Self-Assembled Periodic Nanostructures Using Martensitic Phase Transformations

Abhinav Prakash; Tianqi Wang; Ashley Bucsek; Tristan K. Truttmann; Alireza Fali; Michele Cotrufo; Hwanhui Yun; Jong Woo Kim; Philip J. Ryan; K. Andre Mkhoyan; Andrea Alù; Yohannes Abate; Richard D. James; Bharat Jalan

doi:10.1021/acs.nanolett.0c03708

Self-Assembled Periodic Nanostructures Using Martensitic Phase Transformations

Abhinav Prakash, Tianqi Wang, Ashley Bucsek, Tristan K. Truttmann, Alireza Fali, Michele Cotrufo, Hwanhui Yun, Jong Woo Kim, Philip J. Ryan, K. Andre Mkhoyan, Andrea Alù, Yohannes Abate, Richard D. James, Bharat Jalan

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8 Scopus citations

Abstract

We describe a novel approach for the rational design and synthesis of self-assembled periodic nanostructures using martensitic phase transformations. We demonstrate this approach in a thin film of perovskite SrSnO3 with reconfigurable periodic nanostructures consisting of regularly spaced regions of sharply contrasted dielectric properties. The films can be designed to have different periodicities and relative phase fractions via chemical doping or strain engineering. The dielectric contrast within a single film can be tuned using temperature and laser wavelength, effectively creating a variable photonic crystal. Our results show the realistic possibility of designing large-area self-assembled periodic structures using martensitic phase transformations with the potential of implementing "built-to-order"nanostructures for tailored optoelectronic functionalities.

Original language	English (US)
Pages (from-to)	1246-1252
Number of pages	7
Journal	Nano letters
Volume	21
Issue number	3
DOIs	https://doi.org/10.1021/acs.nanolett.0c03708
State	Published - Feb 10 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 American Chemical Society.

Keywords

Phase transformation
metamaterials
molecular beam epitaxy
nanostructure
self-assembly
semiconductor

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abstract = "We describe a novel approach for the rational design and synthesis of self-assembled periodic nanostructures using martensitic phase transformations. We demonstrate this approach in a thin film of perovskite SrSnO3 with reconfigurable periodic nanostructures consisting of regularly spaced regions of sharply contrasted dielectric properties. The films can be designed to have different periodicities and relative phase fractions via chemical doping or strain engineering. The dielectric contrast within a single film can be tuned using temperature and laser wavelength, effectively creating a variable photonic crystal. Our results show the realistic possibility of designing large-area self-assembled periodic structures using martensitic phase transformations with the potential of implementing {"}built-to-order{"}nanostructures for tailored optoelectronic functionalities.",

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AU - Prakash, Abhinav

AU - Wang, Tianqi

AU - Bucsek, Ashley

AU - Truttmann, Tristan K.

AU - Fali, Alireza

AU - Cotrufo, Michele

AU - Yun, Hwanhui

AU - Kim, Jong Woo

AU - Ryan, Philip J.

AU - Mkhoyan, K. Andre

AU - Alù, Andrea

AU - Abate, Yohannes

AU - James, Richard D.

AU - Jalan, Bharat

PY - 2021/2/10

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N2 - We describe a novel approach for the rational design and synthesis of self-assembled periodic nanostructures using martensitic phase transformations. We demonstrate this approach in a thin film of perovskite SrSnO3 with reconfigurable periodic nanostructures consisting of regularly spaced regions of sharply contrasted dielectric properties. The films can be designed to have different periodicities and relative phase fractions via chemical doping or strain engineering. The dielectric contrast within a single film can be tuned using temperature and laser wavelength, effectively creating a variable photonic crystal. Our results show the realistic possibility of designing large-area self-assembled periodic structures using martensitic phase transformations with the potential of implementing "built-to-order"nanostructures for tailored optoelectronic functionalities.

AB - We describe a novel approach for the rational design and synthesis of self-assembled periodic nanostructures using martensitic phase transformations. We demonstrate this approach in a thin film of perovskite SrSnO3 with reconfigurable periodic nanostructures consisting of regularly spaced regions of sharply contrasted dielectric properties. The films can be designed to have different periodicities and relative phase fractions via chemical doping or strain engineering. The dielectric contrast within a single film can be tuned using temperature and laser wavelength, effectively creating a variable photonic crystal. Our results show the realistic possibility of designing large-area self-assembled periodic structures using martensitic phase transformations with the potential of implementing "built-to-order"nanostructures for tailored optoelectronic functionalities.

KW - Phase transformation

KW - metamaterials

KW - molecular beam epitaxy

KW - nanostructure

KW - self-assembly

KW - semiconductor

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Self-Assembled Periodic Nanostructures Using Martensitic Phase Transformations

Abstract

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