Publications

Citation Information

  • Google Scholar citations [link] h-index = 65
  • Researchgate [link]

Recent papers in Nature journals

* Aristidou N, Eames C, Sanchez-Molina I, Bu X, Kosco J, Islam MS and Haque SA, ‘Fast Oxygen Diffusion and Iodide Defects Mediate Oxygen-Induced Degradation of Perovskite Solar Cells ’, Nat. Commun. 8, 15218 (2017) [Journal Link]
* Yuan Y, Zhan C, He K, Chen H, Yao W, Sharifi-Asl S, Song B, Yang Z, Nie A, Luo X, Wang H, Wood S M, Amine K, Islam M S, Lu J and Shahbazian-Yassar R, ‘The Influence of Large Cations on the Electrochemical Properties of Tunnel-Structured Metal Oxides ’, Nat. Commun. 7, 13374 (2016) [Journal Link]
* Eames C, Frost J M, Barnes P R F, O'Regan B C, Walsh A and Islam M S, ‘Ionic transport in hybrid lead iodide perovskite solar cells’, Nat. Commun. 6, 7497 (2015) [Journal Link]
* Armstrong A R, Lyness C, Panchmatia P, Islam M S, Bruce P G,‘The lithium intercalation process in the low voltage lithium battery anode Li1+xV1-xO2’, Nat. Mater. 10, 223 (2011) [Journal Link]
* Kendrick E, Kendrick J, Knight K S, Islam M S and Slater P R, ‘Cooperative Mechanisms of Fast-Ion Conduction in Gallium-Based Oxides with Tetrahedral Moieties’, Nat. Mater. 6, 871 (2007) [Journal Link]

Full List of Publications

2017

  1. 194. Ghosh D, Walsh Atkins P, Islam MS, Walker AB, Eames C, ‘Good vibrations: locking of octahedral tilting in mixed-cation iodide perovskites for solar cells’, ACS Energy Lett., 2, 2424-2429 (2017) [Journal Link]
  2. 193. Brenes R, Guo D, Osherov A, Noel NK, Eames C, Hutter EM, Pathak SK, Niroui F, Friend RH, Islam MS, Snaith HJ, Bulović V, Savenije TJ, Stranks SD, ‘Metal Halide Perovskite Polycrystalline Films Exhibiting Properties of Single Crystals’, Joule, 1, 155-167 (2017) [Journal Link]
  3. 192. Baran J, Eames C, Takahashi K, Molinari M, Islam MS and Parker SC, ‘Structural, Electronic and Transport Properties of Hybrid SrTiO3-Graphene and Carbon Nanoribbon Interfaces’, Chem. Mater., 29, 7364-7370 (2017) [Journal Link]
  4. 191. Dawson JA, Naylor AJ, Eames C, Roberts M, Zhang W, Snaith HJ, Bruce PG and Islam MS, ‘Mechanisms of lithium intercalation and conversion processes in organic-inorganic halide perovskites’, ACS Energy Lett., 2, 1818-1824 (2017) [Journal Link]
  5. 190. Heath J, Chen H and Islam MS, ‘MgFeSiO4 as a potential cathode material for magnesium batteries: ion diffusion rates and voltage trends’, J. Mater. Chem. A, 5, 13161-13167 (2017) [Journal Link]
  6. 189. Aristidou N, Eames C, Sanchez-Molina I, Bu X, Kosco J, Islam MS and Haque SA, ‘Fast Oxygen Diffusion and Iodide Defects Mediate Oxygen-Induced Degradation of Perovskite Solar Cells’, Nature Commun.,8, 15218 (2017) [Journal Link]
  7. 188. Deng Y, Eames C, Fleutot B, David R, Chotard JN, Suard E, Masquelier C, Islam MS, ‘Enhancing the Lithium Ion Conductivity in Lithium Superionic Conductor (LISICON) Solid Electrolytes through a Mixed Polyanion Effect’, ACS Appl. Mater. Interfaces, 9, 7050-7058 (2017) [Journal Link]
  8. 187. Billaud J, Eames C, Tapia-Ruiz N, Roberts M R, Naylor A J, Armstrong R, Islam M S, Bruce P, ‘Evidence of Enhanced Ion Transport in Li-Rich Silicate Intercalation Materials’, Adv. Energy Mater., 1601043 (2017) [Journal Link]

2016

  1. 186. Treacher J C, Wood S M, Islam M S and Kendrick E, ‘Na2CoSiO4 as a cathode material for sodium-ion batteries: structure, electrochemistry and diffusion pathways’, Phys. Chem. Chem. Phys., 18, 32744-32752 (2016) [Journal Link]
  2. 185. Yuan Y, Zhan C, He K, Chen H, Yao W, Sharifi-Asl S, Song B, Yang Z, Nie A, Luo X, Wang H, Wood S M, Amine K, Islam M S, Lu J and Shahbazian-Yassar R, ‘The Influence of Large Cations on the Electrochemical Properties of Tunnel-Structured Metal Oxides’, Nature Commun., 7, 13374 (2016) [Journal Link]
  3. 184. Ferrara C, Eames C, Islam M S and Tealdi C, ‘Lattice strain effects on doping, hydration and proton transport in scheelite-type electrolytes for solid oxide fuel cells’, Phys. Chem. Chem. Phys., 18, 29330-29336 (2016) [Journal Link]
  4. 183. Chen H and Islam M S, ‘Lithium Extraction Mechanism in Li-Rich Li2MnO3 Involving Oxygen Hole Formation and Dimerization’, Chem. Mater., 28, 6656-6663 (2016) [Journal Link]
  5. 182. Tealdi C, Heath J, Islam M S, ‘Feeling the strain: enhancing ionic transport in olivine phosphate cathodes for Li- and Na-ion batteries through strain effects’, J. Mater. Chem. A, 4, 6998-7004 (2016) [Journal Link]
  6. 181. Yuan Y, Wood S M, He K, Yao W, Tompsett D, Nie A, Islam M S and Shahbazian-Yassar R, ‘Atomistic Insights into the Oriented Attachment of Tunnel-Based Oxide Nanostructures’, ACS Nano, 10, 539-548 (2016) [Journal Link]

2015

  1. 180. Roos J, Eames C, Wood S M, Whiteside A and Islam M S, ‘Unusual Mn Coordination and Redox Chemistry in the High Capacity Borate Cathode Li7Mn(BO3)3’, Phys. Chem. Chem. Phys., 17, 22259-22265 (2015) [Journal Link]
  2. 179. Deng Y, Eames C, Chotard J-N, Lalere F, Seznec V, Emge S, Pecher O, Grey C P, Masquelier C and Islam M S, ‘Structural and Mechanistic Insights into Fast Lithium-Ion Conduction in Li4SiO4-Li3PO4 Solid Electrolytes’, J. Am. Chem. Soc., 137, 9136-9145 (2015) [Journal Link]
  3. 178. Wood S M, Eames C, Kendrick E and Islam M S, ‘Sodium-Ion Diffusion and Voltage Trends in Phosphates Na4M3(PO4)2P2O7 (M = Fe, Mn, Co, Ni) for Possible High Rate Cathodes’, J. Phys. Chem. C, 119, 15935-15941 (2015) [Journal Link]
  4. 177. Eames C, Frost J M, Barnes P R F, O'Regan B C, Walsh A and Islam M S, ‘Ionic transport in hybrid lead iodide perovskite solar cells’, Nature Commun., 6, 7497 (2015) [Journal Link]

2014

  1. 176. Tompsett D A and Islam M S, ‘Surfaces of Rutile MnO2 Are Electronically Conducting, Whereas the Bulk Material is Insulating’, J. Phys. Chem. C, 118, 25009-25015 (2014) [Journal Link]
  2. 175. Eames C and Islam M S, ‘Ion Intercalation into Two-Dimensional Transition-Metal Carbides: Global Screening for New High-Capacity Battery Materials’, J. Am. Chem. Soc., 136, 16270-16276 (2014) [Journal Link]
  3. 174. Whiteside A, Fisher C A J, Parker S C and Islam M S, ‘Particle Shapes and Surface Structures of Olivine NaFePO4 in Comparison to LiFePO4’, Phys. Chem. Chem. Phys., 16, 21788-21794 (2014) [Journal Link][pdf]
  4. 173. Panchmatia P M, Armstrong A R, Bruce P G and Islam M S, ‘Lithium-ion diffusion mechanisms in the battery anode material Li1+xV1-xO2’, Phys. Chem. Chem. Phys., 16, 21114-21118 (2014) [Journal Link][pdf]
  5. 172. Tompsett D A, Parker S C and Islam M S, ‘Surface Properties of α-MnO2: Relevance to Catalytic and Supercapacitor Behaviour’, J. Mater. Chem. A, 2, 15509-15518 (2014) [[Journal Link][pdf]
  6. 171. Clark J M, Barpanda P, Yamada A and Islam M S, ‘Sodium-ion battery cathodes Na2FeP2O7 and Na2MnP2O7: diffusion behaviour for high rate performance’, J. Mater. Chem. A, 2, 11807-11812 (2014) [Journal Link][pdf]
  7. 170. Eames C, Clark J M, Rousse G, Tarascon J-M and Islam M S, ‘Lithium Migration Pathways and van der Waals Effects in the LiFeSO4OH Battery Material’, Chem. Mater., 26, 3672-3678 (2014) [Journal Link][pdf]
  8. 169. Andreev Y G, Panchmatia P M, Liu Z, Parker S C, Islam M S and Bruce P G, ‘The Shape of TiO2-B Nanoparticles’, J. Am. Chem. Soc., 136, 6306-6312 (2014) [Journal Link][pdf]
  9. 168. Clark J M, Eames C, Reynaud M, Rousse G, Chotard J N, Tarascon JM and Islam M S, ‘High voltage sulphate cathodes Li2M(SO4)2 (M = Fe, Mn, Co): atomic-scale studies of lithium diffusion, surfaces and voltage trends’, J. Mater. Chem. A, 2, 7446-7453 (2014) [Journal Link][pdf]
  10. 167. Tompsett D A, Parker S C and Islam M S, ‘Rutile MnO2 Surfaces and Vacancy Formation for High Electrochemical and Catalytic Performance’, J. Am. Chem. Soc., 136, 1418-1426 (2014) [Journal Link][pdf]
  11. 166. Islam M S and Fisher C A J, ‘Lithium and sodium battery cathode materials: computational insights into voltage, diffusion and nanostructural properties’, Chem. Soc. Rev., 43, 185-204 (2014) [Journal Link][pdf]

2013

  1. 165. Schroeder M, Eames C, Tompsett D A, Lieser G and Islam M S, ‘LixFeF6 (x = 2, 3, 4) battery materials: structural, electronic and lithium diffusion properties’, Phys. Chem. Chem. Phys., 15, 20473-20479 (2013) [Journal Link]
  2. 164. Tripathi R, Wood S M, Islam M S and Nazar L F, ‘Na-ion mobility in layered Na2FePO4F and olivine Na[Fe,Mn]PO4’, Energy Environ. Sci., 6, 2257-2264 (2013) [Journal Link]
  3. 163. Tompsett D A and Islam M S, ‘Electrochemistry of Hollandite α-MnO2: Li-Ion and Na-Ion Insertion and Li2O Incorporation’, Chem. Mater., 25, 2515-2526 (2013) [Journal Link]
  4. 162. Islam M S and Fisher C A J, ‘Energy Storage - Rechargeable Lithium Batteries’, chapter 4 in Computational Approaches to Energy Materials (editors: Walsh A, Sokol A, Catlow CRA), Wiley (2013) [Link]
  5. 161. Gonzalo E, Kuhn A, García-Alvarado F and Islam M S, ‘Defect and dopant properties of the alpha- and beta-polymorphs of the Li3FeF6 lithium battery material’, J. Mater. Chem. A., 1, 6588-6592 (2013) [Journal Link]
  6. 160. Fisher C A J, Kuganathan N and Islam M S, ‘Defect chemistry and lithium-ion migration in polymorphs of the cathode material Li2MnSiO4’, J. Mater. Chem. A., 1, 4207-4214 (2013) [Journal Link]
  7. 159. Tompsett D A, Parker S C, Bruce P G and Islam M S, ‘Nanostructuring of β-MnO2: The Important Role of Surface to Bulk Ion Migration’, Chem. Mater., 25, 536 (2013) [Journal Link]

2012

  1. 158. Clark J M, Nishimura S, Yamada A and Islam M S, ‘High Voltage Pyrophosphate Cathode: Insights Into Local Structure and Lithium Diffusion Pathways’, Angew. Chem. Int. Ed., 51, 13149-13153 (2012) [Journal Link]
  2. 157. Phadke S, Nino J C and Islam M S, ‘Structural and defect properties of the LaPO4 and LaP5O14-based proton conductors’, J. Mater. Chem., 22, 25388-25394 (2012) [Jounal Link]
  3. 156. Tompsett D A, Middlemiss D and Islam M S, ‘The importance of anisotropic Coulomb interactions to the band gap and antiferromagnetism of alpha-MnO2’, Phys. Rev. B, 86, 205126 (2012) [Journal Link]
  4. 155. Eames C, Armstrong A R, Bruce P G and Islam M S, ‘Insights into Changes in Voltage and Structure of Li2FeSiO4 Polymorphs for Lithium-Ion Batteries’, Chem. Mater., 24, 2155-2161 (2012) [Jounal Link]
  5. 154. Colombara D, Peter L M, Hutchings K, Rogers K D, Schäfer S, Dufton J T R and Islam M S, ‘Formation of Cu3BiS3 thin films via sulfurization of Bi-Cu metal precursors’, Thin Solid Films, 520, 5165-5171 (2012) [Jounal Link]
  6. 153. Molinari M, Parker S C, Sayle DC and Islam M S, ‘Water Adsorption and Its Effect on the Stability of Low Index Stoichiometric and Reduced Surfaces of Ceria’, J. Phys. Chem. C, 116, 7073-7082, (2012) [Jounal Link]
  7. 152. Dufton J T R, Walsh A, Panchmatia P M, Peter L M, Colombara C and Islam M S, ‘Structural and electronic properties of CuSbS2 and CuBiS2: potential absorber materials for thin-film solar cells’, Phys. Chem. Chem. Phys., 14, 7229-7233, (2012) [Jounal Link]
  8. 151. Tealdi C, Ferrara C, Mustarelli P and Islam M S, ‘Vacancy and interstitial oxide ion migration in heavily doped La2-xSrxCoO4-δ’, J. Mater. Chem., 22, 8969-897 (2012) [Jounal Link]
  9. 150. Magrasó A, Polfus J M, Frontera C, Canales-Vázquez J, Kalland L E, Hervoches C H, Erdal S, Hancke R, Islam M S, Norby T and Haugsrud R, ‘Complete structural model for lanthanum tungstate: a chemically stable high temperature proton conductor by means of intrinsic defects’, J. Mater. Chem. 22, 1762-1764 (2012) [Journal Link]

2011

  1. 149. Panchmatia P M, Orera A, Rees GJ, Smith ME, Hanna J, Slater PR and Islam M S, ‘Elucidation of Oxygen Defects and Novel Transport Mechanisms in Apatite Ionic Conductors: Combined 17O NMR and Modeling Studies’, Angew. Chem. Int. Ed. 50, 9328-9333 (2011) [Journal Link]
  2. 148. Armstrong A R , Kuganathan N, Islam M S and Bruce PB, ‘Structure and Lithium Transport Pathways in Li2FeSiO4 Cathodes for Lithium Batteries’, J. Am. Chem. Soc. 133, 13031-13035 (2011) [Journal Link]
  3. 147. Islam M S and Nazar L F, ‘Theme Issue: Advanced Materials for Lithium Batteries’, J. Mater. Chem. 21, 9810-9810 (2011) [Editorial for Themed Issue]
  4. 146. Islam M S, Dominko R, Masquelier C, Sirisopanaporn C, Armstrong A R and Bruce P G ‘Silicate cathodes for lithium batteries: alternatives to phosphates’, J. Mater. Chem. 21, 9811-9818 (2011) [Journal Link][pdf]
  5. 145. Tripathi R, Gardiner G R, Islam M S and Nazar L F, ‘Alkali-ion Conduction Paths in LiFeSO4F an NaFeSO4F Tavorite-Type Cathode Materials’, Chem. Mater. 23, 2278-2284 (2011) [Journal Link]
  6. 144. Armstrong A R, Lyness C, Panchmatia P, Islam M S, Bruce P G, ‘The lithium intercalation process in the low voltage lithium battery anode Li1+xV1-xO2’, Nature. Mater. 10, 223-229 (2011) [Journal Link]
  7. 143. Kendrick E, Kendrick J, Orera A, Panchmatia P , Islam M S and Slater P R, ‘Novel Aspects of the Conduction Mechanisms of Electrolytes Containing Tetrahedral Moieties’, Fuel Cells 11, 38-43 (2011) [Journal Link]
  8. 142. Orera A, Baikie T, Panchmatia P, White T J, Hanna J, Smith M E, Islam M S, Kendrick E and Slater P R ‘Strategies for the Optimisation of the Oxide Ion Conductivities of Apatite-Type Germanates’, Fuel Cells 11, 10-16 (2011) [Journal Link]
  9. 141. Malavasi L, Orera A, Slater P R, Panchmatia P, Islam M S and Siewenie J, ‘Local structure investigation of oxide ion and proton defects in Ge-apatites by pair distribution function analysis’, Chem. Commun. 47, 250-252 (2011) [Journal Link]

2010

  1. 140. Islam M S, Tealdi C and Mustarelli P, ‘Layered LaSrGa3O7-Based Oxide-Ion Conductors: Cooperative Transport Mechanisms and Flexible Structures’, Adv. Funct. Mater. 20, 3874-3880 (2010) [Journal Link]
  2. 139. Armstrong A R, Arrouvel C, Gentili V, Parker S C, Islam M S and Bruce P B, ‘Lithium Coordination Sites in LixTiO2(B): A Structural and Computational Study’, Chem. Mater. 22, 6426-6432 (2010) [Journal Link]
  3. 138. Mather G C, Fisher C A J and Islam M S, ‘Defects, Dopants and Protons in LaNbO4’, Chem. Mater. 22, 5912-5917 (2010) [Journal Link]
  4. 137. Kendrick, E, Knight K S, Islam M S and Slater P R, ‘Combined experimental and modelling studies of proton conducting La1-xBa1+xGaO4-x/2: proton location and dopant site selectivity’, J. Mater. Chem. 20, 10412-10416 (2010) [Journal Link]
  5. 136. Malavasi L, Fisher C A J, Islam M S ‘Oxide-ion and proton conducting electrolyte materials for clean energy applications: structural and mechanistic features’, Chem. Soc. Rev. 39, 4370-4387 (2010) [Journal Link]
  6. 135. Abrahams I, Liu X, Hull S, Norberg S T, Krok K, Kozanecka-Szmigiel A, Islam M S and Stokes S J, ‘A Combined Total Scattering and Simulation Approach to Analyzing Defect Structure in Bi3YO6’, Chem. Mater. 22, 4435-4445 (2010) [Journal Link]
  7. 134. Stokes S J and Islam M S, ‘Defect Chemistry and Proton-Dopant Association in BaZrO3 and BaPrO3’, J. Mater. Chem. 20, 6258 (2010) [Journal Link]
  8. 133. Islam M S, ‘Recent Atomistic Modelling Studies of Energy Materials: Batteries Included’, Phil. Trans. R. Soc. A 368, 3255 (2010) [Invited Review] [Journal Link]
  9. 132. 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) [pdf].
  10. 131. Panchmatia P M, Orera A, Kendrick E, J. V. Hanna J V, Smith M E, Slater P R and Islam M S, ‘Protonic Defects and Water Incorporation in Si and Ge-Based Apatite Ionic Conductors’, J. Mater. Chem. 20, 2766-2772 (2010) [Issue Cover Image] [Journal Link]
  11. 130. 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) [Journal Link]

2009

  1. 129. Islam M S and Slater P R, ‘Solid-State Materials for Clean Energy: Insights from Atomic Scale Modeling’, MRS Bull. 34, 935-941 (2009) [Journal Link][pdf] [invited review].
  2. 128. 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) [Journal Link]
  3. 127. 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) [Journal Link]
  4. 126. Al-Yasari A, Jones A, Orera A, Apperley D C, Driscoll D, Islam M S and Slater P R, ‘Preparation of High-Oxygen-Content Apatite Silicates Through Ti-Doping: Effect of Ti-Doping on the Oxide Ion Conductivity’, J. Mater. Chem. 19, 5003-5008 (2009) [Journal Link]

2008

  1. 125. Jones A, Islam M S and Slater P R, ‘Local Defect Structures and Ion Transport Mechanisms in the Oxygen-Excess Apatite La9.67(SiO4)6O2.5’, Chem. Mater. 20, 5055-5060 (2008) [Journal Link]
  2. 124. Fisher C A J, Hart Prieto V M and Islam M S, ‘Lithium Battery Materials LiMPO4 (M = Mn, Fe, Co, Ni): Insights into Defect Association, Transport Mechanisms and Doping Behavior’, Chem. Mater. 20, 5907-5915 (2008) [Journal Link]
  3. 123. Jones A and Islam M S, ‘Atomic-Scale Insight into LaFeO3 Perovskite: Defect Nanoclusters and Ion Migration’, J. Phys. Chem. C 112, 4455-4462 (2008) [Journal Link]
  4. 122. Fisher C A J and Islam M S, ‘Surface Structures and Crystal Morphologies of LiFePO4: Relevance to Electrochemical Behaviour’, J. Mater. Chem. 18, 1209-1215 (2008) [Journal Link]
  5. 121. Kendrick E, Islam M S and Slater P R, ‘Atomic-Scale Mechanistic Features of Oxide Ion Conduction in Apatite-Type Germanates’, Chem. Commun. 715-717 (2008) [Journal Link]

2007

  1. 120. Kendrick E, Kendrick J, Knight K S, Islam M S and Slater P R, ‘Cooperative Mechanisms of Fast-Ion Conduction in Gallium-Based Oxides with Tetrahedral Moieties’, Nature Mater. 6, 871-874 (2007) [Journal Link]
  2. 119. Tolchard J R, Slater P R and Islam M S, ‘Insight into Doping Effects in Apatite Silicate Ionic Conductors’, Adv. Funct. Mater. 17, 2564-2571 (2007) [Journal Link]
  3. 118. Kendrick E, Islam M S and Slater P R, ‘Developing Apatites for Solid Oxide Fuel Cells: Insight into Structural, Transport and Doping Properties’, J. Mater. Chem. 17, 3104-3111 (2007) [Journal Link] [invited review].
  4. 117. Islam M S, ‘Theme Issue: New Energy Materials’, J. Mater. Chem. 17, 3069-3070 (2007) [Journal Link] [editorial for theme issue].
  5. 116. 1Tealdi C, Islam M S, Fisher C A J, Malavasi L and Flor G, ‘Defect and Transport Properties of the NdCoO3 Catalyst and Sensor Material’, Prog. Solid State Chem. 35, 491-499 (2007) [Journal Link]
  6. 115. Kendrick E, Knight K S, Islam M S and Slater P R, ‘Structural Studies of the Proton Conducting Perovskite 'La0.6Ba0.4ScO2.8'’, Solid State Ionics 178, 943-949 (2007) [Journal Link]
  7. 114. Kruth A, Davies R A, Islam M S and Irvine J T S, ‘Combined Neutron Diffraction and Atomistic Modeling Studies of Structure, Defects, and Water Incorporation in Doped Barium Cerate Perovskites’, Chem. Mater. 19, 1239-1248 (2007) [Journal Link]
  8. 113. Mather G C, Islam M S and Figueirido F M, ‘Atomistic Study of a CaTiO3-Based Mixed Conductor: Defects, Nano-Scale Clusters and Oxide-Ion Migration’, Adv. Funct. Mater. 17, 905-912 (2007) [Journal Link]
  9. 112. Kendrick E, Islam M S and Slater P R, ‘Investigation of the Structural Changes on Zn Doping in the Apatite-Type Oxide Ion Conductor La9.33Si6O26: A Combined Neutron Diffraction and Atomistic Simulation Study’, Solid State Ionics 177, 3411-3416 (2007) [Journal Link]
  10. 111. Kendrick E, Sansom J E H, Tolchard J R, Islam M S and Slater P R, ‘Neutron Diffraction and Atomistic Simulation Studies of Mg Doped Apatite-Type Oxide Ion Conductors’, Faraday Discuss. 134, 181-194 (2007) [Journal Link]

2006

  1. 110. Olson C L, Nelson J and Islam M S, ‘Defect Chemistry, Surface Structures, and Lithium Insertion in Anatase TiO2’, J. Phys. Chem. B 110, 9995-10001 (2006) [Journal Link]
  2. 109. Sansom J E H, Tolchard J R, Islam M S, Apperley D and Slater P R, ‘Solid State 29Si NMR Studies of Apatite-Type Oxide-Ion Conductors’, J. Mater. Chem. 16, 1410-1413 (2006) [Journal Link][pdf]
  3. 108. Tealdi C, Malavasi L, Fisher C A J and Islam M S, ‘Disproportionation, Dopant Incorporation and Defect Clustering in Perovsite-Structured NdCoO3’, J. Phys. Chem. B 110, 5395-5402 (2006) [Journal Link]
  4. 107. Sansom J E H, Kendrick E, Tolchard J R, Islam M S, and Slater P R, ‘A Comparison of the Effect of Rare Earth vs Si Site Doping on the Conductivities of Apatite-Type Rare Earth Silicates’, J. Solid State Electrochem. 10, 562-568 (2006) [Journal Link][pdf]
  5. 106. Naumovich E N, Patrakeev M V, Kharton V V, Islam M S, Yaramchenko A A, Frade J R and Marques F M B, ‘Defect Interactions in La0.3Sr0.7Fe(M′)O3−δ (M′ = Al, Ga) Perovskites: Atomistic Simulations and Analysis of p(O2)-T-δ Diagrams’, Solid State Ionics 177, 457-470 (2006) [Journal Link][pdf]

2003—2005

  1. 105. Islam M S, Driscoll D J, Fisher C A J and Slater P R, ‘Atomic-Scale Investigation of Defects, Dopants and Lithium Transport in the LiFePO4 Olivine-Type Battery Material’, Chem. Mater. 17, 5085-5092 (2005) [Journal Link]
  2. 104. Kendrick E, Islam M S and Slater P R, ‘Investigation of Proton Conduction in Tetragonal Tungsten Bronze Niobates: A0.6(M,Nb)O3 (A = Sr, Ba; M = Mg, Ti) ’, Solid State Ionics 176, 2975-2978 (2005) [Journal Link]
  3. 103. Schönberger F, Kendrick E, Islam M S and Slater P R, ‘Investigation of Proton Conduction in La1−xBa1+xGaO4−x/2 and La1−xSr2+xGaO5−x/2’, Solid State Ionics 176, 2951-2953 (2005) [Journal Link]
  4. 102. Fisher C A J and Islam M S, ‘Defect Chemistry of the Mixed Ionic/Electronic Conductors Sr2Fe2O5 and Sr4Fe6O13,’, J. Mater. Chem. 15, 3200-3207 (2005) [Journal Link]
  5. 101. Heap R, Rudge-Pickard H, Slater P R and Islam M S, ‘Structural Characterisation of the Potential SOFC Cathode Materials La2-xSrxCoO4 (0 < x < 1.0)’, Electrochem. Soc. Proc., 1726-1734 (2005)
  6. 100. Kendrick E, Islam M S and Slater P R, ‘Synthesis and Electrical Characterisation of Proton Conducting Gallates La0.9-xPrxBa1.1GaO3.95’, Electrochem. Soc. Proc., 1142-1148 (2005)
  7. 99. Islam M S, ‘Defects and Ion Migration in Complex Oxides’, in Handbook of Materials Modeling. Volume 1: Methods and Models, Yip S (Ed), Springer, Netherlands (2005) [invited chapter].
  8. 98. Sansom J E H, Kendrick E, Rudge-Pickard H A, Islam M S, Wright A J and Slater P R, ‘Synthesis and Characterisation of the Perovskite-Related Cuprate Phases YSr2Cu2MO7+y (M = Co, Fe) for Potential Use as Solid Oxide Fuel Cell Cathode Materials’, J. Mater. Chem. 15, 2321-2327 (2005) [Journal Link]
  9. 97. Malavasi L, Ritter C, Mozzati M C, Tealdi C, Islam M S, Azzoni C B and Flor G, ‘Effects of Cation Vacancy Distribution in Doped LaMnO3+x’, J. Solid State Chem. 178, 2042-2049 (2005) [Journal Link]
  10. 96. Mather G C and Islam M S, ‘Defect and Dopant Properties of the SrCeO3-based Proton Conductor’, Chem. Mater.17, 1736-1744 (2005) [Journal Article]
  11. 95. Tolchard J R, Sansom J E H, Islam M S and Slater P R, ‘Structural Studies of Apatite-Type Oxide Ion Conductors Doped with Cobalt’, Dalton Trans., 1273-1280 (2005) [Journal Link]
  12. 94. Wu J, Davies R A, Islam M S and Haile S M, ‘Atomistic Study of Doped BaCeO3: Dopant Site-Selectivity and Nonstoichiometry’, Chem. Mater. 17, 846-851 (2005) [Journal Link]
  13. 93. Heap R, Islam M S and Slater P R, ‘Synthesis and Structural Characterisation of the New K2NiF4-Type Phases, A2In0.5Sb0.5O4 (A = Sr, Ba)’, Dalton Trans., 460-463 (2005) [Journal Link]
  14. 92. Baikie T, Islam M S and Francesconi M G, ‘Defects in the New Oxide-Fluoride Ba2-xSrxPdO2F2: The Search for Fluoride Needles in an Oxide Haystack’, J. Mater. Chem. 15, 119-123 (2005) [Journal Link]
  15. 91. Driscoll D J, Islam M S and Slater P R, ‘Simulation and Conductivity Studies of Defects and Ion Transport in Sc2(WO4)3’, Solid State Ionics 176, 539-546 (2005) [Journal Link]
  16. 90. 0. Tealdi C, Islam M S, Malavasi M and Flor G, ‘Defect and Dopant Properties of MgTa2O6’, J. Solid State Chem. 177, 4359-4367 (2004) [Journal Link]
  17. 89. Tolchard J R, Sansom J E H, Slater P R and Islam M S, ‘Synthesis and Electrical Characterisation of the Apatite-Type Oxide Ion Conductors Nd9.33+xSi6-yGayO26+z’, Ionics 10, 353-357 (2004) [Journal Link][pdf]
  18. 88. Snedden A, Lightfoot P, Dinges T and Islam M S, ‘Defect and Dopant Properties of the Aurivillius Phase Bi4Ti3O12’, J. Solid State Chem. 177, 3660-3665 (2004) [Journal Link]
  19. 87. Najib A, Sansom, J E H, Tolchard J R, Slater P R and Islam M S, ‘Doping Strategies to Optimise the Oxide Ion Conductivity in Apatite-Type Ionic Conductors’, Dalton Trans., 3106-3109 (2004) [Journal Link]
  20. 86. Tolchard J R, Sansom J E H, Slater P R and Islam M S, ‘Effect of Ba and Bi Doping on the Synthesis and Sintering of Ge-based Apatite-Type Phases’, J. Solid State Electrochem. 8, 668-673 (2004) [Journal Link][pdf]
  21. 85. Islam M S, Tolchard J R, Slater P R and Dinges T, ‘Doping and Defect Association in AZrO3 (A = Ca, Ba) and LaMO3 (M = Sc, Ga) Perovskite-Type Ionic Conductors’, Dalton Trans., 3061-3066 (2004) [Journal Link]
  22. 84. Beggiora M, Islam M S and Reaney I M, ‘Structure of Nanocrystals in Oxyfluoride Glass Ceramics’, Phys. Chem. Glasses 45, 83-84 (2004) [Journal Link]
  23. 83. Jones A, Palmer D, Islam M S and Mortimer M, ‘Alkali Ion Migration in Albite and K-feldspar’, Phys. Chem. Miner. 31, 313-320 (2004) [Journal Link]
  24. 82. Sansom J E H, Rudge-Pickard H A, Smith G, Slater P R, and Islam M S, ‘Perovskite Related Cuprate Phases as Potential Cathode Materials for Solid Oxide Fuel Cells,’, Solid State Ionics 175, 99-102 (2004) [Journal Link]
  25. 81. Islam M S and Davies R A, ‘Atomistic Study of Dopant Site-Selectivity and Defect Association in the Lanthanum Gallate Perovskite’, J. Mater. Chem. 14, 86-93 (2004) [Journal Link]
  26. 80. 0. Sansom, J E H, Tolchard J R and Slater P R and Islam M S, ‘Synthesis and Structural Characterisation of the Apatite-Type Phases La10-xSi6O26+z doped with Ga’, Solid State Ionics 167, 17-22 (2004) [Journal Link]
  27. 79. Islam M S, Davies R A and Gale J D, ‘Structural and Electronic Properties of the Layered LiNi0.5Mn0.5O2 Lithium Battery Material’, Chem. Mater. 15, 4280-4286 (2003) [Journal Article]
  28. 78. Balducci G, Islam M S, Kašpar J, Fornasiero P and Graziani M, ‘Reduction Process in CeO2-MO and CeO2-M2O3 Mixed Oxides’, Chem. Mater. 15, 3781-3785 (2003) [Journal Link]
  29. 77. Beggiora M, Reaney I M and Islam M S, ‘Structure of the Nanocrystals in Oxyfluoride Glass Ceramics’, Appl. Phys. Lett. 83, 467-469 (2003) [Journal Link]
  30. 76. Tolchard J R, Islam M S and Slater P R, ‘Defect Chemistry and Oxygen Ion Migration in the Apatite-Type Materials La9.33Si6O26 and La8Sr2Si6O26’, J. Mater. Chem. 13, 1956-1961 (2003) [Journal Link]
  31. 75. Slater P R, Sansom J E H, Tolchard J R and Islam M S, ‘The Synthesis and Characterisation of Ge Containing Apatite-Type Oxide Ion Conductors’, Mat. Res. Soc. Symp. Proc. 756, 467-472 (2003) [Journal Link]
  32. 74. Islam M S, Tolchard J R and Slater P R, ‘An Apatite for Fast Oxide-ion Conduction’, Chem. Commun., 1486-1487 (2003) [Journal Link]

2000—2002

  1. 73. Islam M S and Balducci G, ‘Computer Simulation Studies of Ceria-based Oxides’, in Catalysis by Ceria and Related Materials, Trovarelli A (Ed), Imperial College Press, London, 2002 [invited chapter]
  2. 72. Islam M S, ‘Computer Modelling of Defects and Transport in Perovskite Oxides’, Solid State Ionics, 154-155, 75-85 (2002) [Journal Link] [invited paper]
  3. 71. Chadwick A V, Colombo F, Rush G E, Davies R A and Islam M S, ‘EXAFS Studies of Ceramic Proton Conductors’, Radiat. Eff. Def. Solids 155, 421-424 (2001) [Journal Link]
  4. 70. 0. Islam M S, Davies R A, Fisher C A J and Chadwick A V, ‘Defects and Protons in the CaZrO3 Perovskite and Ba2In2O5 Brownmillerite: Computer Modelling and EXAFS Studies’, Solid State Ionics 145, 333-338 (2001) [Journal Link]
  5. 69. Read M S D, Islam M S, Watson G W and Hancock F E, ‘Surface Structures and Defect Properties of Pure and Doped La2NiO4’, J. Mater. Chem. 11, 2597-2602 (2001) [Journal Link]
  6. 68. Islam M S, Davies R A and Gale J D, ‘Proton Migration and Defect Interactions in the CaZrO3 Orthorhombic Perovskite: A Quantum Mechanical Study’, Chem. Mater. 13, 2049-2055 (2001) [Journal Link]
  7. 67. Islam M S, Davies R A and Gale J D, ‘Hop, Skip or Jump? Proton Transport in the CaZrO3 Perovskite Oxide’, Chem. Commun., 661-662 (2001) [Journal Link]
  8. 66. Pirovano C, Islam M S, Vannier R N, Nowogrocki G and Mairesse G, ‘Modelling the Crystal Structures of Aurivillius Phases’, Solid State Ionics 140, 115-123 (2001) [Journal Link]
  9. 65. Jones A, Palmer D, Islam M S and Mortimer M, ‘Ion Migration in Nepheline: A Dielectric Spectroscopy and Computer Modelling Study’, Phys. Chem. Miner. 28, 28-34 (2001) [Journal Link]
  10. 64. Islam M S, Ammundsen B, Jones D J and Rozière J, ‘EXAFS: A Structural Probe of Oxide Electrode Materials for Lithium Batteries’, in Materials for Lithium Ion Batteries, Julien C and Stoynov Z (Eds), NATO-ASI Series, Kluwer Academic, 2000 [invited paper]
  11. 63. Islam M S, ‘Computer Modelling of Oxide Cathode Materials for Lithium Ion Batteries’, in Materials for Lithium Ion Batteries, Julien C and Stoynov Z (Eds), NATO-ASI Series, Kluwer Academic, 2000 [invited paper]
  12. 62. Islam M S, ‘Ion Transport in Solid Oxide Electrolytes’, in Forum on New Materials Vincenzini P (Ed), CIMTEC, Florence, 2000 [invited paper]
  13. 61. Read M S D, Islam M S, Watson G W and Hancock F E, ‘Defect Chemistry and Surface Properties of LaCoO3’, J. Mater. Chem. 10, 2298-2305 (2000) [Journal Link]
  14. 60. 0. Davies R A, Islam M S, Chadwick A V and Rush G E, ‘Cation Dopant Sites in the CaZrO3 Proton Conductor: A Combined EXAFS and Computer Simulation Study’, Solid State Ionics 130, 115-122 (2000) [Journal Link]
  15. 59. Islam M S, ‘Ionic Transport in ABO3 Perovskite Oxides: A Computer Modelling Tour’, J. Mater. Chem. 10, 1027-1038 (2000) [Journal Link] [invited “Feature Article”]
  16. 58. Balducci G, Islam M S, Kašpar J, Fornasiero P and Graziani M, ‘Bulk Reduction and Oxygen Migration in Ceria-based Oxides’, Chem. Mater. 12, 677-681 (2000) [Journal Link]

1997—1999

  1. 57. Davies R A, Islam M S and Gale J D, ‘Dopant and Proton Incorporation in Perovskite-Type Zirconates’, Solid State Ionics 126, 323-335 (1999) [Journal Link]
  2. 56. Ammundsen B, Islam M S, Jones D J and Rozière J, ‘Local Structure and Defect Chemistry of Substituted Lithium Manganate Spinels: X-Ray Absorption and Computer Simulation Studies’, J. Power Sources 81/82, 500-504 (1999) [Journal Link]
  3. 55. Ruiz-Trejo E, Islam M S and Kilner J A, ‘Atomistic Simulation of Defects and Ion Migration in LaYO3’, Solid State Ionics 123, 121-129 (1999) [Journal Link]
  4. 54. De Souza R A, Islam M S and Ivers-Tiffée E, ‘Formation and Migration of Cation Defects in the Perovskite Oxide LaMnO3’, J. Mater. Chem. 9, 1621-1627 (1999) [Journal Link]
  5. 53. Ammundsen B, Burns G R, Islam M S, Kanoh H and Rozière J, ‘Lattice Dynamics and Vibrational Spectra of Lithium Manganese Oxides: A Computer Simulation and Spectroscopic Study’, J. Phys. Chem. B 103, 5175-5180 (1999) [Journal Link]
  6. 52. Glöckner R, Islam M S and Norby T, ‘Protons and Other Defects in BaCeO3: A Computational Study’, Solid State Ionics 122, 145-156 (1999) [Journal Link]
  7. 51. Read M S D, Islam M S, Hancock F E and King F, ‘Defect Chemistry of La2Ni1-xMxO4 (M = Mn, Fe, Cu): Relevance to Catalytic Behavior’, J. Phys. Chem. B 103, 1558-1562 (1999) [Journal Link]
  8. 50. 0. Fisher C A J and Islam M S, ‘Defects, Protons and Conductivity in Brownmillerite-Structured Ba2In2O5’, Solid State Ionics 118, 355-363 (1999) [Journal Link][pdf]
  9. 49. Islam M S, ‘Oxygen Ion and Proton Transport in Mixed Metal Oxides’, in Diffusion Mechanisms in Crystalline Materials’, Mishin Y and Vogl G (Eds), MRS, Pittsburgh, 1998 [Journal Link][invited paper]
  10. 48. Islam M S, ‘An Ion Conducted Tour Through LaMO3 Perovskite-based Oxide Materials’, Mol. Simul. 21, 127-141 (1998) [Journal Link]
  11. 47. Khan M S, Islam M S and Bates D R, ‘Cation Doping and Oxygen Diffusion in Zirconia: A Combined Atomistic Simulation and Molecular Dynamics Study’, J. Mater. Chem. 8, 2299-2307 (1998) [Journal Link]
  12. 46. Hancock F E, King F, Flavell W R and Islam M S, ‘Catalytically Enhanced Absorption of Sulphur Species from Odorous Air Streams: A New Technology for Odour Abatement’, Catal. Today 40, 289-296 (1998) [Journal Link][pdf]
  13. 45. Ammundsen B, Islam M S, Jones D J and Rozière J, ‘Computer Modelling of Lithium and Proton Intercalation in Spinel Lithium Manganates: Effect of Octahedral Vacancies’, Molec. Cryst. Liq. Cryst., 311, 109-114 (1998) [Journal Link]
  14. 44. Islam M S, Lazure S, Vannier R N, Nowogrocki G and Mairesse G, ‘Structural and Computational Studies of Bi2WO6 based Oxygen Ion Conductors’, J. Mater. Chem. 8, 655-660 (1998) [Journal Link]
  15. 43. Khan M S, Islam M S and Bates D, ‘Dopant Substitution and Oxygen Migration in the LaGaO3-Based Ion Conductor’, J. Phys. Chem. B 102, 3099-3104 (1998) [Journal Link]
  16. 42. Balducci G, Kašpar J, Fornasiero P, Graziani M and Islam M S, ‘Surface and Reduction Energetics of the CeO2-ZrO2 Catalysts’, J. Phys. Chem. B 102, 557-561 (1998) [Journal Link]
  17. 41. Catlow C R A, Islam M S and Zhang X, ‘The Structure and Energies of Peroxy Bipolarons in La2CuO4’, J. Phys. Condens. Matter 10, L49-L54 (1998) [Journal Link]
  18. 40. Islam M S, Read M S D and D’Arco S, ‘From Oxides to Oxyhalides: Modelling the Properties of High Tc Superconductors’, Faraday Discuss. 106, 367-376 (1997) [Journal Link][pdf]
  19. 39. Ammundsen B, Rozière J and Islam M S, ‘Atomistic Simulation Studies of Lithium and Proton Insertion in Spinel Lithium Manganates’, J. Phys. Chem. B 101, 8156-8163 (1997) [Journal Link]
  20. 38. Balducci G, Islam M S, Gale J D, Kašpar J, Fornasiero P and Graziani M, ‘Computer Simulation Studies of the Bulk Reduction and Oxygen Migration in CexZr1-xO2 Solid Solutions’, J. Phys. Chem. B 101, 1750-1753 (1997) [Journal Link]
  21. 37. Fisher C A J, Islam M S and Brook R J, ‘A Computer Simulation Investigation of Brownmillerite-structured Ba2In2O5’, J. Solid State Chem. 128, 137-141 (1997) [Journal Link][pdf]
  22. 36. Islam M S and Cherry M, ‘Protons in LaMO3: Atomistic Modelling and ab initio Studies’, Solid State Ionics 97, 33-37 (1997) [Journal Link][pdf]
  23. 35. D’Arco S and Islam M S, ‘Defect and Dopant Properties of the Oxyfluoride Superconductor Sr2CuO2F2+δ’, Phys. Rev. B 55, 3141-3145 (1997) [Journal Link]

1994—1996

  1. 34. Islam M S and D’Arco S, ‘Defect Chemistry of the Oxyfluoride Sr2CuO2F2+δ: Relationship to High-Tc Superconductivity’, Chem. Commun. 2291-2292 (1996) [Journal Link]
  2. 33. Islam M S, Cherry M and Catlow C R A, ‘Oxygen Diffusion in LaMnO3 and LaCoO3 Perovskite-Type Oxides: A Molecular Dynamics Study’, J. Solid State Chem. 124, 230-237 (1996) [Journal Link]
  3. 32. Islam M S, Cherry M and Winch L J, ‘Defect Chemistry of LaBO3 Perovskite-Type Oxides: Relevance to Catalytic and Transport Behaviour’, J. Chem. Soc., Faraday Trans. 92, 479-482 (1996) [Journal Link]
  4. 31. Cherry M, Islam M S, Gale J D and Catlow C R A, ‘Computational Studies of Protons in Perovskite-Structured Oxides’, J. Phys. Chem. 99, 14614-14618 (1995) [Journal Link]
  5. 30. Islam M S and Winch L J, ‘Defect Chemistry and Oxygen Diffusion in the HgBa2Ca2Cu3O8+δ Superconductor: A Computer Simulation Study‘, Phys. Rev. B 52, 10510-10515 (1995) [Journal Link]
  6. 29. Winch L J and Islam M S, ‘Defects and Holes in the Mercury-based Superconductors: Relevance to High Tc Behaviour’, J. Chem. Soc., Chem. Commun., 1595-1597 (1995) [Journal Link]
  7. 28. Cherry M, Islam M S and Catlow C R A, ‘Oxygen Ion Migration in Perovskite-Type Oxides‘, J. Solid State Chem. 118, 125-132 (1995) [Journal Link]
  8. 27. Cherry M, Islam M S, Gale J and Catlow C R A, ‘Computational Studies of Proton Migration in Perovskite Oxides’, Solid State Ionics 77, 207-209 (1995) [Journal Link]
  9. 26. Islam M S and Ilett D J, ‘Surface Structures and Defect Chemistry of La2O3’, Catal. Today 21, 417-422 (1994) [Journal Link]
  10. 25. Islam M S, Ilett D J and Parker S C, ‘Surface Structures and Oxygen Hole Formation on the La2O3 Catalyst. A Simulation Study’, J. Phys. Chem. 98, 9637-9641 (1994) [Journal Link]
  11. 24. Islam M S and Ilett D J, ‘The Role of Structural Defects in La2O3 for the Oxidative Coupling of Methane’, Studies in Surface Science and Catalysis. Vol 82, Corberan V and Bellos S V (Eds), Elsevier, Amsterdam, 1994
  12. 23. Islam M S and Baetzold R C, ‘Atomistic Mechanisms of Oxygen Diffusion in YBa2Cu3O7-x and YBa2Cu4O8’, J. Mater. Chem. 4, 299-303 (1994) [Journal Link]
  13. 22. Islam M S and Ilett D J, ‘Defect Structure of La2O3: A Methane Coupling Catalyst’, Solid State Ionics 72, 54-58 (1994) [Journal Link]
  14. 21. Islam M S, ‘Dopant Effects in the 1-2-3 Superconductor’, Mol. Simul. 12, 101-113 (1994) [Journal Link]

1988—1993

  1. 20. Ilett D J and Islam M S, ‘Role of Structural Defects and Oxygen Ion Migration in the Catalytic Activity of La2O3’, J. Chem. Soc., Faraday Trans. 89, 3833-3839 (1993) [pdf]
  2. 19. Islam M S, ‘Lithium Intercalation in Transition Metal Oxides’, Phil. Mag. A 68, 667-675 (1993) [Journal Link]
  3. 18. Islam M S and Baetzold R C, ‘A Computer Simulation Study of Oxygen Defect Centres in BaFBr and BaFCl’, J. Phys. Chem. Solids 53, 1105-1110 (1992) [pdf]
  4. 17. Islam M S and Ananthamohan C, ‘Lithium Insertion into YBa2Cu3O7’, J. Solid State Chem. 100, 371-378 (1992) [Journal Link][pdf]
  5. 16. Islam M S and Ananthamohan C, ‘Computer Modelling of Dopant Substitution in YBa2Cu3O7’, in Solid State Ionics, Balkanski M, Takahashi T and Tuller H T (Eds), Elsevier, Amsterdam, 1992
  6. 15. Islam M S, ‘Computer Modelling of Oxygen Migration Mechanisms in YBa2Cu3O7’, in Superconductivity: Materials, Physics and Applications, Raveau B, Wasa K and Suryanarayan R (Eds), IITT International, Paris, 1991
  7. 14. Islam M S and Ananthamohan C, ‘Defect Clustering in Fe- and Al-substituted YBa2Cu3O7’, Phys. Rev. B 44, 9492-9499 (1991) [Journal Link][pdf]
  8. 13. Islam M S and Ananthamohan C, ‘Computer Simulation of Dopant Substitution in YBa2Cu3O7’, pp 165-170 in Chemistry of Electronic Ceramic Materials, Davies P K and Roth R S (Eds), NIST, Washington, 1991
  9. 12. Islam M S, ‘Computer Simulation of Ion Transport and Hole Centres in Matlockite (PbFCl) Structured Phosphors’, Phil. Mag. A 64, 1119-1128 (1991) [Journal Link]
  10. 11. Islam M S, ‘Computer Simulation Study of Oxygen Migration in YBa2Cu3O7’, Supercond. Sci. Technol. 3, 531-536 (1990) [pdf]
  11. 10. Islam M S, ‘Defect Structure and Ion Transport in LaOBr’, J. Phys. Chem. Solids 51, 367-372 (1990) [pdf]
  12. 9. Islam M S, ‘Point Defects and Ion Migration in PbFCl’, J. Solid State Chem. 85, 251-261 (1990) [pdf]
  13. 8. Islam M S and Baetzold R C, ‘Atomistic Simulation of Dopant Substitution in YBa2Cu3O7’, Phys. Rev. B 40, 10926-10935 (1989) [pdf]
  14. 7. Baetzold R C and Islam M S, ‘Atomistic Simulation of Ionic and Electronic Defects in YBa2Cu3O7’, pp 273-278 in Atomic Scale Calculations in Materials Science, Tersoff J, Vanderbilt D and Vitek V (Eds), MRS, Pittsburgh, 1989 [Journal Link]
  15. 6. Islam M S, ‘Defect Structure and Ion Migration in PbFCl’, pp 295-300 in Solid State Ionics, Nazri G, Huggins R A and Shriver D F (Eds), MRS, Pittsburgh, 1989
  16. 5. Catlow C R A, Tomlinson S M, Islam M S and Leslie M, ‘Hole-Pairing Mechanisms in La2CuO4’, J. Phys. C 21, L1085-1090 (1988) [Journal Link][pdf]
  17. 4. Islam M S, Leslie M, Tomlinson S M and Catlow C R A, ‘Computer Modelling Studies of Defects and Valence States in La2CuO4’, J. Phys. C 21, L109-117 (1988) [Journal Link][pdf]
  18. 3. Catlow C R A, Freeman C M, Islam M S, Jackson R A, Leslie M and Tomlinson S M, ‘Interatomic Potentials for Oxides’, Phil. Mag. A 58, 123-141 (1988) [Journal Link]
  19. 2. Islam M S and Catlow C R A, ‘Lithium Insertion into Fe3O4’, J. Solid State Chem. 77, 180-189 (1988) [Journal Link][pdf]
  20. 1. Islam M S and Catlow C R A, ‘Structural and Electronic Properties of NiMn2O4’, J. Phys. Chem. Solids 49, 119-124 (1988) [Journal Link][pdf]