Direct Laser Interference Patterning of Zirconia Using Infra‐Red Picosecond Pulsed Laser: Effect of Laser Processing Parameters on the Surface Topography and Microstructure

Henriques, Bruno; Fabris, Douglas; Voisiat, Bogdan; Boccaccini, Aldo R.; Lasagni, Andrés Fabián

doi:10.1002/adfm.202307894

Cited by 4 publications

References 38 publications

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Fabrication of Multiscale and Periodically Structured Zirconia Surfaces Using Direct Laser Interference Patterning

Henriques,

Fabris,

Voisiat

et al. 2024

Adv Funct Materials

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The functionalization of zirconia surfaces by accurate and fast printing of periodical patterns embedding sub‐micrometric features is of great interest to many engineering fields and is yet to be explored. This study aims to assess the influence of the Direct Laser Interference Patterning processing parameters on the morphology and microstructure of zirconia surfaces using a 532 nm 10 ps‐pulsed laser source. Well‐defined linear structures with a period of 3 µm are successfully produced. Depending on the laser parameters, the structures are developed at or below the surface level, with higher depths (≈1 µm) being seen for increasing values of laser fluence and pulse overlap. Line‐like hierarchical structures with smaller interference spatial structures (3 µm period) and higher secondary structures with different periods (18, 15, and 12 µm) and heights (7, 5, and 3 µm, respectively) are also obtained on zirconia surface. Ablated regions presented few traces of molten material, nano‐droplets, and sub‐micrometric (<1 µm) pores, while no (sub) micrometric cracks are detected. A slight amount of tetragonal to monoclinic phase transformation (≈5%) is detected by X‐ray diffractometry. A processability map for ps‐laser processing of zirconia is proposed based on the experimental data.

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Fabrication of Multiscale and Periodically Structured Zirconia Surfaces Using Direct Laser Interference Patterning

Henriques,

Fabris,

Voisiat

et al. 2024

Adv Funct Materials

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Laser-processed functional surface structures for multi-functional applications-a review

Wang,

Deng,

Zhai

et al. 2024

Journal of Manufacturing Processes

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Photon-Powered Ceramics: New Frontiers in Material Science and Applications

Serna-Gallén,

Cadena,

Porcar

et al. 2024

Advanced Ceramics Materials - Emerging Technologies [Working Title]

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This chapter provides a comprehensive review of light-mediated processes in advanced ceramics, emphasizing their role in developing new materials with enhanced properties. The discussion covers photocatalysis for environmental remediation and energy production, ceramic materials in photovoltaic cells for sustainable energy, and the role of ceramics in photonic devices, such as waveguides, lasers, and optical fibers. The analysis also includes ceramic applications in laser technology, focusing on their optical properties, and biocompatible and bioactive ceramic materials in biotechnology for drug delivery, sensors, and theragnosis. Additionally, the chapter examines how light-mediated processes contribute to sustainability and the circular economy by enhancing material properties at the nanoscale and promoting energy-efficient production and recycling methods. The aim is to highlight the transformative potential of light interactions in ceramics, driving advancements in energy efficiency, environmental protection, and medical technology, and inspiring future research and applications in these areas.

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Direct Laser Interference Patterning of Zirconia Using Infra‐Red Picosecond Pulsed Laser: Effect of Laser Processing Parameters on the Surface Topography and Microstructure

Cited by 4 publications

References 38 publications

Fabrication of Multiscale and Periodically Structured Zirconia Surfaces Using Direct Laser Interference Patterning

Fabrication of Multiscale and Periodically Structured Zirconia Surfaces Using Direct Laser Interference Patterning

Laser-processed functional surface structures for multi-functional applications-a review

Photon-Powered Ceramics: New Frontiers in Material Science and Applications

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