Dr. Mohamed Ismail Awad

Professor
Cairo University, Egypt

Highest Degree
Ph.D. in Physical Chemistry from Tokyo Institute of Technology, Japan

My URL
https://livedna.org/20.9848

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Biography

Dr. Mohamed Ismail Awad is currently working as Professor at of Physical Chemistry in Faculty of Science, Cairo University. He received his PhD in Physical Chemistry from Tokyo Institute of Technology (TIT), Japan in 2002 and M.Sc in Physical Chemistry from Cairo University 1999. His area of research interest related to Nanotechnology, Electro Analysis: Chemical Sensors, Potentiometry, Amperometry, Fuel Cells: Developments of Efficient Cathodes, Industrial Electrochemistry: Electro Generation of Potent Oxidants, Porous Electrodes, Environmental and Electrochemical Applications, Corrosion of Steel and Corrosion Inhibitors. He is member of Electrochemical Society Inc, USA, and Japan Society for the Promotion of Science, Japan. He received Tejima Memorial Award for Invention, Tejima Seiichi Commemorative Foundation, 2004. Japan. He is also serving as peer reviewer of many journals. He has published 51 articles in journals as well as 33 presentations in conferences and 2 book chapter, and reviewer of 3 book chapters, and 2 patents contributed as author/co-author.

Area of Interest:

Chemistry
Nanotechnology
Electroanalysis
Fuel Cell
Industrial Electrochemistry

Selected Publications

  1. Nilushika, D., M.I. Awad, M.M. Saleh, T. Okajima, L. Mao and T. Ohsaka, 2015. A novel fabrication of a polymeric ionic liquid hybrid film modified electrode and its successful application to the electrogeneration of a superoxide anion in aqueous media. Chem. Commun., 51: 3343-3346.
    Direct Link  |  

  2. Awad, M.I., S. Sata, K. Kaneda, M. Ikematsu and T. Ohsaka, 2015. Ozone electrogeneration on Pt-TaO y sol-gel film modified titanium electrode: Effect of electrode composition on the electrocatalytic activity. J. Energy Chemi., 24: 178-184.
    CrossRef  |  Direct Link  |  

  3. Awad, M.I., M.M. Saleh and T. Ohsaka, 2015. Electroactivity regeneration of sulfur-poisoned platinum nanoparticle-modified glassy carbon electrode at low anodic potentials. J. Solid State Electrochem., 19: 1331-1340.
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  4. Khamis, A., M.M. Saleh, I. M. Awad and B.E. El-Anadouli, 2014. Inhibitory action of quaternary ammonium bromide on mild steel and synergistic effect with other halide ions in 0.5 M H2SO4. J. Adv. Res., .

  5. Hazazi, O.A., A. Fawzy and M. Awad, 2014. Synergistic effect of halides on the corrosion inhibition of mild steel in H2SO4 by a Triazole Derivative: Kinetics and thermodynamic studies. Int. J. Electrochem. Sci., 9: 4086-4103.

  6. El-Refaei, S.M., M.M. Saleh and M.I. Awad, 2014. Tolerance of glucose electrocatalytic oxidation on NiO x/MnO x/GC electrode to poisoning by halides. J. Solid State Electrochem., 18: 5-12.
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  7. Khamis, A., M.M. Saleh, M.I. Awad and B.E. El-Anadouli, 2013. Enhancing the inhibition action of cationic surfactant with sodium halides for mild steel in 0.5 MH 2 SO 4. Corros. Sci., 74: 83-91.
    CrossRef  |  

  8. Khamis, A., M.M. Saleh and M.I. Awad, 2013. Synergistic inhibitor effect of cetylpyridinium chloride and other halides on the corrosion of mild steel in 0.5 MH 2 SO 4. Corros. Sci., 66: 343-349.
    CrossRef  |  

  9. El-Refaei, S.M., M.M. Saleh and M.I. Awad, 2013. Enhanced glucose electrooxidation at a binary catalyst of manganese and nickel oxides modified glassy carbon electrode. J. Power Sources, 223: 125-128.
    CrossRef  |  

  10. El-Refaei, S.M., M.I. Awad, B.E. El-Anadouli and M.M. Saleh, 2013. Electrocatalytic glucose oxidation at binary catalyst of nickel and manganese oxides nanoparticles modified glassy carbon electrode: Optimization of the loading level and order of deposition. Electrochim. Acta, 92: 460-467.
    CrossRef  |  

  11. Awad, M.I. and T. Ohsaka, 2013. An electrocatalytic oxygen reduction by copper nanoparticles-modified Au (100)-rich polycrystalline gold electrode in 0.5 M KOH. J. Power Sources, 226: 306-312.
    CrossRef  |  

  12. Saleh, M.M., M.I. Awad, F. Kitamura and T. Ohsaka, 2012. Sulphur dioxide poisoning and recovery of platinum nanoparticles: effect of particle size. Int. J. Electrochem. Sci., 7: 12004-12020.

  13. Sadiek, I.M., A.M. Mohammad, M.E. El-Shakre, M.I. Awad, M.S. El-Deab and B.E. Anadouli, 2012. Electrocatalytic evolution of oxygen gas at cobalt oxide nanoparticles modified electrodes. Int. j. electrochem. Sci., 7: 3350-3361.
    Direct Link  |  

  14. Rahman, M.R., M.I. Awad, F. Kitamura, T. Okajima and T. Ohsaka, 2012. A comparative study of ORR at the Pt electrode in ammonium ion-contaminated H 2 SO 4 and HClO 4 solutions. J. Power Sources, 220: 65-73.
    CrossRef  |  

  15. Khamis, A., M.M. Saleh and M.I. Awad, 2012. The counter ion influence of cationic surfactant and role of chloride ion synergism on corrosion inhibition of mild steel in acidic media. Int. J. Electrochem. Sci., 7: 10487-10500.

  16. Awad, M.I., A.M. Mohammad and T. Ohsaka, 2012. Electroanalysis of a ternary disinfectant mixture. Anal. Lett., 45: 1506-1518.
    Direct Link  |  

  17. Awad, M.I., 2012. Selective electronalysis of peracetic acid in the presence of a large excess of H 2 O 2 at Au (111)-like gold electrode. Anal. Chim. Acta, 730: 60-65.
    CrossRef  |  

  18. Awad, M.I., M.M. Saleh and T. Ohsaka, 2011. Impact of SO 2 poisoning of platinum nanoparticles modified glassy carbon electrode on oxygen reduction. J. Power Sources, 196: 3722-3728.
    CrossRef  |  

  19. Sata, S., M.I. Awad, M.S. El-Deab, T. Okajima and T. Ohsaka, 2010. Hydrogen spillover phenomenon: Enhanced reversible hydrogen adsorption/desorption at Ta2O5-coated Pt electrode in acidic media. Electrochimica Acta, 55: 3528-3536.
    CrossRef  |  

  20. Awad, M.I. and M.M. Saleh, 2010. Electrochemical generation of ozone at PbO2-loaded platinum screens. J. Solid State Electrochem., 14: 1877-1883.
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  21. Abdullah, A.M., M.M. Saleh, M.I. Awad, T. Okajima, F. Kitamura and T. Ohsaka, 2010. Temperature effect on the recovery of SO2-Poisoned GC/Nano-Pt electrode towards oxygen reduction. J. Solid State Electrochem., 14: 1727-1734.
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  22. Mohammad, A.M., K. Kitsuka, A.M. Abdullah, M.I. Awad, T. Okajima, K. Kaneda and T. Ohsaka, 2009. Development of spin-coated Si/TiOx/Pt/TiOx electrodes for the electrochemical ozone production. Appl. Surf. Sci., 255: 8458-8463.
    CrossRef  |  

  23. Mohammad, A.M., M.I. Awad, M.S. El-Deab, T. Okajima and T. Ohsaka, 2008. Electrocatalysis by nanoparticles: Optimization of the loading level and operating pH for the oxygen evolution at crystallographically oriented manganese oxide nanorods modified electrodes. Electrochim. Acta, 53: 4351-4358.
    CrossRef  |  

  24. Awad, M.I., M.M. Saleh and T. Ohsaka, 2008. Oxygen reduction on rotating porous cylinder of modified reticulated vitreous carbon. J. Solid State Electrochem., 12: 251-258.
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  25. Saleh, M.M., M.I. Awad, T. Okajima, K. Suga and T. Ohsaka, 2007. Characterization of oxidized reticulated vitreous carbon electrode for oxygen reduction reaction in acid solutions. Electrochim. Acta, 52: 3095-3104.
    CrossRef  |  

  26. Saleh, M.M., M.I. Awad and T. Ohsaka, 2007. Characterization of oxidized reticulated vitreous carbon for generation of H2O2 from flowing acid solutions. ECS Trans., 3: 67-78.

  27. Mohammad, A.M., K. Kitsuka, K. Kaneda, M.I. Awad, A.M. Abdullah, M. Ikematsu and T. Ohsaka, 2007. Superior electrocatalysis of spin-coated titanium oxide electrodes for the electrochemical ozone production. Chem. Lett., 36: 1046-1047.

  28. Kitsuka, K., A.M. Mohammad, M.I. Awad, K. Kaneda, M. Ikematsu, M. Iseki and T. Ohsaka, 2007. Simultaneous spectrophotometric determination of ozone and hydrogen peroxide. Chem. Lett., 36: 1396-1397.

  29. El-Deab, M.S., M.I. Awad, A.M. Mohammad and T. Ohsaka, 2007. Enhanced water electrolysis: electrocatalytic generation of oxygen gas at manganese oxide nanorods modified electrodes. Electrochem. Commun., 9: 2082-2087.
    CrossRef  |  

  30. Awad, M.I., M.S. El-Deab and T. Ohsaka, 2007. Tailor-Designed platinum nanoparticles electrodeposited onto gold electrode catalytic activity for oxygen reduction. J. Electrochem. Soc., 154: 810-816.
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  31. Saleh, M.M., M.I. Awad, F. Kitamura and T. Ohsaka, 2006. Mathematical modeling of gas evolution from flowing electrolytes on stable porous anodes of finite matrix phase conductivity. Electrochim. acta, 51: 6331-6337.
    CrossRef  |  

  32. Ferdousi, B.N., M.M. Islam, M.I. Awad, T. Okajima, F. Kitamura and T. Ohsaka, 2006. Preparation and potentiometric measurement of peroxycitric acid. Electrochem., 74: 606-608.

  33. Awad, M.I., S. Sata, K. Kaneda, M. Ikematsu, T. Okajima and T. Ohsaka, 2006. Ozone electrogeneration at a high current efficiency using a tantalum oxide–platinum composite electrode. Electrochem. Commun., 8: 1263-1269.
    CrossRef  |  

  34. Awad, M.I., M.M. Saleh and T. Ohsaka, 2006. Ozone electrogeneration on Pt-loaded reticulated vitreous carbon using flooded and flow-through assembly. J. Electrochem. Soc., 153: 207-212.

  35. Awad, M.I., 2006. Eco friendly corrosion inhibitors: Inhibitive action of quinine for corrosion of low carbon steel in 1 m HCl. J. Appl. Electrochem., 36: 1163-1168.

  36. Awad, M.I., S. Sata and T. Ohsaka, 2005. Simultaneous electroanalysis of hypochlorite and H2O2: Use of I−/I2 as a probing potential buffer. Electroanalysis, 17: 769-775.
    CrossRef  |  

  37. Awad, M.I. and T. Ohsaka, 2005. Simultaneous electroanalysis of peroxone. Chem. Sensors, 21: 94-96.

  38. Denggerile, A., M.I. Awad, T. Okajima, C. Harnood and T. Ohsaka, 2004. Effect of electrode materials on the kinetics of the electro-reduction of peroxyacetic acid. Electrochim. acta, 49: 4135-4141.
    CrossRef  |  

  39. Awad, M.I., A. Denggerile and T. Ohsaka, 2004. Electroreduction of peroxyacetic acid at gold electrode in aqueous media. J. Electrochem. Soc., 151: 358-363.
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  40. Awad, M.I. and T. Ohsaka, 2004. Electroanalysis of peroxone. Electrochem. Commun., 6: 1135-1140.

  41. Awad, M.I. and T. Ohsaka, 2004. Bioelectrochemistry of molecular oxygen and reactive oxygen species 123. electroanalysis of PAA and H2O2: use of iodide/iodine couple as a probing potential buffer. Chem. Sensors, 38: 154-156.

  42. Awad, M.I., T. Oritani and T. Ohsaka, 2003. Simultaneous potentiometric determination of peracetic acid and hydrogen peroxide. Anal. Chem., 75: 2688-2693.
    CrossRef  |  

  43. Awad, M.I., T. Oritani and T. Ohsaka, 2003. Kinetic studies on the oxidation of iodide by peroxyacetic acid. Inorg. Chim. Acta, 344: 253-256.
    CrossRef  |  

  44. Awad, M.I. and T. Ohsaka, 2003. Potentiometric analysis of peroxyacetic acid in the presence of a large excess of hydrogen peroxide. J. Electroanal. Chem., 544: 35-40.
    CrossRef  |  

  45. Awad, M.I., C. Harnoode, K. Tokuda and T. Ohsaka, Awad, M.I., C. Harnoode, K. Tokuda and T. Ohsaka, 2001. Simultaneous electroanalysis of peroxyacetic acid and hydrogen peroxide. Anal. Chem., 73: 1839-1843.
    Direct Link  |  

  46. Awad, M.I., C. Harnoode, K. Tokuda and T. Ohsaka, 2001. Electroanalysis of peracetic acid in the presence of a large excess of hydrogen peroxide. Anal. Lett., 34: 1215-1221.
    Direct Link  |  

  47. Awad, M.I. and T. Ohsaka, 2001. Electroanalysis of peracetic acid in the presence of a large excess of hydrogen peroxide. Chem. Sensors, 17: 112-114.

  48. Awad, M.I., C. Harnoode, K. Tokuda and T. Ohsaka, 2000. Simultaneous electroanalysis of peracetic acid and hydrogen peroxide using square-wave voltammetry. Electrochem., 68: 895-897.
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