Daniel Hodash scite author profile

Daniel Hodash

4Publications

93Citation Statements Received

196Citation Statements Given

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157

188

Affiliations

Cornell University, Materials Science & Engineering

Publications

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Hetero-epitaxial EuO interfaces studied by analytic electron microscopy

Mundy

Hodash

Melville

et al. 2014

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With nearly complete spin polarization, the ferromagnetic semiconductor europium monoxide could enable next-generation spintronic devices by providing efficient ohmic spin injection into silicon. Spin injection is greatly affected by the quality of the interface between the injector and silicon. Here, we use atomic-resolution scanning transmission electron microscopy in conjunction with electron energy loss spectroscopy to directly image and chemically characterize a series of EuO|Si and EuO|YAlO 3 interfaces fabricated using different growth conditions. We identify the presence of europium silicides and regions of disorder at the EuO|Si interfaces, imperfections that could significantly reduce spin injection efficiencies via spin-flip scattering. a These authors contributed equally to this work.

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High-quality EuO thin films the easy way via topotactic transformation

et al. 2015

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Epitaxy is widely employed to create highly oriented crystalline films. A less appreciated, but nonetheless powerful means of creating such films is via topotactic transformation, in which a chemical reaction transforms a single crystal of one phase into a single crystal of a different phase, which inherits its orientation from the original crystal. Topotactic reactions may be applied to epitactic films to substitute, add or remove ions to yield epitactic films of different phases. Here we exploit a topotactic reduction reaction to provide a non-ultra-high vacuum (UHV) means of growing highly oriented single crystalline thin films of the easily over-oxidized half-metallic semiconductor europium monoxide (EuO) with a perfection rivalling that of the best films of the same material grown by molecular-beam epitaxy or UHV pulsed-laser deposition. As the technique only requires high-vacuum deposition equipment, it has the potential to drastically improve the accessibility of high-quality single crystalline films of EuO as well as other difficult-to-synthesize compounds.

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Exploring the intrinsic limit of the charge-carrier-induced increase of the Curie temperature of Lu- and La-doped EuO thin films

Held

Mairoser

Melville

et al. 2020

Phys. Rev. Materials

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Fabrication of chemically and structurally abrupt Eu1−xLaxO/SrO/Si interfaces and their analysis by STEM-EELS

Held

Mundy

Holtz

et al. 2021

Phys. Rev. Materials

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Daniel Hodash

Hetero-epitaxial EuO interfaces studied by analytic electron microscopy

High-quality EuO thin films the easy way via topotactic transformation

Exploring the intrinsic limit of the charge-carrier-induced increase of the Curie temperature of Lu- and La-doped EuO thin films

Fabrication of chemically and structurally abrupt Eu1−xLaxO/SrO/Si interfaces and their analysis by STEM-EELS

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