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Journal Articles

Nanoparticle formation by pulsed laser ablation of TiO $_{2}$

Yamaki, Tetsuya; Ito, Hisayoshi; Matsubara, Masakazu*; Abe, Hiroaki*; Asai, Keisuke*

Transactions of the Materials Research Society of Japan, 28(3), p.879 - 882, 2003/10

Titanium oxide nanoparticles were formed by pulsed laser ablation of a TiO $_{2}$ rutile pellet with a KrF excimer laser ( = 248 nm). The ablation was performed in atmospheres of Ar and O $_{2}$ at total pressures ranging from 0.2 and 10 Torr. At a higher pressure than 1 Torr, Ti in the nanoparticles had an oxidation state of 4+ to form TiO $_{2}$ . According to the X-ray diffraction analyses, the nanopartiles were found to contain both the anatase and rutile phases, which crystallized through extremely energetic, non-equilibrium reactions in an ablation plume. In contrast, at pressures of 0.2 and 0.5 Torr, the nanoparticles were composed of dominant TiO $_{2}$ with a small amount of a less oxidized phase such as Ti $_{2}$ O $_{3}$ . The important result is that the XRD patterns of the samples prepared at 1 and 5 Torr showed the different anatase-to-rutile ratio of the peak intensities. This indicates that the weight fraction of the rutile/anatase crystalline phases can be controlled by the ambient gas pressure.

Journal Articles

Fluorine-doping in titanium dioxide by ion implantation technique

Yamaki, Tetsuya; Umebayashi, Tsutomu; Sumita, Taishi*; Yamamoto, Shunya; Maekawa, Masaki; Kawasuso, Atsuo; Ito, Hisayoshi

Nuclear Instruments and Methods in Physics Research B, 206(1-4), p.254 - 258, 2003/05

https://doi.org/10.1016/S0168-583X(03)00735-3

Times Cited Count：136 Percentile：98.91(Instruments & Instrumentation)

Single crystalline titanium dioxide (TiO $_{2}$ ) rutile were implanted with 200keV F $^{+}$ at a nominal fluence of 110 $^{16}$ to 110 $^{17}$ ions cm $^{-2}$ and then thermally annealed in air up to 1200 $^{circ}C$ for 5h. The radiation damage and its recovery during the subsequent annealing were analyzed by Rutherford backscattering spectrometry in channeling geometry and variable-energy positron annihilation spectroscopy. The lattice disorder was completely annealed at 1200 $^{circ}C$ by the diffusion of point defects to the surface acting as a sink. According to the secondary ion mass spectrometry, the F depth profile was shifted to a shallower region along with the damage recovery, finally producing an F-doped layer where the impurity concentration increased steadily towards the surface. The F doping proved to provide a small modification to the conduction-band edge of TiO $_{2}$ , as assessed by theoretical band calculations.