Mechanical characterization and cleaning of CVD single-layer h-BN resonators

Mechanical characterization and cleaning of CVD single-layer h-BN resonators

Nanofabrication: optimized transfer enables hexagonal boron nitride mechanical resonators An improved transfer method allows easy placement of highly transparent and strongly adhesive hexagonal boron nitride on target substrates. A team led by Santiago J. Cartamil-Bueno at Delft University of Techno...

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Main Authors: Santiago J. Cartamil-Bueno, Matteo Cavalieri, Ruizhi Wang, Samer Houri, Stephan Hofmann, Herre S. J. van der Zant
Format: Article
Language:English
Published: Nature Publishing Group 2017-06-01
Series:npj 2D Materials and Applications
Online Access:https://doi.org/10.1038/s41699-017-0020-8
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spelling doaj-59a75a5546394a3ea6d97b34ac32799e2021-04-02T19:02:12ZengNature Publishing Groupnpj 2D Materials and Applications2397-71322017-06-01111710.1038/s41699-017-0020-8Mechanical characterization and cleaning of CVD single-layer h-BN resonatorsSantiago J. Cartamil-Bueno0Matteo Cavalieri1Ruizhi Wang2Samer Houri3Stephan Hofmann4Herre S. J. van der Zant5Kavli Institute of Nanoscience, Delft University of TechnologyKavli Institute of Nanoscience, Delft University of TechnologyDepartment of Engineering, University of CambridgeKavli Institute of Nanoscience, Delft University of TechnologyDepartment of Engineering, University of CambridgeKavli Institute of Nanoscience, Delft University of TechnologyNanofabrication: optimized transfer enables hexagonal boron nitride mechanical resonators An improved transfer method allows easy placement of highly transparent and strongly adhesive hexagonal boron nitride on target substrates. A team led by Santiago J. Cartamil-Bueno at Delft University of Technology developed a technique that enables the transfer of large-area, single-layer hexagonal boron nitride films grown by chemical vapor deposition onto a substrate of choice, whilst not requiring optical visualization. Following an additional cleaning step, the atomically thin membranes were transferred onto circular microcavities patterned on a silicon oxide substrate, resulting in the formation of suspended drums. Cleaning in harsh environments using a mixture of air and ozone is instrumental to a substantial improvement in the quality factor of the drums, indicating that undesired contamination causes damping of the mechanical motion. These results show promise for the development of sensitive hexagonal boron nitride resonators.https://doi.org/10.1038/s41699-017-0020-8
collection DOAJ
language English
format Article
sources DOAJ
author Santiago J. Cartamil-Bueno
Matteo Cavalieri
Ruizhi Wang
Samer Houri
Stephan Hofmann
Herre S. J. van der Zant
spellingShingle Santiago J. Cartamil-Bueno
Matteo Cavalieri
Ruizhi Wang
Samer Houri
Stephan Hofmann
Herre S. J. van der Zant
Mechanical characterization and cleaning of CVD single-layer h-BN resonators
npj 2D Materials and Applications
author_facet Santiago J. Cartamil-Bueno
Matteo Cavalieri
Ruizhi Wang
Samer Houri
Stephan Hofmann
Herre S. J. van der Zant
author_sort Santiago J. Cartamil-Bueno
title Mechanical characterization and cleaning of CVD single-layer h-BN resonators
title_short Mechanical characterization and cleaning of CVD single-layer h-BN resonators
title_full Mechanical characterization and cleaning of CVD single-layer h-BN resonators
title_fullStr Mechanical characterization and cleaning of CVD single-layer h-BN resonators
title_full_unstemmed Mechanical characterization and cleaning of CVD single-layer h-BN resonators
title_sort mechanical characterization and cleaning of cvd single-layer h-bn resonators
publisher Nature Publishing Group
series npj 2D Materials and Applications
issn 2397-7132
publishDate 2017-06-01
description Nanofabrication: optimized transfer enables hexagonal boron nitride mechanical resonators An improved transfer method allows easy placement of highly transparent and strongly adhesive hexagonal boron nitride on target substrates. A team led by Santiago J. Cartamil-Bueno at Delft University of Technology developed a technique that enables the transfer of large-area, single-layer hexagonal boron nitride films grown by chemical vapor deposition onto a substrate of choice, whilst not requiring optical visualization. Following an additional cleaning step, the atomically thin membranes were transferred onto circular microcavities patterned on a silicon oxide substrate, resulting in the formation of suspended drums. Cleaning in harsh environments using a mixture of air and ozone is instrumental to a substantial improvement in the quality factor of the drums, indicating that undesired contamination causes damping of the mechanical motion. These results show promise for the development of sensitive hexagonal boron nitride resonators.
url https://doi.org/10.1038/s41699-017-0020-8
work_keys_str_mv AT santiagojcartamilbueno mechanicalcharacterizationandcleaningofcvdsinglelayerhbnresonators
AT matteocavalieri mechanicalcharacterizationandcleaningofcvdsinglelayerhbnresonators
AT ruizhiwang mechanicalcharacterizationandcleaningofcvdsinglelayerhbnresonators
AT samerhouri mechanicalcharacterizationandcleaningofcvdsinglelayerhbnresonators
AT stephanhofmann mechanicalcharacterizationandcleaningofcvdsinglelayerhbnresonators
AT herresjvanderzant mechanicalcharacterizationandcleaningofcvdsinglelayerhbnresonators
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