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(Peer-Reviewed) Femtosecond laser maskless direct writing of dual-band crosstalk-free information for all-in-one high-security encryption metasurface
Hanmian Jiang 蒋涵冕 ¹, Zhuguo Li 李铸国 ¹ ², Dongshi Zhang 张东石 ¹
¹ Shanghai Key Laboratory of Materials Laser Processing and Modification, School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
中国 上海 上海交通大学材料科学与工程学院 激光制造与材料改性重点实验室
² State Key Lab of Metal Matrix Composites, School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
中国 上海 上海交通大学材料科学与工程学院 金属复合材料全国重点实验室
Opto-Electronic Advances, 2026-04-17
https://doi.org/10.29026/oea.2026.250303
https://www.oejournal.org/oea/article/doi/10.29026/oea.2026.250303
Abstract

Metasurface fabrication still faces critical processing challenges in balancing the structural order and disorder, achieving high-speed patterning, and extending material compatibility to refractory metals for operation under extreme conditions. This study demonstrates that femtosecond laser maskless direct writing (fs-LMDW) offers a versatile platform for engineering multispectral information, all-in-one metasurfaces on pure zirconium (Zr) substrates.

Through sequential fs-LMDW in air and ethylene glycol (EG), deceptive grey-colored visible information is superimposedly encoded with the infrared (IR)-encrypted information (invisible among black-color structured background), which leverages the crosstalk-free structural modulation of singular-band IR and visible light. The metasurface exhibits robust thermal stability and high-security encryption capability across a wide temperature range, with IR-concealed information (such as QR code) remaining securely encrypted until thermally activated at 300 °C for smartphone-readable information decryption.

Furthermore, the visible information is both erasable through 300 °C oxidation heating in air and rewritable via fs-LMDW in EG without compromising IR encryption security. Particularly, the one-time complete erasability makes it possible to identify whether the encrypted IR-information has been decrypted, underscoring the robustness and high security of the platform. The presented hierarchical micro/nanostructuring methodology is deemed to be applicable to a large material matrix to gain high-security, and multifunctional metasurfaces that are more difficult and complex for current metasurface fabrication techniques.
Femtosecond laser maskless direct writing of dual-band crosstalk-free information for all-in-one high-security encryption metasurface_1
Femtosecond laser maskless direct writing of dual-band crosstalk-free information for all-in-one high-security encryption metasurface_2
Femtosecond laser maskless direct writing of dual-band crosstalk-free information for all-in-one high-security encryption metasurface_3
Femtosecond laser maskless direct writing of dual-band crosstalk-free information for all-in-one high-security encryption metasurface_4
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