Santos Arocha, XiomaraÁlvarez Robledo, MarcosVideira-Quintela, DiogoMediero, AranzazuRodriguez, JuanaGuillén, FranciscoPozuelo de Diego, JavierMartín Cádiz, Olga2023-02-232023-02-232022-11Santos, X., Álvarez, M., Videira-Quintela, D., Mediero, A., Rodríguez, J., Guillén, F., Pozuelo, J., & Martín, O. (2022). Antibacterial Capability of MXene (Ti3C2Tx) to Produce PLA Active Contact Surfaces for Food Packaging Applications. Membranes, 12(11), 1146.2077-0375https://hdl.handle.net/10016/36648This article belongs to the Special Issue Biodegradable Films Characterization and Food PackagingThe globalization of the market and the increase of the global population that requires a higher demand of food products superimposes a big challenge to ensure food safety. In this sense, a common strategy to extend the shelf life and save life of food products is by avoiding bacterial contamination. For this, the development of antibacterial contact surfaces is an urgent need to fulfil the above-mentioned strategy. In this work, the role of MXene (Ti3C2Tx) in providing antibacterial contact surfaces was studied through the creation of composite films from polylactic acid (PLA), as the chosen polymeric matrix. The developed PLA/MXene films maintained the thermal and mechanical properties of PLA and also presented the attractive antibacterial properties of MXene. The composites behaviour against two representative foodborne bacteria was studied: Listeria mono-cytogenes and Salmonella enterica (representing Gram-positive and Gram-negative bacteria, respectively). The composites prevented bacterial growth, and in the case of Listeria only 0.5 wt.% of MXene was necessary to reach 99.9999% bactericidal activity (six log reductions), while against Salmonella, 5 wt.% was necessary to achieve 99.999% bactericidal activity (five log reductions). Cy-totoxicity tests with fHDF/TER166 cell line showed that none of the obtained materials were cytotoxic. These results make MXene particles promising candidates for their use as additives into a polymeric matrix, useful to fabricate antibacterial contact surfaces that could prove useful for the food packaging industry.15eng© 2022 by the authors.Atribución 3.0 EspañaPlaMxeneBactericidal ActivityFood PackagingAntibacterial SurfaceFood Contact Materialresearch articleIngeniería IndustrialMaterialesQuímicahttps://doi.org/10.3390/membranes12111146open access111, 114615Membranes12AR/0000031877