J. Niitsuma scite author profile

J. Niitsuma

5Publications

114Citation Statements Received

85Citation Statements Given

How they've been cited

108

How they cite others

114

Affiliations

National Institute for Materials Science, Osaka University

Publications

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Isotope effects between hydrogen and deuterium microwave plasmas on chemical vapor deposition homoepitaxial diamond growth

Mizuochi

Isoya

Niitsuma

et al. 2007

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This article shows that replacing hydrogen with deuterium improves the quality of microwave plasma-assisted chemical vapor deposition homoepitaxial diamond. Suppression of point defects in the bulk and of nonepitaxial crystallites and increasing of free-exciton emission intensity were revealed by electron paramagnetic resonance, optical microscopy, and cathodoluminescence, respectively. The isotope effects on the etching rate of diamond by deuterium are also revealed. The isotope effects are discussed from the viewpoint of etching effects.

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Cathodoluminescence investigation of organic materials

Niitsuma¹,

Oikawa²,

Kimura³

et al. 2005

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Cathodoluminescence (CL) properties of various kinds of organic material were investigated for the purpose of staining biological specimens and obtaining CL images. Several kinds of organic light emitting device (OLED) material exhibited CL. The europium complex, Eu(dbm)3(phen), showed the strongest CL signal and was chemically modified for biological staining. However, the CL intensity from the stained biological specimen was too weak to build CL images. We discussed the CL properties of organic materials considering their chemical structure and charge distribution in the molecules.

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Cathodoluminescence characterization of ZnO nanotubes grown by MOCVD on sapphire substrate

Yuan

Zhang

Niitsuma

et al. 2006

Materials Science in Semiconductor Processing

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Hydrogen-vacancy related defect in chemical vapor deposition homoepitaxial diamond films studied by electron paramagnetic resonance and cathodoluminescence

Mizuochi

Watanabe²,

Okushi³

et al. 2006

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Hydrogen-vacancy related defect (H1′) in chemical vapor deposition homoepitaxial diamond films has been investigated by electron paramagnetic resonance and cathodoluminescence. It is found that the concentration of H1′ significantly decreases as the dilution (CH4∕H2) ratio decreases. It is also confirmed that the intensity of free-exciton emission (Iex) increases as the CH4∕H2 ratio decreases. The complementary relationship between Iex and H1′ can be explained by considering that H1′ acts as a nonradiative recombination center which reduces the lifetime of free exciton and Iex. The suppression mechanism of H1′ is discussed by considering the balance between the growth rate and the annihilation rate of H1′ in the subsurface region.

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Inhomogeneous distribution of dislocations in a SiGe graded layer and its influence on surface morphology and misfit dislocations at the interface of strained Si∕Si0.8Ge0.2

Yuan

Sekiguchi

Niitsuma

et al. 2005

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J. Niitsuma

Isotope effects between hydrogen and deuterium microwave plasmas on chemical vapor deposition homoepitaxial diamond growth

Cathodoluminescence investigation of organic materials

Cathodoluminescence characterization of ZnO nanotubes grown by MOCVD on sapphire substrate

Hydrogen-vacancy related defect in chemical vapor deposition homoepitaxial diamond films studied by electron paramagnetic resonance and cathodoluminescence

Inhomogeneous distribution of dislocations in a SiGe graded layer and its influence on surface morphology and misfit dislocations at the interface of strained Si∕Si0.8Ge0.2

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