Nanofabrication of all-dielectric metasurfaces through pulsed thermal scanning probe lithography

Nanofabrication of all-dielectric metasurfaces through pulsed thermal scanning probe lithography

Abstract Many fields in science and industry rely on the advances of nanofabrication processes. However, well-established techniques, such as electron beam lithography, might pose restrictions on dielectric materials due to surface charging effects. We propose using pulsed thermal scanning probe lit...

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Bibliographic Details
Main Authors: Paloma E. S. Pellegrini, Luana De-Moraes, Freddy Jara Poma, Silvia Vaz Guerra Nista, Frederico H. Cioldin, Hugo Enrique Hernández-Figueroa, Stanislav Moshkalev
Format: Article
Language:English
Published: Nature Portfolio 2025-07-01
Series:Scientific Reports
Subjects:
Nanofabrication
Thermal scanning probe lithography
Charge dissipation-Free
Insulating substrates
All-dielectric metasurfaces
Online Access:https://doi.org/10.1038/s41598-025-07428-1
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Summary:Abstract Many fields in science and industry rely on the advances of nanofabrication processes. However, well-established techniques, such as electron beam lithography, might pose restrictions on dielectric materials due to surface charging effects. We propose using pulsed thermal scanning probe lithography to directly assemble high resolution patterns on insulating substrates. We applied this methodology to meet the requirements of fabricating all-dielectric metasurfaces. The pulsed thermal scanning probe lithography process, operating in standard room conditions, provided sub-10nm resolution for patterning on silica without the need of any additional conductive layers. Thus, the proposed technique improves material compatibility for nanofabrication and consequently enables the exploration of dielectric material properties across a wide range of devices.
ISSN:2045-2322

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