Your search keyword '"Tsuyoshi Hioki"' showing total 2 results

1. Preparation of Pb(Zr, Ti)O3 Thin Films on Glass Substrates

Author

Yutaka Onozuka, Tomomasa Ueda, Masahiko Akiyama, Tsuyoshi Hioki, Yujiro Hara, and Kouji Suzuki

Subjects

Materials science, Sputtering, Cavity magnetron, General Engineering, General Physics and Astronomy, Substrate (electronics), Thin film, Composite material, Coercivity, Layer (electronics), Ferroelectricity, Perovskite (structure)

Abstract

Lead-zirconate-titanate (PZT) thin films were prepared on non-alkaline glass substrates widely used in liquid crystal display (LCD) devices, by plasma-assisted magnetron RF sputtering with an immersed coil. After preparation of the PZT thin film, the glass was available for use in LCD device processing. No mutual diffusion of the elements was recognized between the glass substrate and the bottom electrode. The PZT layer had a dense film structure with rectangular and columnar grains, and only its perovskite phase was crystalline. PZT thin films on a glass substrate had leakage current densities of about 10-8 A/cm2, acceptable hysteresis loop shapes with the remanent polarization (P r ) of 45 µC/cm2 and the coercive field (E c ) of 90 kV/cm. Ferroelectric properties on a glass substrate almost conform with those on a Si-based substrate.

Published

2000

2. Preparation of Pb(Zr, Ti)O3 Thin Films by Plasma-Assisted Sputtering

Author

Tomomasa Ueda, Kouji Suzuki, Masahiko Akiyama, Yutaka Onozuka, and Tsuyoshi Hioki

Subjects

Materials science, Sputtering, Phase (matter), General Engineering, Analytical chemistry, General Physics and Astronomy, sense organs, Substrate (electronics), Plasma, Sputter deposition, Thin film, Inductively coupled plasma, Perovskite (structure)

Abstract

A novel plasma-assisted RF magnetron sputtering system with an immersed coil antenna between a target and a substrate was applied for preparing Pb(Zr, Ti)O3 (PZT) thin films. The antenna enabled the generation of inductively coupled plasma (ICP) independently of the target RF source. The plasma assisted by the antenna resulted in the changes of ion fluxes and these energy distributions irradiating to the substrate. The crystalline phase of the deposited PZT thin films was occupied by the perovskite phase depending on the antenna power. In addition, a high deposition rate, modified uniformity of film thickness, and a dense film structure with large columnar grains were obtained as a result of effects of the assisted plasma. The application of the plasma-assisted sputtering method may enable the preparation of PZT thin films that have excellent properties.

Published

1999