Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/131233
Título: Printing green: microalgae‐based materials for 3D printing with light
Autores/as: Vazquez‐Martel, Clara
Florido Martins, Lilliana
Genthner, Elisa
Almeida Peña,Carlos 
Martel Quintana,Antera De Jesús 
Bastmeyer, Martin
Gómez Pinchetti, Juan Luis 
Blasco, Eva
Clasificación UNESCO: 241707 Algología (ficología)
Palabras clave: Additive Manufacturing
Biocompatibility
Microalgae
Sustainability
Two-Photon Polymerization
Fecha de publicación: 2024
Proyectos: Red de Excelencia en Biotecnología Azul (Algas) de la Región Macaronésica. Consolidación, Certificación y Transferencia 
Publicación seriada: Advanced Materials 
Resumen: Microalgae have emerged as sustainable feedstocks due to their ability to fix CO2 during cultivation, rapid growth rates, and capability to produce a wide variety of metabolites. Several microalgae accumulate lipids in high concentrations, especially triglycerides, along with lipid-soluble, photoactive pigments such as chlorophylls and derivatives. Microalgae-derived triglycerides contain longer fatty acid chains with more double bonds on average than vegetable oils, allowing a higher degree of post-functionalization. Consequently, they are especially suitable as precursors for materials that can be used in 3D printing with light. This work presents the use of microalgae as “biofactories” to generate materials that can be further 3D printed in high resolution. Two taxonomically different strains —Odontella aurita (O. aurita, BEA0921B) and Tetraselmis striata (T. striata, BEA1102B)— are identified as suitable microalgae for this purpose. The extracts obtained from the microalgae (mainly triglycerides with chlorophyll derivatives) are functionalized with photopolymerizable groups and used directly as printable materials (inks) without the need for additional photoinitiators. The fabrication of complex 3D microstructures with sub-micron resolution is demonstrated. Notably, the 3D printed materials show biocompatibility. These findings open new possibilities for the next generation of sustainable, biobased, and biocompatible materials with great potential in life science applications.
URI: http://hdl.handle.net/10553/131233
ISSN: 0935-9648
DOI: 10.1002/adma.202402786
Fuente: Advanced Materials[ISSN 0935-9648], (Enero 2024)
Colección:Artículos
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