrenia diseases.
• Nano-architectures for high capacitance long-term stability of energy storage devices, fuel cell and capacitors.
• Environmental recycling and remediation (nano for simple detection/extraction/removal of REEs, radioactive materials and toxins)
• Nano-catalysts for biodiesel production from waste
新規性・独創性
• Fabrication of the Hierarchy Nano-metric Order Materials (HOM) family with various areas of application; water treatment, sustainable and green energy, pollution management, urban mining, biosensors and bioelectronics devices, and disease diagnosis.
• Developing nanomembrane to solve water-related problems as interdisciplinary scientific breakthroughs. It is the first technology based on nanoporous membrane filters easily fabricated with different hierarchical designs. Selective monitoring and removal of hazardous and radioactive substances using high-volume, pressureless filtration provides an energy-efficient technology.
内容
Nanocatalyst Biodiesel Production from Waste: Fabrication of thermally stable nanocatalyst leads to biodiesel production with features of high product yield, cost-efficiency, and long-term reusability (Figure 1).
Glucose Biosensor for Diabetics: Portable sensor enables highly sensitive and selective detection of glucose from diabetic blood (Figure 2).
REEs Critical Metals Recycling: A fine chemical recycling to recover rare earth metals and precious elements from E-waste. The simple E-waste management reduces waste volume and protects environment (Figure 3).
Filter Membrane for Water Purification: Available in i) sensor; ii) tea bags; iii) pellets; iv) masks; and v) nanofilters for visual early warning of toxic and radioactive substances and for safe water (Figure 4).
まとめ
With the aim of providing integrated solutions to major environmental issues, new know-how and expertise have been developed for industrial-scale manufacturing processes. A variety of application-based nanomaterials to meet a wide range of market needs are being produced in a simple, cost-effective and environmentally friendly manner.