Kazuo Tsugawa scite author profile

We present a low-temperature (300–400 °C), large-area (23 cm×20 cm) and efficient synthesis method for graphene-based transparent conductive films using surface wave plasma chemical vapor deposition. The films consist of few-layer graphene sheets. Their transparency and conductivity characteristics make them suitable for practical electrical and optoelectronic applications, which have been demonstrated by the proper operation of a touch panel fabricated using the films. The results confirm that our method could be suitable for the industrial mass production of macroscopic-scale graphene-based films.

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Nanocrystalline diamond growth in a surface-wave plasma

Tsugawa

Kawaki

Ishihara

et al. 2011

Diamond and Related Materials

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Nanocrystalline diamond film growth on plastic substrates at temperatures below100 °Cfrom low-temperature plasma

et al. 2010

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Nanocrystalline diamond films have been successfully synthesized on plastic substrates at substrate temperatures below 100°C using a microwave plasma chemical-vapor deposition technique. This has been realized by using low reaction-gas pressures and a surface-wave plasma with a low-electron temperature over the growth region. The nanocrystalline diamond films exhibit growth rates with much lower temperature dependence than conventional diamond growth and decreasing nucleation rates with increasing substrate temperatures. These phenomena imply a different growth mechanism from conventional diamond syntheses. In addition, our analysis on the crystal size distribution of the nanocrystalline diamond film indicates the possibility of diamond nucleation in a stable phase in the plasma. The gas-phase nucleation, invoked by the low-electron temperature of the surface-wave plasma, well explains the low-temperature growth and the temperature dependences of the growth rate and the nucleation rate.

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Antibacterial activity of fluorine incorporated DLC films

Ishihara

Kosaka

Nakamura

et al. 2006

Diamond and Related Materials

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Direct evidence of advantage of Cu(111) for graphene synthesis by using Raman mapping and electron backscatter diffraction

et al. 2011

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Kazuo Tsugawa

Low-temperature synthesis of large-area graphene-based transparent conductive films using surface wave plasma chemical vapor deposition

Nanocrystalline diamond growth in a surface-wave plasma

Nanocrystalline diamond film growth on plastic substrates at temperatures below100 °Cfrom low-temperature plasma

Antibacterial activity of fluorine incorporated DLC films

Direct evidence of advantage of Cu(111) for graphene synthesis by using Raman mapping and electron backscatter diffraction

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