Inkjet printing is a versatile high-throughput technology for ejecting microdroplets of different fluids. Such continuous microencapsulation methodologies are particularly relevant to industrial encapsulation due to their high rate of production (>16000 micro-droplets per second and per nozzle), excellent control of the micro-droplets formed, high encapsulation efficiency and ease of scale-up. We have adapted this technology for microencapsulation of multifunctional gold nanoparticles (AuNPs) encapsulated in a monodisperse polymeric chitosan hydrogel matrix. Chitosan is a biocompatible and biodegradable polymer of special interest for delivery of pharmaceuticals, making this production procedure particularly appropriate to the medical field. In addition, pre-functionalization of the AuNPs with a large number of biomolecules converts the inkjet encapsulation of AuNPs into a highly modular and innovative encapsulation methodology for a number of health applications. This new methodology has been utilised to produce highly reproducible and monodisperse microcapsules (ChMC@AuNP) and we are optimizing this system to encapsulate multifunctional AuNPs.

Póster presentado a la 2nd Spanish Conference on Biomedical Applications of Nanomaterials (SBAN), celebrada en Madrid del 6 al 7 de junio de 2019.

Subprograma Formación Profesorado Universitario (FPU) 2014. Spanish MINECO project SAF2014-54763-C2-2-R. Gobierno de Aragón. FEDER (UE).