DR. SYED BAHARI RAMADZAN SYED ADNAN
Department of Physics
Faculty of Science
syed_bahari@um.edu.myView CV | |
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Biography | |
Dr. Syed Bahari Ramadzan Bin Syed Adnan is currently a Senior Lecturer in the Physics Department, Faculty of Science. He completed his Ph.D. in the subject of Material Science. His doctoral research focuses on ceramic material (NASICON, LISICON type structural) to be used as an electrolyte in Lithium/Sodium/Magnesium batteries. He expanded his research work by using green clay-based material, polymer, and ionic liquid as hybrid compounds. From 2014 to 2022, he served as a Senior Lecturer at the Physics Division, Centre for Foundation Studies in Science, Universiti Malaya. Additionally, he held the position of Deputy Director (Research and Development) from December 2017 to June 2022 and was also Acting Director (2018) at the Centre for Foundation Studies in Science. Throughout his tenure at the Universiti Malaya, he has secured funding and grants totaling nearly RM 600,000 and authored 40 journal papers indexed in ISI with an H index of 14. Moreover, he has successfully supervised the completion of 5 Ph.D. and 3 Master's Degree research candidates. He also was granted a research patent titled " A method for synthesizing nano ionic sodium zinc silicate" in 2023 by synthesis of that compound using halloysite nano-clay. |
Publication
Finance
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Influence Of Different Cation Doping On Structural Stability And Conductivity Of Na4sio4 Solid Electrolytes Synthesis Using Halloysite Natural Clay |
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Influence of Different Cations Doping On The Conductivity of Lithium Barium Silicate (Li2BaSiO4) Ceramic Electrolyte |
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The Effects Of Lattice Size Modification On Structural And Conductivity Of Ceramic Electrolyte |
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This information is generated from Research Grant Management System |
Novel halloysite based nanoionic Na2ZnSiO4 solid electrolyte: Structural and electrical properties (vol 46, pg 20369, 2020)
Synthesis and Characterization of Clay-Mg2Sio4 Nanoparticles for Potential Bioimplant Materials
Model-based state of X estimation of lithium-ion battery for electric vehicle applications
High-throughput development of Na2ZnSiO4-based hybrid electrolytes for sodium-ion batteries
PRE-UNIVERSITY PHYSICS
Comprehensive College Physics
Physics Laboratory Manual Semester 1 2015/2016
Physics Laboratory Manual Semester 2 2015/2016
Structural, electrical and electrochemical properties of Li4ZrxSi1-xO4 (0.02 ≤ x ≤ 0.06) ceramic electrolytes