Journal ArticleDOI
The Role of Metal Ion Dopants in Quantum-Sized TiO2: Correlation between Photoreactivity and Charge Carrier Recombination Dynamics
TLDR
In this article, the presence of metal ion dopants in the TiO_2 crystalline matrix significantly influences photoreactivity, charge carrier recombination rates, and interfacial electron-transfer rates.Abstract:
A systematic study of metal ion doping in quantum (Q)-sized (2-4 nm) TiO_2 colloids is performed by measuring their photoreactivities and the transient charge carrier recombination dynamics. The presence of metal ion dopants in the TiO_2 crystalline matrix significantly influences photoreactivity, charge carrier recombination rates, and interfacial electron-transfer rates. The photoreactivities of 21 metal ion-doped colloids are quantified in terms of both the conduction band electron reduction of an electron acceptor (CCl_4 dechlorination) and the valence band hole oxidation of an electron donor (CHCl_3 degradation). Doping with Fe^(3+), Mo^(5+), Ru^(3+), Os^(3+), Re^(5+), V^(4+), and Rh^(3+) at 0.1-0.5 at.% significantly increases the photoreactivity for both oxidation and reduction while Co^(3+) and Al^(3+) doping decreases the photoreactivity. The transient absorption signals upon laser flash photolysis (λ_(ex) = 355 nm) at λ = 600 nm are extended up to 50 ms for Fe^(3+)-, V^(4+)-, Mo^(5+)-, and Ru^(3+)-doped TiO_2 while the undoped Q-sized TiO_2 shows a complete "blue electron" signal decay within 200 μs. Co^(3+)- and Al^(3+)-doped TiO_2 are characterized by rapid signal decays with a complete loss of absorption signals within 5 μs. The quantum yields obtained during CW photolyses are quantitatively correlated with the measured transient absorption signals of the charge carriers. Photoreactivities
are shown to increase with the relative concentration of trapped charge carriers. The photoreactivity of doped TiO_2 appears to be a complex function of the dopant concentration, the energy level of dopants within the TiO_2 lattice, their d electronic configuration, the distribution of dopants, the electron donor concentration, and the light intensity.read more
Citations
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Journal ArticleDOI
Different effects of cerium ions doping on properties of anatase and rutile TiO2
Guangqin Li,Chunyan Liu,Yun Liu +2 more
TL;DR: The photocatalytic reactivity of the catalysts was evaluated by the photodegradation of Rhodamine B (RB) under ultraviolet irradiation as discussed by the authors, which showed that the rutile sample doped with an appropriate amount of Ce 4+ was enhanced while all other anatase samples showed a much lower activity than pure anatase.
Journal ArticleDOI
Enhanced photocatalytic activity for water splitting of blue-phase GeS and GeSe monolayers via biaxial straining.
TL;DR: The results suggest that monolayer GeS and GeSe possess photocatalytic properties for water splitting, and strain engineering, especially tensile strain, can enhance the photoc atalytic activity under ultraviolet and visible light.
Journal ArticleDOI
Zn-doped TiO2 electrodes in dye-sensitized solar cells for enhanced photocurrent
Fuzhi Huang,Fuzhi Huang,Qi Li,Gordon J. Thorogood,Yi-Bing Cheng,Rachel A. Caruso,Rachel A. Caruso +6 more
TL;DR: In this article, a dye-sensitized solar cell was synthesized employing agarose gel as a template, achieving a maximum Zn-doping concentration of around 2 at.%.
Journal ArticleDOI
Sol–Gel Synthesis of Fe-Doped TiO 2 Nanocrystals
TL;DR: In this article, Fe-doped TiO2 powders were synthesized by the sol-gel method using titanium (IV) isopropoxide (TTIP) as the starting material, ethanol as solvent, and ethylene glycol (EG) as stabilizer.
Journal ArticleDOI
In situ gold-loaded titania photonic crystals with enhanced photocatalytic activity
Abstract: A facile two-step method is developed to fabricate three-dimensional ordered macroporous (3DOM) gold-loaded titania (TiO2) photonic crystals with enhanced photocatalytic activities. Firstly, a mixed solution of polystyrene (PS) colloids, chloroauric acid and titanium(IV)-bis-lactato-bisammonium dihydroxide (TiBALDH) sol was co-assembled into PS/TiO2 colloidal crystal films. Subsequent calcination of the samples led to the removal of PS and transformed amorphous TiO2 into the anatase phase. The resultant 3DOM inverse TiO2 opals (i-TiO2-o) and gold-loaded i-TiO2-o (i-Au-TiO2-o) show centimeter-scale long-range ordering. Photocatalytic characterization of the i-TiO2-o and i-Au-TiO2-o showed activities two- and five-fold higher than nanocrystalline TiO2, respectively. This enhanced photocatalytic performance can be attributed to the synergetic effect of slow photons near the absorption edge of anatase TiO2 nanocrystals and chemically amplified photochemistry. The present method is much more simple and straightforward than conventional colloidal crystal templating methods. In particular, the gold nanoparticles can be in situ loaded into the inverse opal structure with controllable size and content. Furthermore, both i-TiO2-o and i-Au-TiO2-o films fabricated by this method show a highly ordered structure without overlayers in a large area, which facilitates the adsorption of target pollutants and ultimate utilization of solar energy.
References
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Book
Inorganic Chemistry: Principles of Structure and Reactivity
TL;DR: In this article, inorganic chemistry principles of structure and reactivity are presented. But, they do not cover how to use these principles in the design of products, and they are not available in any type of product.
Book
Transition Metal Oxides: An Introduction to Their Electronic Structure and Properties
TL;DR: In this article, the authors present a chemical aspects structural principles of electronic classification and models of electronic structure: ionic models cluster models band theory intermediate models, point-defects and semiconduction, electronic carrier properties.
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