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6. STRUCTURAL INVESTIGATION OF SOLID BIOPOLYMER ELECTROLYTES: 2-HYDROXYETHYL CELLULOSE DOPED AMMONIUM FORMATE AS A PROMISING PROTON CONDUCTOR
ADVANCES IN POLYMER TECHNOLOGY
2024 ERA CO-AUTHOR -
7. SURFACE MODIFICATION VIA ALGINATE-BASED EDIBLE COATING FOR ENHANCED OSMOTIC DEHYDRATION MASS TRANSFER OF GINGER GINGER SLICES
PLANT SCIENCE TODAY
2023 SCOPUS CO-AUTHOR -
8. A REVIEW STUDY OF BINARY AND TERNARY ZNO/C COMPOSITES AS ANODES FOR HIGH-CAPACITY LITHIUM- ION BATTERIES
IONICS
2023 ISI, SCOPUS AND ERA CO-AUTHOR -
9. CHARACTERIZATION OF FREEZE-DRIED GINGER SLICES WITH CARBOXYMETHYL CELLULOSE AS POTENTIAL COATING MATERIAL PRIOR TO OSMOTIC DEHYDRATION
FOOD RESEARCH
2023 SCOPUS CO-AUTHOR -
10. PROTON-CONDUCTING BIOPOLYMER ELECTROLYTES BASED ON CARBOXYMETHYL CELLULOSE DOPED WITH AMMONIUM FORMATE
POLYMERS
2022 ERA CORRESPONDING AUTHOR
ACADEMIC QUALIFICATIONS
- PhD in Advanced Materials (2006)
- Bachelor in Computational Physics And Electronics (2002)
EXPERTISE
- Semiconductor Materials
- Other Polymer Materials
- Other Advanced Materials
- Material Physics
- Physical Science
PROF. Ts. DR. MOHD IKMAR NIZAM BIN MOHAMAD ISAPENSYARAH UNIVERSITI GRED KHAS C Faculty Fakulti Sains Dan Teknologi Biography A lecturer from Fakulti Sains Dan Teknologi. Holds a Phd in Advanced Materials. Usim Expert: https://expert.usim.edu.my/ikmar_isa Phone: 78740 E-mail: ikmar_isa@usim.edu.my |
RESEARCHER
ID
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1. EVALUATION OF THE ROLE OF DOPING COMPOSITION IN ZNO/C ANODE MATERIALS FOR PROTON BATTERIES: INSIGHTS FROM STRUCTURAL TO CONDUCTIVITY INVESTIGATIONS
2024 GERAN KPT ON GOING CO-RESEARCHER -
2. ENHANCING IONIC CONDUCTING PROPERTIES OF 2HYDROXYETHYL CELLULOSE-BASED POLYMERS VIA AMMONIUM FORMATE DOPING PROCESS FOR ENERGY STORAGE APPLICATION
2023 GERAN PENYELIDIKAN PENTADBIR ON GOING MAIN RESEARCHER -
3. TRANSPORT PROPERTIES OF CELLULOSE DERIVATIES BASED POLYMER ELECTROLYTE DOPED WITH IONIC LIQUIDS USING SPECTROSCOPY METHODS
2023 GERAN KPT ON GOING CO-RESEARCHER -
4. IMMITTANCE RESPONSES AND IONIC CONDUCTION MECHANISM STUDIES OF ENHANCED CMC SOLID BIOPOLYMER ELECTROLYTES VIA FTIR DECONVOLUTION APPROACH
2019 GERAN PENYELIDIKAN USIM COMPLETED MAIN RESEARCHER
Completed: 1 (25%)
Ongoing: 3 (75%)