Mitsuaki Yano scite author profile

A concept for the fabrication of highly symmetric quantum dots that are coherently embedded in a single crystalline matrix is demonstrated. In this approach, the formation of the quantum dots is induced by a transformation of an epitaxial 2D quantum well into an array of isolated precipitates with dimensions of about 25 nm. The formation process is driven by the immiscibility of the constituent materials resulting from their different lattice structures. The investigated PbTe/CdTe heterosystem combines two different cubic lattices with almost identical lattice constants. Therefore, the precipitated quantum dots are almost strain free and near thermodynamic equilibrium they exhibit the shape of small-rhombo-cubo-octahedrons.The PbTe/CdTe quantum dots, grown on GaAs substrates, display intense room temperature luminescence at wavelength around 3.2 µm, which makes them auspicious for applications in mid-infrared photonic devices.

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High-performance ZnO∕ZnMgO field-effect transistors using a hetero-metal-insulator-semiconductor structure

Sasa

Ozaki

Koike

et al. 2006

105

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Articles you may be interested inElectrically pumped random lasing in ZnO-based metal-insulator-semiconductor structured devices: Effect of ZnO film thickness J. Appl. Phys. 113, 213103 (2013); 10.1063/1.4808445 Effect of thermal treatment on the performance of ZnO based metal-insulator-semiconductor ultraviolet photodetectors Appl. Phys. Lett. 97, 031116 (2010); 10.1063/1.3467204 ZnO-based metal-semiconductor field-effect transistors on glass substrates Appl. Phys. Lett. 95, 153503 (2009); 10.1063/1.3242414 Influence of stabilizers in ZnO nanodispersions on field-effect transistor device performance

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Mechanisms of electrical isolation inO+-irradiated ZnO

et al. 2008

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We have applied positron annihilation spectroscopy combined with sheet resistance measurements to study the electrical isolation of thin ZnO layers irradiated with 2 MeV O + ions at various fluences. Our results indicate that Zn vacancies, the dominant defects detected by positrons, are produced in the irradiation at a relatively low rate of about 2000 cm −1 when the ion fluence is at most 10 15 cm −2 and that vacancy clusters are created at higher fluences. The Zn vacancies introduced in the irradiation act as dominant compensating centers and cause the electrical isolation, while the results suggest that the vacancy clusters are electrically inactive.

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Piezoelectric Carrier Confinement by Lattice Mismatch at ZnO/Zn_0.6Mg_0.4O Heterointerface

Koike

Hama

Nakashima

et al. 2004

Jpn. J. Appl. Phys.

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Mitsuaki Yano

Molecular beam epitaxial growth of wide bandgap ZnMgO alloy films on (111)-oriented Si substrate toward UV-detector applications

Centrosymmetric PbTe∕CdTe quantum dots coherently embedded by epitaxial precipitation

High-performance ZnO∕ZnMgO field-effect transistors using a hetero-metal-insulator-semiconductor structure

Mechanisms of electrical isolation inO+-irradiated ZnO

Piezoelectric Carrier Confinement by Lattice Mismatch at ZnO/Zn_0.6Mg_0.4O Heterointerface

Contact Info

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About

Mitsuaki Yano

Molecular beam epitaxial growth of wide bandgap ZnMgO alloy films on (111)-oriented Si substrate toward UV-detector applications

Centrosymmetric PbTe∕CdTe quantum dots coherently embedded by epitaxial precipitation

High-performance ZnO∕ZnMgO field-effect transistors using a hetero-metal-insulator-semiconductor structure

Mechanisms of electrical isolation inO+-irradiated ZnO

Piezoelectric Carrier Confinement by Lattice Mismatch at ZnO/Zn0.6Mg0.4O Heterointerface

Contact Info

Product

Resources

About

Piezoelectric Carrier Confinement by Lattice Mismatch at ZnO/Zn_0.6Mg_0.4O Heterointerface