Prof. Malgosia Szczerska Profile

Prof. Malgosia Szczerska

at Gdansk Univ of Technology

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Proceedings Article | 20 June 2024 Presentation

How nature can help to design and elaborate new photonics materials and devices

Vladimir Katanaev, Dror Fixler, Martin Lopez Garcia, Maria Godinho, Nicolina Pop, Jelena Radovanovic, Maurizio Dabbicco, George Mousdis, Ahu Gumrah Parry, Panagiotis Keivanidis, Dragan Indjin, Ana Almeida, Paweł Wityk, Malgosia Szczerska

Proceedings Volume PC13006, PC130060X (2024) https://doi.org/10.1117/12.3029918

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Numerous biological surfaces exhibit intricate micro- and nano-structures, which fulfill various functions such as anti-reflective properties, structural coloration, anti-fouling capabilities, and pro- or anti-adhesive characteristics. These features have inspired a plethora of industrial applications. In recent years, there has been a significant surge in research in this domain, largely attributable to the growing interdisciplinary nature of the approaches applied to the investigation of structured biosurfaces. The convergence of classical zoology and botany with advances in genetics and molecular biology is noteworthy, as biologists increasingly collaborate with nanotechnologists, materials scientists, and engineers. This collaborative effort contributes significantly to expanding the horizons of research on micro- and nano-structured biological surfaces, fostering biomimetic and bioengineering applications in various industries (Fig.1). Our proposal seeks to capitalize on this momentum and align with the current developments in the field. The primary objective of the COST Action titled "Understanding interaction light – biological surfaces: possibility for new electronic materials and devices" is to unite scientists from diverse disciplines within this dynamic research realm. The emphasis of this collaborative effort is placed on exploring the photonic effects arising from the nano- and micro-structuring of biological surfaces, along with their potential bionic applications. Through our consortium, we aim to facilitate cross-inspiration among participants from distinct research fields, fostering an environment conducive to innovation in research and eventual industrial advancements. Our initiative seeks to ride the wave of these scientific developments, propelling forward the exploration of the intricate world of micro- and nano-structured biological surfaces.

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