Page 264 - Multifunctional Photocatalytic Materials for Energy
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Multidimensional TiO 2 nanostructured catalysts for sustainable H 2 generation 247
Table 11.2 A summary of recently reported TiO 2 -based
photocatalysts, including their synthesis conditions and
precursors
Photocatalyst Precursors of TiO 2 Synthesis parameters of TiO 2 Refs.
TiO 2 − x N x NTs Ti foil Plasma-assisted atomic layer [309]
deposition
N/TiO 2 NTs Ti foil Microemulsion-hydrothermal [206]
method
TiO 2 − x C x NTs Ti foil – [310]
Ni/TiO 2 NTs Ti foil Pulsed electrode-deposition method [311]
Pt/TiO 2 Ti foil UV irradiate [312]
Pt/TiO 2 NTs Ti foil Anodic oxidation method [313]
Fe/TiO 2 Ti foil Sol-gel method [314]
Electrodeposition method
Cu 2 O/TiO 2 NTs Ti foil Ultrasonication-assisted sequential [315]
Cu 2 O/TiO 2 NTs Ti foil chemical bath deposition [316]
SrTiO 3 /TiO 2 Ti foil Hydrothermal treatment (200°C, 24 h) [317]
SrTiO 3 /TiO 2 Ti foil Electrochemical oxidation and [318]
hydrothermal treatment
Hydrothermal-calcination
CDs/TiO 2 Ti foil Sol-gel process [319]
CulnS 2 /ZnS/TiO 2 Ti foil Hot-injection [320]
CdSe/TiO 2 Ti foil Electrospinning and hydrothermal [321]
PVDF/TiO 2 Ti foil Sol-gel process [322]
Fe 3 O 4 @TiO 2 @Ag Ti foil Hydrothermal synthesis and [323]
N, S/TiO 2 NBs Ti(SO 4 ) 2 posttreatment [324]
S-TiO 2 NPs Titanium – [325]
F-TiO 2 NPs Isopropoxide Heat treatment and sol-gel method [326]
Au/TiO 2 NRs Titanium Hydrothermal method (140°C, 4 h) [327]
tetraisopropoxide
Titanium butoxide
Ag/TiO 2 NBs Titania P-25 Acid-assisted hydrothermal method [328]
13
V/TiO 2 TiCl 4 C solid-state NMR methods [329]
Co/TiO 2 NBs Ferromagnetic – [330]
rutile Co 0.01 Tu 0.99 O 2
single crystal
Cr/TiO 2 NRs Commercial Hydrothermal treatment (650°C 1 h) [331]
anatase TiO 2
particles
Pd/TiO 2 TiO 2 paste Successive ionic layer adsorption [332]
and reaction method
Au/Ag/TiO 2 NWs TiO 2 NWs Hydrothermal and photodeposition [333]
TiO 2 NWs Self-assembly photochemical [334]
g-C 3 N 4 /G/TiO 2
reduction
Continued
