Mari Takasugi scite author profile

Mari Takasugi

2Publications

37Citation Statements Received

64Citation Statements Given

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Tohoku University

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Polarity inversion and growth mechanism of AlN layer grown on nitrided sapphire substrate using Ga–Al liquid‐phase epitaxy

Adachi

Takasugi

Sugiyama

et al. 2014

Physica Status Solidi (b)

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22 217 5178 Previously, we developed Ga-Al liquid-phase epitaxy (LPE) to grow AlN layers on a surface nitrided sapphire substrate using Ga-Al solutions. We found that polarity inversion occurs at the interface between the nitrided sapphire layer and the LPE layer. As the partial pressure of oxygen influences LPE growth, our current study investigated this growth by controlling oxygen in supplying nitrogen gas. Combined with the previous study, we discuss these results in light of the polarity inversion model and growth mechanism for the Ga-Al LPE technique. Oxygen atoms are believed to dissolve in the solution and get trapped on the surface of nitrided sapphire. The trapped oxygen atoms form a symmetrical octahedral structure, which resets the polarity of the nitrided sapphire. Consequently, chemically stable aluminum-polar AlN can be grown in the solution.

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Analysis of the Dislocation and Polarity in an AlN Layer Grown Using Ga–Al Flux

Adachi

Takasugi

Morikawa

et al. 2012

Appl. Phys. Express

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We have developed a novel liquid-phase epitaxial (LPE) technique that uses Ga-Al flux to grow AlN layers on nitrided sapphire substrates. In this study, cross-sectional and plan-view images were taken using a transmission electron microscope. An edge dislocation was dominant in the LPE AlN layers; its density was approximately 5 Â 10 9 cm À2 . Convergent-beam electron diffraction analysis revealed that the LPE layer had Al polarity, even though the nitrided sapphire layer had N polarity. The oxygen potential in the injecting N 2 gas played an important role in the polarity inversion in the LPE growth. #

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Mari Takasugi

Polarity inversion and growth mechanism of AlN layer grown on nitrided sapphire substrate using Ga–Al liquid‐phase epitaxy

Analysis of the Dislocation and Polarity in an AlN Layer Grown Using Ga–Al Flux

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