G.W.J. Hassink scite author profile

We have found that there is more than one type of conducting carriers generated in LaAlO3/SrTiO3 heterostructures by comparing the sheet carrier density and mobility from optical transmission spectroscopy with those from dc-transport measurements. When multiple types of carriers exist, optical characterization dominantly reflects the contribution from the high-density carriers whereas dc-transport measurements may exaggerate the contribution of the high-mobility carriers even though they are present at low-density. Since the low-temperature mobilities determined by dc-transport in the LaAlO3/SrTiO3 heterostructures are much higher than those extracted by optical method, we attribute the origin of high-mobility transport to the low-density conducting carriers.Comment: 3 figures, supplemental materia

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Transparency of graphene for low-energy electrons measured in a vacuum-triode setup

Hassink

Wanke

Rastegar

et al. 2015

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Graphene, being an atomically thin conducting sheet, is a candidate material for gate electrodes in vacuum electronic devices, as it may be traversed by low-energy electrons. The transparency of graphene to electrons with energies between 2 and 40 eV has been measured by using an optimized vacuum-triode setup. The measured graphene transparency equals ∼60% in most of this energy range. Based on these results, nano-patterned sheets of graphene or of related two-dimensional materials are proposed as gate electrodes for ambipolar vacuum devices.

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Magnetic-field-free thermoelectronic power conversion based on graphene and related two-dimensional materials

Wanke

Hassink

Stephanos

et al. 2016

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Transparency of graphene for low-energy electrons measured in a vacuum-triode setup APL Materials 3, 076106 (2015) Mobile energy converters require, in addition to high conversion efficiency and low cost, a low mass. We propose to utilize thermoelectronic converters that use 2D-materials such as graphene for their gate electrodes. Deriving the ultimate limit for their specific energy output, we show that the positive energy output is likely close to the fundamental limit for any conversion of heat into electric power. These converters may be valuable as electric power sources of spacecraft, and with the addition of vacuum enclosures, for power generation in electric planes and cars.

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Two-Dimensional Confinement of3d1Electrons inLaTiO3/LaAlO3Multilayers

et al. 2010

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We report spectroscopic ellipsometry measurements of the anisotropy of the interband transitions parallel and perpendicular to the planes of (LaTiO3)n(LaAlO3)5 multilayers with n=1-3. These provide direct information about the electronic structure of the two-dimensional (2D) 3d{1} state of the Ti ions. In combination with local density approximation, including a Hubbard U calculation, we suggest that 2D confinement in the TiO2 slabs lifts the degeneracy of the t{2g} states leaving only the planar d{xy} orbitals occupied. We outline that these multilayers can serve as a model system for the study of the t{2g} 2D Hubbard model.

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G.W.J. Hassink

Multiple conducting carriers generated in LaAlO3/SrTiO3 heterostructures

Transparency of graphene for low-energy electrons measured in a vacuum-triode setup

Magnetic-field-free thermoelectronic power conversion based on graphene and related two-dimensional materials

Two-Dimensional Confinement of3d1Electrons inLaTiO3/LaAlO3Multilayers

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