Min-Chun Tsai scite author profile

This work reports on a simple hydrothermal method for tuning the shape and exposed face of TiO 2 nanocrystal by using sodium titanate as a precursor in the presence of different alkali metal ion salts. The {101}-exposed anatase TiO 2 was synthesized in lithium salt solution. The formation of anatase TiO 2 with exposed high-index {301} facet, obtained in the presence of sodium ions, has never before been reported upon. When the reaction proceeded in potassium salt solution, the obtained anatase TiO 2 with a high aspect ratio was elongated in the ,001. direction. Anatase TiO 2 with a high aspect ratio was obtained in hydrothermal process in the presence of low charge density high atomic number alkali metal ions, which were not easily absorbed by the {001} planes of anatase, so the growth along this direction was not restrained. The photodegradation of methylene blue, assisted by anatase TiO 2 with various exposed faces reveals that the photoactivity of anatase {101} planes is larger than that of {301} planes.

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Thickness Effects on Light Absorption and Scattering for Nanoparticles in the Shape of Hollow Spheres

Lee

Tsai

Chen

et al. 2015

J. Phys. Chem. C

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We reveal the thickness effects on optical properties for nanoparticles in the shape of hollow spheres theoretically and experimentally. Within and beyond the electrically small limit, hollow spheres are shown to have almost the same light absorption power as that of solid ones, when the ratio of inner core to whole particle radii is smaller than 0.4. It means that one can maintain the level of light absorption even with a large empty core. In the electrically small limit, we expand the exact solution of Mie theory in power of the thickness parameter and show that the thickness ratio has less influence on light absorption. Moreover, we synthesize highly uniform hollow spheres of TiO2 anatase through a self-sacrificing template method. A variety of particle radii from 94 to 500 nm, with 50 nm in the shell thickness, are performed experimentally in photocatalytic activity. With experimental demonstrations and theoretical simulations, our results provide a guideline in the design on the thickness for hollow-sphere nanoparticles with an optimized absorption power in light harvesting.

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Min-Chun Tsai

Large-scale synthesis of uniform Cu2O nanocubes with tunable sizes by in-situ nucleation

Self-assembled synthesis of nanoflower-like Li4Ti5O12 for ultrahigh rate lithium-ion batteries

Effects of size and shell thickness of TiO2 hierarchical hollow spheres on photocatalytic behavior: An experimental and theoretical study

Alkali metal ion assisted synthesis of faceted anatase TiO2

Thickness Effects on Light Absorption and Scattering for Nanoparticles in the Shape of Hollow Spheres

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