dr. muhammed ali shaikh abdul kader abdul hameed

pensyarah universiti

institut sel fuel (selfuel)

 mas@ukm.edu.my

No. sambungan :  0389118496

No. rasmi:
UKM : 03 8921 5555



   Biografi/ Biography :


  • Dr. Muhammed Ali Shaikh Abdul Kader Abdul Hameed has been a senior lecturer at Fuel Cell Instituite, Universiti Kebangsaan Malaysia since September 2021. He earned his Ph.D. in Fuel Cell Engineering from Universiti Kebangsaan Malaysia in 2018. His Ph.D. thesis focused on improving the microstructural properties of lanthanum-based cathode materials and, as a result, their electrochemical efficiency. He developed a synthesis technique and fabrication conditions that significantly improved the electrochemical properties of such materials. His findings indicated that the proper selection of synthesis techniques and fabrication conditions significantly contributes to the improvement of LSCF cathode efficiency. His specialty is in the synthesis of ultra-fine powders using combustion techniques, as well as the study of their physical, mechanical, and electrical properties using advanced analysis techniques. His current research work focusing on fuel cells, electrolyzer, and CO2 conversion and utilization. He has co-authored over 20 publications that have been indexed in WoS. He has served as a reviewer for several high-impact journals such as Ceramics International, Ionics, International Journal of Hydrogen Energy, Royal Society of Chemistry, Jurnal Kejuruteraan (Journal of Engineering), and Processing and Application of Ceramics.

  • dedikarni panuh, s.a. muhammed ali, dody yulianto, muhammad fadhlullah shukur, andanastuti muchtar.  (2021).  effect of yttrium-stabilized bismuth bilayer electrolyte thickness on the electrochemical performance of anode-supported solid oxide fuel cells.  - ceramics international.  6310-6317. 

     

    muhammed ali shaikh abdul, ahmad zubair yahaya, mustafa anwar, mun teng soo, andanastuti muchtar, vadim m. kovrugin.  (2021).  effect of synthesis method of nickel-samarium-doped ceria anode on distribution of triple-phase boundary and electrochemical performance.  - crystals.  1-17. 

     

    w.n.a. wan yusoff, n.a. baharuddin, m.r. somalu, s.a. muhammed ali, a. muchtar, m. anwar.  (2021).  preliminary electrical behaviour studies on lini1-xruxo2 (x=0,0.1,0.2) as potential electrode for reversible solid oxide fuel cell.  - 1st international symposium of reaction engineering, catalysis & sustainable energy (recase2021).  1-4. 

     

    dedikarni panuh, s.a. muhammed ali, dody yulianto, muhammad fadhlullah shukur, andanastuti muchtar.  (2021).  effect of yttrium-stabilized bismuth bilayer electrolyte thickness on the electrochemical performance of anode-supported solid oxide fuel cells.  - ceramics international.  6310-6317. 

     

    muhammed ali shaikh abdul, ahmad zubair yahaya, mustafa anwar, mun teng soo, andanastuti muchtar, vadim m. kovrugin.  (2021).  effect of synthesis method of nickel-samarium-doped ceria anode on distribution of triple-phase boundary and electrochemical performance.  - crystals.  1-17. 

     

    w.n.a. wan yusoff, n.a. baharuddin, m.r. somalu, s.a. muhammed ali, a. muchtar, m. anwar.  (2021).  preliminary electrical behaviour studies on lini1-xruxo2 (x=0,0.1,0.2) as potential electrode for reversible solid oxide fuel cell.  - 1st international symposium of reaction engineering, catalysis & sustainable energy (recase2021).  1-4.