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Visualizing plasmons

Visualizing plasmons research highlights parameter). This feedback-control approach envisage all-oxide-based spintronics devices. Guiding self-assembly should also be applicable to more complex Before such a goal can be achieved it is essential Adv. Funct. Mater. http:/ /doi.org /fz46bp (2012) colloidal systems. PP to achieve injection of spin-polarized electrons directly into an oxide layer. LaAlO –SrTiO 3 3 structures are ideal systems for studying Ion transistor logic spin transport, as the electron gas formed at Nature Commun. http:/ /doi.org /hxh (2012) the interface between the two materials has Most organic electronic circuits designed been shown to have large electron mobility. to interface with biological systems have to Nicholas Reyren and colleagues have now balance electrical connectivity with stability observed spin injection from a ferromagnetic because the ion-rich electrolyte that such contact into a LaAlO /SrTiO interface. They 3 3 systems contain generally degrades device deposited the ferromagnetic electrode on performance. Ionic bipolar transistors, which top of the LaAlO , which served as a tunnel are based on ion-conducting polymers, could barrier. The details of the experiments suggest in principle circumvent these challenges. a sequential tunnelling, from the electrode into Because conduction in these devices is localized states in the barrier, and subsequently intrinsically http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nature Materials Springer Journals

Visualizing plasmons

Heber, Joerg
Nature Materials , Volume 11 (7) – Jun 21, 2012
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Visualizing plasmons

Abstract

research highlights parameter). This feedback-control approach envisage all-oxide-based spintronics devices. Guiding self-assembly should also be applicable to more complex Before such a goal can be achieved it is essential Adv. Funct. Mater. http:/ /doi.org /fz46bp (2012) colloidal systems. PP to achieve injection of spin-polarized electrons directly into an oxide layer. LaAlO –SrTiO 3 3 structures are ideal systems for studying Ion transistor logic spin transport, as the electron gas...
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Publisher
Springer Journals
Copyright
Copyright © 2012 by Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.
Subject
Materials Science; Materials Science, general; Optical and Electronic Materials; Biomaterials; Nanotechnology; Condensed Matter Physics
ISSN
1476-1122
eISSN
1476-4660
DOI
10.1038/nmat3373
Publisher site
See Article on Publisher Site

Abstract

research highlights parameter). This feedback-control approach envisage all-oxide-based spintronics devices. Guiding self-assembly should also be applicable to more complex Before such a goal can be achieved it is essential Adv. Funct. Mater. http:/ /doi.org /fz46bp (2012) colloidal systems. PP to achieve injection of spin-polarized electrons directly into an oxide layer. LaAlO –SrTiO 3 3 structures are ideal systems for studying Ion transistor logic spin transport, as the electron gas formed at Nature Commun. http:/ /doi.org /hxh (2012) the interface between the two materials has Most organic electronic circuits designed been shown to have large electron mobility. to interface with biological systems have to Nicholas Reyren and colleagues have now balance electrical connectivity with stability observed spin injection from a ferromagnetic because the ion-rich electrolyte that such contact into a LaAlO /SrTiO interface. They 3 3 systems contain generally degrades device deposited the ferromagnetic electrode on performance. Ionic bipolar transistors, which top of the LaAlO , which served as a tunnel are based on ion-conducting polymers, could barrier. The details of the experiments suggest in principle circumvent these challenges. a sequential tunnelling, from the electrode into Because conduction in these devices is localized states in the barrier, and subsequently intrinsically

Journal

Nature MaterialsSpringer Journals

Published: Jun 21, 2012

There are no references for this article.