Year 2016

  1. Gujral, S. S., A. N. Simonov, X.-Y. Fang, M. Higashi, T. Gengenbach, R. Abe and L. Spiccia (2016) Photo-assisted electrodeposition of manganese oxide on TaON anodes: effect on water photooxidation capacity under visible light irradiation. Catal. Sci. Technol. DOI:10.1039/C5CY01432H
  2. Chowdhury, D. R., L. Spiccia, A. Paul and A. Singh (2016) A robust iron oxyhydroxide water oxidation catalyst operating under alkaline and near neutral conditions. J. Mater. Chem. A 4: 3655-3660.
  3. Schnegg, A., J. Nehrkorn, A. Singh, I. Calafell, S. Bonke, R. K. Hocking, K. Lips and L. Spiccia (2106) Probing the fate of Mn complexes in nafion: A combined multi-frequency EPR and XAS study. J. Phys. Chem. C 120: 853-861.

Year 2015

  1. Liu, G., J. Hall, N. Nasiri, L. Spiccia, M. H. Cheah and A. Tricoli (2015) One-step gas-phase high temperature synthesis of efficient water oxidation catalysts: Insights into the activity of flame-made manganese oxide nanocrystals. ChemSusChem. 8: 4162–4171. Inside back cover feature.
  2. Singh, A., M. Fekete, T. Gengenbach, S. A Simonov, R. K. Hocking, S. L. Y. Chang, M. Rothmann, S. Powar, D. Fu, Z. Hu, Q. Wu, Y.-B. Cheng, U. Bach and L. Spiccia (2015) Screen-printed nickel oxide nanoparticles and microballs as efficient water oxidation catalysts: Comparison of activity and impedance behaviour. ChemSusChem. 8: 4162-4171.
  3. Gujral, S. S., A. N. Simonov, M. Higashi, R. Abe and L. Spiccia (2015) Optimization of titania post-necking treatment of TaON photoanodes to enhance water oxidation activity under visible light irradiation. publication ChemElectroChem. 2: 1270-1278. Inside back cover feature.
  4. Najafpour, M. M., M. Fekete, D. J. Sedigh, E.-M. Aro, R. Carpentier, J. J. Eaton-Rye, H. Nishihara, J.-R. Shen, S. I. Allakhverdiev and L. Spiccia (2015) Damage management in water-oxidizing catalysts: From Photosystem II to nano-sized metal oxides. ACS Catalysis 5: 1499-1512.
  5. Hocking, R. K., H. J. King, A. Hesson, S. A. Bonke, B. Johannessen, M. Fekete, L. Spiccia and S. L. Y. Chang (2015). Engineering Disorder at a Nanoscale: A Combined TEM and XAS Investigation of Amorphous versus Nanocrystalline Sodium Birnessite. Aust. J. Chem. 68: 1715-1722.
  6. Bonke, S. A., M. Wiechen, D. R. MacFarlane and L. Spiccia (2015). Renewable fuels from concentrated solar power: towards practical artificial photosynthesis. Energy Environ. Sci. 8: 2791-2796.
  7. Bonke, S. A., M. Wiechen, R. K. Hocking, X.-Y. Fang, D. W. Lupton, D. R. MacFarlane and L. Spiccia (2015). Electrosynthesis of Highly Transparent Cobalt Oxide Water Oxidation Catalyst Films from Cobalt Aminopolycarboxylate Complexes. ChemSusChem 8: 1394-1403.

Year 2014

  1. Fekete, M., W. Riedel, A. F. Patti and L. Spiccia (2014) Photoelectrochemical water oxidation by screen-printed ZnO nanoparticle films: Effect of pH on catalytic activity and stability. Nanoscale 6: 7585-7593.
  2. Khan, M., E. Suljoti, A. Singh, S. A. Bonke, T. Brandenburg, K. Atak, R. Golnak, L. Spiccia and E. F. Aziz (2014). Electronic structural insights into efficient MnOx catalysts. J. Mater. Chem. A 2: 18199-18203.
  3. Fekete, M., W. Riedel, A. F. Patti and L. Spiccia (2014). Photoelectrochemical water oxidation by screen printed ZnO nanoparticle films: effect of pH on catalytic activity and stability. Nanoscale 6(13): 7585-7593.
  4. Hocking, R. K., R. Malaeb, W. P. Gates, A. F. Patti, S. L. Y. Chang, G. Devlin, D. R. MacFarlane and L. Spiccia (2014). Formation of a Nanoparticulate Birnessite-Like Phase in Purported Molecular Water Oxidation Catalyst Systems. ChemCatChem 6(7): 2028-2038.
  5. Mulyana, Y., F. R. Keene and L. Spiccia (2014). Cooperative effects in homogeneous water oxidation catalysis by mononuclear ruthenium complexes. Dalton Trans. 43(18): 6819-6827.
  6. Wiechen, M., M. M. Najafpour, S. I. Allakhverdiev and L. Spiccia (2014). Water oxidation catalysis by manganese oxides: learning from evolution. Energy Environ. Sci. 7(7): 2203-2212. Invited review.
  7. Wiechen, M. and L. Spiccia (2014). Manganese Oxides as Efficient Water Oxidation Catalysts. ChemCatChem 6(2): 439-441. Invited highlight article.
  8. Fekete, M., W. Ludwig, S. Gledhill, J. Chen, A. Patti and L. Spiccia (2014). Al-Modified Zinc Oxide Nanorods for Photoelectrochemical Water Oxidation. Eur. J. Inorg. Chem. 2014(4): 750-759. Invited contribution to "Cluster Issue on Water Oxidation Chemistry" and back cover feature.
  9. Chang, S. L. Y., A. Singh, R. K. Hocking, C. Dwyer and L. Spiccia (2014). Nanoscale structural disorder in manganese oxide particles embedded in Nafion. J. Mater. Chem. A 2(11): 3730-3733.

Year 2013

  1. Zhou, F., A. Izgorodin, R. K. Hocking, V. Armel, L. Spiccia and D. R. MacFarlane (2013). Improvement of Catalytic Water Oxidation on MnOx Films by Heat Treatment. ChemSusChem 6(4): 643-651.
  2. Singh, A. and L. Spiccia (2013). Water oxidation catalysts based on abundant 1st row transition metals. Coord. Chem. Rev. 257(17-18): 2607-2622.
  3. Singh, A., R. K. Hocking, S. L. Y. Chang, B. M. George, M. Fehr, K. Lips, A. Schnegg and L. Spiccia (2013). Water Oxidation Catalysis by Nanoparticulate Manganese Oxide Thin Films: Probing the Effect of the Manganese Precursors. Chem. Mater. 25(7): 1098-1108.
  4. Singh, A., S. L. Y. Chang, R. K. Hocking, U. Bach and L. Spiccia (2013). Highly active nickel oxide water oxidation catalysts deposited from molecular complexes. Energy Environ. Sci. 6(2): 579-586.
  5. Singh, A., S. L. Y. Chang, R. K. Hocking, U. Bach and L. Spiccia (2013). Anodic deposition of NiOx water oxidation catalysts from macrocyclic nickel(ii) complexes. Catal. Sci. Technol. 3(7): 1725-1732.
  6. Fekete, M., R. K. Hocking, S. L. Y. Chang, C. Italiano, A. F. Patti, F. Arena and L. Spiccia (2013). Highly active screen-printed electrocatalysts for water oxidation based on β-manganese oxide. Energy Environ. Sci. 6(7): 2222-2232.

Year 2012

  1. Zhou, F., A. Izgorodin, R. K. Hocking, L. Spiccia and D. R. MacFarlane (2012). Electrodeposited MnOx films from ionic liquid for electrocatalytic water oxidation. Adv. Energy Mater. 2(8): 1013-1021.
  2. Swiegers, G. F., D. R. MacFarlane, D. L. Officer, A. Ballantyne, D. Boskovic, J. Chen, G. C. Dismukes, G. P. Gardner, R. K. Hocking, P. F. Smith, L. Spiccia, P. Wagner, G. G. Wallace, B. Winther-Jensen and O. Winther-Jensen (2012). Towards Hydrogen Energy: Progress on Catalysts for Water Splitting. Aust. J. Chem. 65(6): 577-582.
  3. Hocking, R. K., S. L. Y. Chang, D. R. MacFarlane and L. Spiccia (2012). Preparation and Characterization of Catalysts for Clean Energy: A Challenge for X-rays and Electrons. Aust. J. Chem. 65(6): 608-614.
  4. Brimblecombe, R., G. C. Dismukes, G. F. Swiegers and L. Spiccia (2012). Energy from photosystem II: manganese water oxidation catalysts. RSC Energy Environ. Ser. 5(Molecular Solar Fuels): 249-272.

Year 2011

  1. Ohlin, C. A., S. J. Harley, J. G. McAlpin, R. K. Hocking, B. Q. Mercado, R. L. Johnson, E. M. Villa, M. K. Fidler, M. M. Olmstead, L. Spiccia, R. D. Britt and W. H. Casey (2011). Rates of Water Exchange for Two Cobalt(II) Heteropolyoxotungstate Compounds in Aqueous Solution. Chem. - Eur. J. 17(16): 4408-4417, S4408/4401-S4408/4417.
  2. Hocking, R. K., R. Brimblecombe, L.-Y. Chang, A. Singh, M. H. Cheah, C. Glover, W. H. Casey and L. Spiccia (2011). Water-oxidation catalysis by manganese in a geochemical-like cycle. Nat. Chem. 3(6): 461-466.
  3. Fekete, M., A. Singh, R. Hocking, R. Brimblecombe, L. Y. Chang, U. Bach, A. Patti, G. F. Swiegers, G. C. Dismukes and L. Spiccia (2011). Bioinspired water oxidation catalysts for solar hydrogen production. Monogr. Ser. Int. Conf. Coord. Bioinorg. Chem. 10(New Trends in Coordination, Bioinorganic, and Applied Inorganic Chemistry): 519-535.
  4. Brimblecombe, R., J. Chen, P. Wagner, T. Buchhorn, G. C. Dismukes, L. Spiccia and G. F. Swiegers (2011). Photocatalytic oxygen evolution from non-potable water by a bioinspired molecular water oxidation catalyst. J. Mol. Catal. A: Chem. 338(1-2): 1-6.

Year 2010

  1. Brimblecombe, R., A. Koo, G. C. Dismukes, G. F. Swiegers and L. Spiccia (2010). Solar driven water oxidation by a bioinspired manganese molecular catalyst. J Am Chem Soc 132(9): 2892-2894.
  2. Brimblecombe, R., A. Koo, G. C. Dismukes, G. F. Swiegers and L. Spiccia (2010). Solar-driven Water Oxidation by a Bio-inspired Manganese Molecular Catalyst. J. Am. Chem. Soc. 132(9): 2892-2894.
  3. Brimblecombe, R., A. Koo, G. C. Dismukes, G. F. Swiegers and L. Spiccia (2010). A tandem water-splitting device based on a bio-inspired manganese catalyst. ChemSusChem 3(10): 1146-1150.

Year 2009

  1. Swiegers, G. F., J. Huang, R. Brimblecombe, J. Chen, G. C. Dismukes, U. T. Mueller-Westerhoff, L. Spiccia and G. G. Wallace (2009). Homogeneous Catalysts with a Mechanical ("Machine-like") Action. Chem. - Eur. J. 15(19): 4746-4759.
  2. Ohlin, C. A., R. Brimblecombe, L. Spiccia and W. H. Casey (2009). Oxygen isotopic exchange in an MnIIIMn3IV-oxo cubane. Dalton Trans.(27): 5278-5280.
  3. Dismukes, G. C., R. Brimblecombe, G. A. N. Felton, R. S. Pryadun, J. E. Sheats, L. Spiccia and G. F. Swiegers (2009). Development of bioinspired Mn4O4-cubane water oxidation catalysts: lessons from photosynthesis. Acc. Chem. Res. 42(12): 1935-1943.
  4. Casey, W. H., J. R. Rustad and L. Spiccia (2009). Minerals as Molecules-Use of Aqueous Oxide and Hydroxide Clusters to Understand Geochemical Reactions. Chem. - Eur. J. 15(18): 4496-4515.
  5. Brimblecombe, R., M. Rotstein, A. Koo, G. C. Dismukes, G. F. Swiegers and L. Spiccia (2009). A bio-inspired molecular water oxidation catalyst for renewable hydrogen generation: an examination of salt effects. Proc. SPIE 7408(Solar Hydrogen and Nanotechnology IV): 74080V/74081-74080V/74088.
  6. Brimblecombe, R., D. R. J. Kolling, A. M. Bond, G. C. Dismukes, G. F. Swiegers and L. Spiccia (2009). Sustained Water Oxidation by [Mn4O4]7+ Core Complexes Inspired by Oxygenic Photosynthesis. Inorg. Chem. 48(15): 7269-7279.
  7. Brimblecombe, R., G. C. Dismukes, G. F. Swiegers and L. Spiccia (2009). Molecular water-oxidation catalysts for photoelectrochemical cells. Dalton Trans.(43): 9374-9384.
  8. Brimblecombe, R., A. M. Bond, G. C. Dismukes, G. F. Swiegers and L. Spiccia (2009). Electrochemical investigation of Mn4O4-cubane water-oxidizing clusters. Phys. Chem. Chem. Phys. 11(30): 6441-6449.

Year 2008

  1. Spiccia, L., R. Brimblecombe, A. Koo, G. F. Swiegers and G. C. Dismukes (2008). Bio-inspired water oxidation catalysts for solar hydrogen production. Chem. Aust. 75(9): 27-29.
  2. Brimblecombe, R., G. F. Swiegers, G. C. Dismukes and L. Spiccia (2008). Sustained water oxidation photocatalysis by a bioinspired manganese cluster. Angew. Chem., Int. Ed. 47(38): 7335-7338.
  3. Brimblecombe, R., L. Spiccia, G. C. Dismukes and G. F. Swiegers (2008). Catalyst for the photoelectrolysis of water, Australia . 71pp.