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Paper detail

Microheater actuators as a versatile platform for strain engineering in 2D materials

We present microfabricated thermal actuators to engineer the biaxial strain in two-dimensional (2D) materials. These actuators are based on microheater circuits patterned onto the surface of a polymer with a high thermal expansion coefficient. By running current through the microheater one can vary the temperature of the polymer and induce a controlled biaxial expansion of its surface. This controlled biaxial expansion can be transduced to biaxial strain to 2D materials, placed onto the polymer surface, which in turn induces a shift of the optical spectrum. Our thermal strain actuators can reach a maximum biaxial strain of 0.64 % and they can be modulated at frequencies up to 8 Hz. The compact geometry of these actuators results in a negligible spatial drift of 0.03 um/deg, which facilitates their integration in optical spectroscopy measurements. We illustrate the potential of this strain engineering platform to fabricate a strain-actuated optical modulator with single-layer MoS2.

preprint2020arXivOpen access
Yu Kyoung RyuFelix CarrascosoRubén López-NebredaNicolás AgraïtRiccardo FrisendaAndres Castellanos-Gomez
cond-mat.mes-hallphysics.app-phcond-mat.mtrl-sci
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Yu Kyoung RyuFelix CarrascosoRubén López-NebredaNicolás AgraïtRiccardo FrisendaAndres Castellanos-Gomez

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