| 1 - 1 |
Preface
Piao LY, Chen XB, Li YD, Tuysuz H |
| 2 - 9 |
Vacuum-treated titanium dioxide nanocrystals: Optical properties, surface disorder, oxygen vacancy, and photocatalytic activities
Xia T, Zhang YL, Murowchick J, Chen XB |
| 10 - 17 |
Rapid degradation of toxic toluene using novel mesoporous SiO2 doped TiO2 nanofibers
Zhan SH, Yang Y, Gao XC, Yu HB, Yang SS, Zhu DD, Li Y |
| 18 - 23 |
Enhancing photocatalytic activity of Sn doped TiO2 dominated with {105} facets
Jiang HB, Xing J, Chen ZP, Tian F, Cuan Q, Gong XQ, Yang HG |
| 24 - 33 |
Considerations to improve adsorption and photocatalysis of low concentration air pollutants on TiO2
Lyu JZ, Zhu LZ, Burda C |
| 34 - 51 |
A review on TiO2-based nanotubes synthesized via hydrothermal method: Formation mechanism, structure modification, and photocatalytic applications
Liu N, Chen XY, Zhang JL, Schwank JW |
| 52 - 54 |
Contrasting photocatalytic activity of commercial TiO2 samples for hydrogen generation
Montes-Navajas P, Serra M, Corma A, Garcia H |
| 55 - 63 |
Polymer-templated ordered large-pore mesoporous anatase rutile TiO2:Ta nanocomposite films: Microstructure, electrical conductivity, and photocatalytic and photoelectrochemical properties
Reitz C, Reinacher J, Hartmann P, Brezesinski T |
| 64 - 73 |
Synthesis and photoactivity of nanostructured CdS-TiO2 composite catalysts
Li X, Xia T, Xu CH, Murowchick J, Chen XB |
| 74 - 79 |
Effect of different base structures on the performance of the hierarchical TiO2 photocatalysts
Xie YJ, Wu ZJ, Wu Q, Liu M, Piao LY |
| 80 - 89 |
Ti3+ self-doped TiO2-x anatase nanoparticles via oxidation of TiH2 in H2O2
Liu X, Xu H, Grabstanowicz LR, Gao SM, Lou ZZ, Wang WJ, Huang BB, Dai Y, Xu T |
| 90 - 95 |
Synthesis of tailored Au@TiO2 core-shell nanoparticles for photocatalytic reforming of ethanol
Goebl J, Joo JB, Dahl M, Yin YD |
| 96 - 101 |
A dopant-mediated recombination mechanism in Fe-doped TiO2 nanoparticles for the photocatalytic decomposition of nitric oxide
Wu QP, Yang CC, van de Krol R |
| 102 - 110 |
Photocatalytic hydrogen production with non-stoichiometric pyrochlore bismuth titanate
Merka O, Bahnemann DW, Wark M |
| 111 - 135 |
Non-metal doping of transition metal oxides for visible-light photocatalysis
Marschall R, Wang LZ |
| 136 - 141 |
PdS-modified CdS/NiS composite as an efficient photocatalyst for H-2 evolution in visible light
Meng JL, Yu ZM, Li Y, Li YD |
| 142 - 148 |
Photocatalytic hydrogen production over various sodium tantalates
Grewe T, Meier K, Tuysuz H |
| 149 - 157 |
Reduction of CO2 using a rhenium bipyridine complex containing ancillary BODIPY moieties
Teesdale JJ, Pistner AJ, Yap GPA, Ma YZ, Lutterman DA, Rosenthal J |
| 158 - 163 |
Mesoporous plasmonic Au-loaded Ta2O5 nanocomposites for efficient visible light photocatalysis
Zhou C, Shang L, Yu HJ, Bian T, Wu LZ, Tung CH, Zhang TR |
| 164 - 170 |
Selective photocatalytic degradation of nitrobenzene facilitated by molecular imprinting with a transition state analog
Shen XT, Zhu LH, Wang N, Zhang T, Tang HQ |
| 171 - 176 |
Enhancing photocatalytic oxygen evolution activity of cobalt-based spinel nanoparticles
Zhang Y, Rosen J, Hutchings GS, Jiao F |
| 177 - 184 |
Enhanced photocatalysis by hybrid hierarchical assembly of plasmonic nanocrystals with high surface areas
Hu YX, Li Z, Sun YG |
| 185 - 190 |
SiO2/carbon nitride composite materials: The role of surfaces for enhanced photocatalysis
Shalom M, Inal S, Neher D, Antoniettia M |
