Journal Papers

Journal papers


  • Arrouvel C, Parker S C and Islam M S, ‘Lithium Insertion and Transport in
    the TiO2-B Anode Material: A Computational Study’    , Chem. Mater. 21,
    4778-4783 (2009)
  • Kuganathan N and Islam M S, ‘Li2MnSiO4 Lithium Battery Material:
    Atomic-Scale Study of Defects, Lithium Mobility, and Trivalent Dopants’    ,
    Chem. Mater. 21, 5196-5202 (2009)
  • Islam M S and Slater P R, ‘Solid-State Materials for Clean Energy: Insights
    from Atomic Scale Modeling’    , MRS Bulletin 34, 935-941 (2009) [invited
    review]
  • Gardiner G R and Islam M S, ‘Anti-Site Defects and Ion Migration in the
    LiFe0.5Mn0.5PO4 Mixed-Metal Cathode Material’    , Chem. Mater. 22, 1242-1248
    (2010)
  • Fisher C A J, Islam M S and Moriwake H, ‘Atomic Level Investigations of
    Lithium Ion Battery Cathode Materials’    , J. Phys. Soc. Jpn. 79, 59-64 (2010)
  • M Mirzaeian and P J Hall, ‘Characterizing capacity loss of lithium oxygen batteries by impedance spectroscopy’, Journal of Electrochimica Acta (2009)
  • M Mirzaeian and P J Hall, ‘Preparation of controlled porosity carbon aerogels for energy storage in rechargeable lithium air batteries’, Journal of Electrochimica Acta (2009) Available Online, 5 August 2009
  • M Mirzaeian and P J Hall, ‘Nano structure carbons for energy storage in lithium oxygen batteries’, Journal of Power and Energy (2009) submitted
  • A Chandra, A J Roberts, E Lam How Yee and R C T Slade, ‘Nanostructured oxides for energy storage applications in batteries and supercapacitors’, Pure and Applied Chemistry (2009) submitted
  • A Chandra, A J Roberts and R C T Slade, ‘Nanostructured vanadium oxide based systems: Their applications in supercapacitors’, Journal of Power Sources (2009) submitted
  • M Mirzaeian and P J Hall, ‘The control of porosity at nano scale in resorcinol formaldehyde carbon aerogels’, Journal of Materials Science, 44 (2009) 2705-2713
  • C A J Fisher, V M Hart Prieto and M S Islam, ‘Lithium battery materials LiMPO4 (M = Mn, Fe, Co, Ni): Insights into defect association, transport mechanisms and doping behavior’, Chemistry of Materials, 20 (2008) 5907-5915
  • A Chandra, A J Roberts and R C T Slade, ‘Studies of nanostructures and conductivity in the system VxMo1-xOy’, Solid State Communications 147 (2008) 83-87
  • A R Armstrong, D W Tee, F La Mantia, P Novak and P G Bruce, ‘Synthesis of tetrahedral LiFeO2 and its behavior as a cathode in rechargeable lithium batteries’, Journal of the American Chemical Society, 130 (2008) 3554-3559
  • A Debart, A J Paterson, J Bao and P G Bruce, ‘Alpha-MnO2 nanowires: a catalyst for the O2 electrode in rechargeable lithium batteries’, Angewandte Chemie-International Edition, 47 (2008) 4521-4524
  • C A J Fisher and M S Islam, ‘Surface structures and crystal morphologies of LiFePO4: Relevance to electrochemical behaviour’, Journal of Materials Chemistry, 18 (2008) 1209-1215
  • A Debart, J Bao, G Armstrong and P G Bruce, ‘An O2 cathode for rechargeable lithium batteries: The effect of a catalyst’, Journal of Power Sources, 174 (2007) 1177-1182
  • F Jiao, J Bao and P G Bruce, ‘Factors influencing the rate of Fe2O3 conversion reaction’, Electrochemical and Solid State Letters, 10 (2007) A264-A266
  • W Du, S Gao, H F Wang, R Dunn and S J Cheng, ‘Power system oscillations and energy storage systems’, Power System Technology, 31 (2007) 109-120
  • M Mirzaeian and P J Hall, ‘High capacity carbon based electrodes for lithium/oxygen batteries’, Power System Technology, 31 (2007) 90-97
  • F Jiao and P G Bruce, ‘Mesoporous crystalline beta-MnO2—a reversible positive electrode for rechargeable lithium batteries’, Advanced Materials, 19 (2007) 657-660
  • G Armstrong, A R Armstrong, P G Bruce, P Reale, and B Scrosati, ‘TiO2(B) nanowires as an improved anode material for lithium-ion batteries containing LiFePO4 or LiNi0.5Mn1.5O4 cathodes and a polymer electrolyte’, Advanced Materials, 18 (2006) 2597-2600


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