Statement of Prof. Mohamed mokhtar mohamed abdallah:

Personal Informations:

Name(Ar): محمد مختار محمد عبد الله
Faculty: Science
Department: Chemistry
Academic degree: PhD
Major Speciality: Surface & Catalysis
Minor Speciality: Energy And Environment
Current position: Prof. Emeritus
Office address: Faculty_of_Science_Benha
Work phone: 0133225494
Fax: 013-3222578
Edu-Mail: mohamed.mokhtar@fsc.bu.edu.eg

Academic Positions:

Position Organization Country From To

Workshops / Conferences:

Workshop / Conference Year
role of applied sciences in development and society services 5-6 sept. 2015 2015
Role of Sciences in Develpement of society march 2015, Mansura University Sharm El Sheikh 2015

Educational details:

Institution Degree Year
Ain Shams University MSc 2015
University of Antwerp, Belgium PhD 1992
Faculty of Science, Chemistry Dept., Cairo University BSc 1983

Memberships and Awards details:

Organization name Membership/Award
member in JESOR-Development Program Coordinator ​ Membership
reviewer in The Academy of Scientific Research and Technology is now in the process of compiling a preliminary list of external experts for the evaluation of proposals submitted to ASRT programs, and we are contacting you in view of checking your availability to participate in a panel of independent Membership

Committees details:

Committee Year
Reviewer for many international Journals including J. Phys. Chem; Applied catalysis A and B; Langmuir; Microporous & Mesoporous Materials; RSC advances; J Materials Chemistry,...... 2015
• Editorial board in Recent patent in catalysis and open catalysis Journal. 2012
Editor • Editor of journal of Biophysics and Structural Biology (JBSB-Academic journals) 2009
• Editor of the International Journal of Water Resources and Environmental Engineering (IJWREE-Academic journals) 2009

Scientific Activities:

Scientific Activities of 2015
1-1- Declaration of design of application of USA patent titled" A mixed metal-carbon nanotube nanocomposites photocatalysts, and the preparation and antibacterial use thereof.
2-Declaration of Design application of USA patent titled" A metal oxide supported palladium catalyst for hydrocarbon oxidation"
3-USA patentApplication No. 14/186/189 for: method for synthesizing Silver nanoparticles on TiO2 using hybird polymers.
4-The patent No. 14/186,189 is issued
5-4- Declaration of design of the application form of USA patent entitled" Novel Photochromic tetrahydroindolizines"
6-Declaration of design of application of USA patent titled" A mixed metal-carbon nanotube nanocomposites photocatalysts, and the preparation and antibacterial use thereof.
7-details of Patent 14/186, 189

Experience:

• Doctorate’s degree in Physical Chemistry with twenty years experience in teaching and doing research on the field of surface and catalysis • Computer skills: MS Office and the Internet • Excellent Communication and Interpersonal Skills with ability to adapt and learn new techniques quickly • Reliable, Flexible and work well independently or as a team member • Detail oriented with demonstrated organizational strengths in problem solving and decision making • Editor of the International Journal of Water Resources and Environmental Engineering (IJWREE-Academic journals) • Editor of journal of Biophysics and Structural Biology (JBSB-Academic journals) • Editorial board in Recent patent in catalysis and open catalysis Journal. Preparation of Zeolites and their applications. Zeolite with a well defined regular pore structure of molecular dimension has recently been focused on as one of the materials conquered new fields. We succeeded in preparation of in-situ modified metal ions/zeolites such as Ti-Mordenite, Ti-ZSM-5, Fe-Mordenite, V-ZSM-5 and Ce/Mordenites. The prepared Zeolites were obtained from the raw materials present in EGYPT. Characterization of zeolites by XRD, N2 adsorption, FTIR, Mossbauer, UV-VIS diffuse reflectance spectroscopies, SEM as well as TPD was carried out. Dealumination of zeolite under various conditions of acid treatment and steaming has been investigated for the purpose of revealing the acidity changes and its effect on the zeolites stability & activity. 2. Shape selective, acid catalyzed hydrocarbon conversions. Emphasis is placed on the processing of aromatic hydrocarbon. 3. Selective oxidation on Molecular Sieve catalysts. A typical example is the preparation of TS-1 and titania as molecular sieve having mesoporous character using new surfactant templates as directing agents. 4. Applications of titanium oxide photocatalysis to create self-cleaning building materials besides its ability to degrade a variety of organic compounds as well as highly polluted metal ions and dyes has been carried out. The optimizations of these reactions are now revealed. 5. Synthesing Titania samples with discrete phases either anatase or rutile under hydrothermal conditions was carried out using different templating materials such as CTAB, SDS, CPBr and poly functionalized compounds. These samples were primarily microporous with some tendency of mesoporosity. 6. NO reduction, CO oxidation and water-gas shift reaction over some metal ions incorporated inside zeolites such as CeZSM-5 and Ce-mordenites were accomplished by using In-Situ FTIR spectroscopy in the oxide and reduced forms of these catalysts to stand on the ability to reduce NO into N2 as well as CO oxidation into CO2 . Having an idea about the mechanism of the reaction of these gases on zeolites surfaces was accomplished. 7. Using RICE HUSK in synthesizing ZSM-5 zeolites of various pore structures and incorporating Metal ions during their synthesis including Cobalt and Vanadium and finally stand on their reactivities towards complete oxidation of An acid green dye. 8. Synthesizing nano-catalytic materials for multipurpose such as reduction of some metal ions as well as complete oxidation of some organic moieties present in water (water purification). Petroleum transformation on nanocatalytic materials either encapsulated inside zeolites or mixed oxides. 9. Nanomaterials involving clusters, nanoparticles, quantum dots, nanowires and nanotubes, are of vital interest to the science and technology. The structure and properties of nanomaterials differ significantly from those of atoms and molecules as well as those of bulk materials. Synthesis, structure, energetics, response, dynamics and catalytic properties of such materials are of interest to me nowadays. A variety of other properties and related applications in medicine are now under investigation.