Bombyx mori silk protein films microprocessing with a nanosecond ultraviolet laser and a femtosecond laser workstation: theory and experiments View Full Text


Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2012-01

AUTHORS

S. Lazare, A. Sionkowska, M. Zaborowicz, A. Planecka, J. Lopez, M. Dijoux, C. Louména, M.-C. Hernandez

ABSTRACT

Laser microprocessing of several biopolymers from renewable resources is studied. Three proteinic materials were either extracted from the extracellular matrix like Silk Fibroin/Sericin and collagen, or coming from a commercial source like gelatin. All can find future applications in biomedical experimentation, in particular for cell scaffolding. Films of ∼hundred of microns thick were made by aqueous solution drying and laser irradiation. Attention is paid to the properties making them processable with two laser sources: the ultraviolet and nanosecond (ns) KrF (248 nm) excimer and the infrared and femtosecond (fs) Yb:KGW laser. The UV radiation is absorbed in a one-photon resonant process to yield ablation and the surface foaming characteristics of a laser-induced pressure wave. To the contrary, resonant absorption of the IR photons of the fs laser is not possible and does not take place. However, the high field of the intense I>∼1012 W/cm2 femtosecond laser pulse ionizes the film by the multiphoton absorption followed by the electron impact mechanism, yielding a dense plasma capable to further absorb the incident radiation of the end of the pulse. The theoretical model of this absorption is described in detail, and used to discuss the presented experimental effects (cutting, ablation and foaming) of the fs laser. The ultraviolet laser was used to perform simultaneous multiple spots experiments in which energetic foaming yields melt ejection and filament spinning. Airborne nanosize filaments “horizontally suspended by both ends” (0.25 μm diameter and 10 μm length) of silk biopolymer were observed upon irradiation with large fluences. More... »

PAGES

67-77

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  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1007/s00339-011-6639-y

    DOI

    http://dx.doi.org/10.1007/s00339-011-6639-y

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1004982416


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