Fabrication and characterization of large-area suspended MoSe2 crystals down to the monolayer

Many layered materials, such as graphene and transition metal dichalcogenides, can be exfoliated down to atomic or molecular monolayers. These materials exhibit exciting material properties that can be exploited for several promising device concepts. Thinner materials lead to an increased surface-to...

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Bibliographic Details
Published in:JPhys materials 2021-10, Vol.4 (4)
Main Authors: Varghese, Sebin, Saleta Reig, David, Dudley Mehew, Jake, Block, Alexander, El Sachat, Alexandros, Chávez-Ángel, Emigdio, Sledzinska, Marianna, Ballesteros, Belén, Sotomayor Torres, Clivia M, Tielrooij, Klaas-Jan
Format: Article
Language:English
Subjects:
Bilayers
Diameters
dry-transfer
Flakes
Graphene
Layered materials
Material properties
Molybdenum compounds
Monolayers
MoSe
optical absorption
suspended flakes
Transition metal compounds
transition metal dichalcogenides
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Summary:Many layered materials, such as graphene and transition metal dichalcogenides, can be exfoliated down to atomic or molecular monolayers. These materials exhibit exciting material properties that can be exploited for several promising device concepts. Thinner materials lead to an increased surface-to-volume ratio, with mono- and bi-layers being basically pure surfaces. Thin crystals containing more than two layers also often behave as an all-surface material, depending on the physical property of interest. As a result, flakes of layered materials are typically highly sensitive to their environment, which is undesirable for a broad range of studies and potential devices. Material systems based on suspended flakes overcome this issue, yet often require complex fabrication procedures. Here, we demonstrate the relatively straightforward fabrication of exfoliated MoSe2 flakes down to the monolayer, suspended over unprecedentedly large holes with a diameter of 15 µm. We describe our fabrication methods in detail, present characterization measurements of the fabricated structures, and, finally, exploit these suspended flakes for accurate optical absorption measurements.
ISSN:2515-7639
DOI:10.1088/2515-7639/ac2060