Norlida Kamarulzaman
Norlida Kamarulzaman
Professor of Physics (Advanced and Nanomaterials), Universiti Teknologi MARA, Malaysia
Verified email at salam.uitm.edu.my
Title
Cited by
Cited by
Year
Structural changes in a commercial lithium-ion battery during electrochemical cycling: An in situ neutron diffraction study
N Sharma, VK Peterson, MM Elcombe, M Avdeev, AJ Studer, N Blagojevic, ...
Journal of Power Sources 195 (24), 8258-8266, 2010
1842010
Band gap narrowing and widening of ZnO nanostructures and doped materials
N Kamarulzaman, MF Kasim, R Rusdi
Nanoscale research letters 10 (1), 1-12, 2015
1512015
Preparation and band gap energies of ZnO nanotubes, nanorods and spherical nanostructures
R Rusdi, A Abd Rahman, NS Mohamed, N Kamarudin, N Kamarulzaman
Powder Technology 210 (1), 18-22, 2011
1402011
Synthesis, structural, and optical properties of type-II ZnO–ZnS core–shell nanostructure
M Sookhakian, YM Amin, WJ Basirun, MT Tajabadi, N Kamarulzaman
Journal of Luminescence 145, 244-252, 2014
782014
Growth mechanisms of MgO nanocrystals via a sol-gel synthesis using different complexing agents
MS Mastuli, N Kamarulzaman, MA Nawawi, AM Mahat, R Rusdi, ...
Nanoscale research letters 9 (1), 1-9, 2014
572014
Investigation of cell parameters, microstructures and electrochemical behaviour of LiMn2O4 normal and nano powders
N Kamarulzaman, R Yusoff, N Kamarudin, NH Shaari, NAA Aziz, ...
Journal of Power Sources 188 (1), 274-280, 2009
562009
Elucidation of the highest valence band and lowest conduction band shifts using XPS for ZnO and Zn0. 99Cu0. 01O band gap changes
N Kamarulzaman, MF Kasim, NF Chayed
Results in physics 6, 217-230, 2016
532016
Band gap energies of magnesium oxide nanomaterials synthesized by the sol-gel method
N Badar, NF Chayed, R Roshidah, N Kamarudin, N Kamarulzaman
Advanced Materials Research 545, 157-160, 2012
392012
Catalytic gasification of oil palm frond biomass in supercritical water using MgO supported Ni, Cu and Zn oxides as catalysts for hydrogen production
MS Mastuli, N Kamarulzaman, MF Kasim, S Sivasangar, MI Saiman, ...
International Journal of Hydrogen Energy 42 (16), 11215-11228, 2017
382017
Infrared and conductivity studies on blends of PMMA/PEO based polymer electrolytes
Z Osman, NM Ansor, KW Chew, N Kamarulzaman
Ionics 11 (5-6), 431-435, 2005
342005
Lithium ion conduction and ion–polymer interaction in PVdF-HFP based gel polymer electrolytes
KBM Isa, Z Osman, AK Arof, L Othman, NH Zainol, SM Samin, WG Chong, ...
Solid State Ionics 268, 288-293, 2014
302014
Synthesis and battery studies of sodium cobalt oxides, NaCoO2 cathodes
NK Samin, R Roshidah, N Kamarudin, N Kamarulzaman
Advanced Materials Research 545, 185-189, 2012
242012
Chitosan-based electrolyte for secondary lithium cells
AK Arof, Z Osman, NM Morni, N Kamarulzaman, ZA Ibrahim, ...
Journal of materials science 36 (3), 791-793, 2001
232001
Band gap narrowing of 2-D ultra-thin MgO graphene-like sheets
N Kamarulzaman, NF Chayed, N Badar, MF Kasim, DT Mustaffa, K Elong, ...
ECS Journal of Solid State Science and Technology 5 (11), Q3038, 2016
212016
Effects of the absorption behaviour of ZnO nanoparticles on cytotoxicity measurements
N Najim, R Rusdi, AS Hamzah, Z Shaameri, M Mat Zain, ...
Journal of Nanomaterials 2014, 2014
212014
Sol-gel synthesis of highly stable nano sized MgO from magnesium oxalate dihydrate
MS Mastuli, R Roshidah, AM Mahat, N Saat, N Kamarulzaman
Advanced Materials Research 545, 137-142, 2012
202012
Characterization and microstructural studies of LiFe5O8 synthesized by the self propagating high temperature combustion method
N Kamarulzaman, RHY Subban, K Ismail, N Othman, WJ Basirun, ...
Ionics 11 (5-6), 446-450, 2005
162005
Effects of plasticiser on the lithium ionic conductivity of polymer electrolyte PVC-LiCF 3 SO 3
RHY Subban, AH Ahmad, N Kamarulzaman, AMM Ali
Ionics 11 (5), 442-445, 2005
162005
Performance characteristics of LiMn2O4/polymer/carbon electrochemical cells
N Kamarulzaman, Z Osman, MR Muhamad, ZA Ibrahim, AK Arof, ...
Journal of power sources 97, 722-725, 2001
162001
Solid Solutions of LiCo1-xNixO2 (x = 0, 0.1, . . . , 0.9) Obtained via a Combustion Synthesis Route and Their Electrochemical Characteristics.
K Elong, N Kamarulzaman, R Rusdi, N Badar, MH Jaafar
ISRN Condensed Matter Physics, 2013
132013
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