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An artist’s rendering of strontium iridate, an oxide whose properties can be controlled by applying spin-orbit interactions or changing molecular bond angles.
Controlling Electronic Properties via Spin-Orbit Interactions

Cornell Chronicle February 24, 2015

A conceptual illustration of magnetization reversal, given by the compasses, with an electric field (blue) applied across the gold capacitors.
Multiferroic Heroics enable Electrical Control of Magnetism at Room Temperature

Cornell Chronicle December 18, 2014

The left figure demonstrates why the first double layer of strontium oxide is missing when growing a Ruddlesden-Popper oxide thin film.
Sandwich Making at the Atomic Scale

Cornell Chronicle August 4, 2014

rendering of metal-insulator transition in sub-nanometer films of a lanthanum nickelate
'Exotic' material is like a switch when super thin

Cornell Chronicle April 17, 2014

new lab layout rendering
$4M gift will propel quantum materials studies

Cornell Chronicle December 5, 2013

image of new tunable dielectric material
Designer Tunable Dielectric for 5th Generation Cell Phones

Cornell Chronicle October 16, 2013

rendering of infinite layer cuprate superconductor structure
Intrinsic superconductor behavior revealed

Cornell Chronicle January 15, 2013

When suitably strained, the ground state of EuTiO3 changes to become the strongest known ferroelectric ferromagnet
Ho-hum to high performance: A boring material, when 'stretched,' could lead to electronics revolution

Cornell Chronicle August 18, 2010

The crystal structure of epitaxial SrTiO3 on Si writing into the surface of strained, ferroelectric SrTiO3 on Si
Putting the squeeze on an old material could lead to 'instant on' electronic memory

Cornell Chronicle April 16, 2009

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emc2

Energy Materials Center at Cornell January 2009

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