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Results: 1-12 |
Results: 12
Enhanced efficiency of a dye-sensitized solar cell made from MgO-coated nanocrystalline SnO2
Authors: Tennakone, K Bandara, J Bandaranayake, PKM Kumara, GRA Konno, A
Citation: K. Tennakone et al., Enhanced efficiency of a dye-sensitized solar cell made from MgO-coated nanocrystalline SnO2, JPN J A P 2, 40(7B), 2001, pp. L732-L734
Probing the tunneling of electrons from SnO2 to ZnO in dye sensitization of composite SnO2/ZnO by use of generated H2O2 via reduction of O-2
Authors: Bandara, J Tennakone, K Binduhewa, P
Citation: J. Bandara et al., Probing the tunneling of electrons from SnO2 to ZnO in dye sensitization of composite SnO2/ZnO by use of generated H2O2 via reduction of O-2, NEW J CHEM, 25(10), 2001, pp. 1302-1305
Photocatalytic activity of dye-sensitized tin(IV) oxide nanocrystalline particles attached to zinc oxide particles: long distance electron transfer via ballistic transport of electrons across nanocrystallites
Authors: Tennakone, K Bandara, J
Citation: K. Tennakone et J. Bandara, Photocatalytic activity of dye-sensitized tin(IV) oxide nanocrystalline particles attached to zinc oxide particles: long distance electron transfer via ballistic transport of electrons across nanocrystallites, APP CATAL A, 208(1-2), 2001, pp. 335-341
I. Adsorption mechanism of chlorophenols on iron oxides, titanium oxide and aluminum oxide as detected by infrared spectroscopy
Authors: Bandara, J Mielczarski, JA Kiwi, J
Citation: J. Bandara et al., I. Adsorption mechanism of chlorophenols on iron oxides, titanium oxide and aluminum oxide as detected by infrared spectroscopy, APP CATAL B, 34(4), 2001, pp. 307-320
2. Sensitized degradation of chlorophenols on iron oxides induced by visible light - Comparison with titanium oxide
Authors: Bandara, J Mielczarski, JA Lopez, A Kiwi, J
Citation: J. Bandara et al., 2. Sensitized degradation of chlorophenols on iron oxides induced by visible light - Comparison with titanium oxide, APP CATAL B, 34(4), 2001, pp. 321-333
Surface mechanism of molecular recognition between aminophenols and iron oxide surfaces
Authors: Bandara, J Tennakone, K Kiwi, J
Citation: J. Bandara et al., Surface mechanism of molecular recognition between aminophenols and iron oxide surfaces, LANGMUIR, 17(13), 2001, pp. 3964-3969
Interparticle charge transfer in dye-sensitized films composed of two kinds of semiconductor crystallites
Authors: Bandara, J Tennakone, K
Citation: J. Bandara et K. Tennakone, Interparticle charge transfer in dye-sensitized films composed of two kinds of semiconductor crystallites, J COLL I SC, 236(2), 2001, pp. 375-378
Multiphoton semiconductor photocatalysis
Authors: Tennakone, K Bandara, J
Citation: K. Tennakone et J. Bandara, Multiphoton semiconductor photocatalysis, SOL EN MAT, 60(4), 2000, pp. 361-365
Fast kinetic spectroscopy, decoloration and production of H2O2 induced by visible light in oxygenated solutions of the azo dye Orange II
Authors: Bandara, J Kiwi, J
Citation: J. Bandara et J. Kiwi, Fast kinetic spectroscopy, decoloration and production of H2O2 induced by visible light in oxygenated solutions of the azo dye Orange II, NEW J CHEM, 23(7), 1999, pp. 717-724
1. Molecular mechanism of surface recognition. Azo dyes degradation on Fe,Ti, and Al oxides through metal sulfonate complexes
Authors: Bandara, J Mielczarski, JA Kiwi, J
Citation: J. Bandara et al., 1. Molecular mechanism of surface recognition. Azo dyes degradation on Fe,Ti, and Al oxides through metal sulfonate complexes, LANGMUIR, 15(22), 1999, pp. 7670-7679
2. Photosensitized degradation of azo dyes on Fe, Ti, and Al oxides. Mechanism of charge transfer during the degradation
Authors: Bandara, J Mielczarski, JA Kiwi, J
Citation: J. Bandara et al., 2. Photosensitized degradation of azo dyes on Fe, Ti, and Al oxides. Mechanism of charge transfer during the degradation, LANGMUIR, 15(22), 1999, pp. 7680-7687
Photoassisted Fenton degradation of nonbiodegradable azo dye (Orange II) in Fe-free solutions mediated by cation transfer membranes
Authors: Fernandez, J Bandara, J Lopez, A Buffat, P Kiwi, J
Citation: J. Fernandez et al., Photoassisted Fenton degradation of nonbiodegradable azo dye (Orange II) in Fe-free solutions mediated by cation transfer membranes, LANGMUIR, 15(1), 1999, pp. 185-192
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