References
- Sivula K, Le Formal F and Gratzel M: ‘Solar water splitting: progress using hematite (α-Fe2O3) photoelectrodes’, Chem. Sus. Chem., 2011, 4, 432–449.
- Duret A and Gratzel M: ‘Visible light-induced water oxidation on mesoscopic alpha- Fe2O3 films made by ultrasonic spray pyrolysis’, J. Phys. Chem. B, 2005, 109B, 17184–17191.
- Kay A, Cesar I and Gratzel M: ‘New benchmark for water photooxidation by nanostructured alpha- Fe2O3 films’, J. Am. Chem. Soc., 2006, 128, 15714–15721.
- Liao L, Zheng Z, Yan B, Zhang JX, Gong H, Li JC, Liu C, Shen ZX and Yu T: ‘Morphology controllable synthesis of Fe2O3 1D nanostructures: growth mechanism and nanodevice based on single nanowire’, J. Phys. Chem. C, 2008, 112C, 10784–10788
- Reddy MV, Yu T, Sow CH, Shen YT, Lim CT, Subba Rao GV and Chowdary BVR: ‘α- Fe2O3 nanoflakes as an anode material for Li-ion batteries’, Adv. Funct. Mater., 2007, 17, 2792–2799.
- Rangaraju RR, Raja KS, Panday A and Misra M: ‘An investigation on room temperature synthesis of vertically oriented arrays of iron oxide nanotubes by anodization of iron’, Electrochim. Acta, 2010, 55, 785–793.
- Jagminas A, Mazeika K, Bernotas N, Klimas V, Selskis A and Baltrunas D: ‘Electrochemical fabrication and characterization of lepidocrocite (FeOOH) nanowire arrays’, Appl. Surf. Sci., 2011, 257, 3893–3897.
- Habazaki H, Konno Y, Aoki Y, Skeldon P and Thompson GE: ‘Galvanostatic growth of nanoporous anodic films on iron in ammonium fluoride-ethylene glycol electrolytes with different water contents’, J. Phys. Chem. C, 2010, 114C, 18853–18859.
- Jagminas A, Klimas V, Mazeika K, Bernotas N, Selskis A and Niaura G: ‘Fabrication of thick gel-like films by anodizing iron in a novel electrolyte based on dimethyl sulfoxide and H2SiF6’, Electrochim. Acta, 2011, 56, 5452–5458.
- Hosseini MG and Momeni MM: ‘UV-cleaning properties of Pt nanoparticle-decorated titania nanotubes in the electro-oxidation of methanol: An anti-poisoning and refreshable electrode’, Electrochim. Acta, 2012, 70, 1–9.
- Wang L, Lee CY and Schmuki P: ‘Improved photoelectrochemical water splitting of hematite nanorods thermally grown on Fe–Ti alloys’, Electrochem. Commun., 2014, 44, 49–53.
- Müller V and Schmuki P: ‘Efficient photocatalysis on hierarchically structured TiO2 nanotubes with mesoporous TiO2 filling’, Electrochem. Commun., 2014, 42, 21–25.
- Yoo JE, Park J, Cha G and Choi J: ‘Micro-length anodic porous niobium oxide for lithium-ion thin film battery applications’, Thin Solid Films, 2013, 531, 583–587.
- Liu Q, Chen Q, Bai J, Li J, Li J and Zhou B: ‘Enhanced photoelectrocatalytic performance of nanoporous WO3 photoanode by modification of cobalt-phosphate (Co-Pi) catalyst’, J. Solid State Electrochem., 2014, 18, 157–161.
- Santamaria M, Terracina S, Konno Y, Habazaki H and Di Quarto F: ‘Physicochemical characterization and photoelectrochemical analysis of iron oxide films’, J. Solid State Electrochem., 2013, 17, 3005–3014.
- Shan Zh, Wang W, Lin X, Ding H and Huang F: ‘Photocatalytic degradation of organic dyes on visible-light respon-sive photocatalyst PbBiO2Br’, J. Solid State Chem., 2008, 181, 1361–1336.
- Kumazawa H, Inoue M and Kasuya T: ‘Photocatalytic degradation of volatile and nonvolatile organic compounds on titanium dioxide particles using fluidized beds’, Ind. Eng. Chem. Res., 2003, 42, 3237–3243.
- Chang CY, Wang CH, Tseng CJ, Cheng KW, Hourng LW and Tsai BT: ‘Self-oriented iron oxide nanorod array thin film for photoelectrochemical hydrogen production’, Int. J. Hydrogen Energy, 2012, 37, 13616–13622.
- Zhang Z, Faruk Hossain M and Takahashi T: ‘Fabrication of shape-controlled α-Fe2O3 nanostructures by sonoelectrochemical anodization for visible light photocatalytic application’, Mater. Lett., 2010, 64, 435–438.
- Jegatha Christy A, Nehru LC and Umadevi M: ‘A novel combustion method to prepare CuO nanorods and its antimicrobial and photocatalytic activities’, Powder Technol., 2013, 235, 783–786.