COLLOQUIUM DFA - LAURA PERSANO
“Polymer nanofibers as platform for energy harvesting and smart labels”
Relatore: Luana Persano
Affiliation: NEST, Istituto Nanoscienze-CNR, Pisa, Italy
Quando e Dove: 16-12-2021 | 3 PM | Aula Rostagni
Registration is mandatory to follow the colloquium in presence. Link: https://indico.dfa.unipd.it/event/292/ For participation in presence the Green Pass is required.
Zoom Link: https://unipd.link/ColloquiumDFA_16-12-2021
YouTube Link: https://unipd.link/AulaRostagniUniPadovaDFA
Abstract: 1D organic materials are gaining continuous research interest, and polymer nanofibers, to be used as building blocks of complex architectures, can lead to advances in many fields of application. In particular, electrospun nanofibers exhibit highly interesting physico-chemical properties, can be designed with multifunctional capabilities and can be used as sensors or to store and convert energy. The interest on this class of materials in industrial applications, mainly relies on their high surface to volume ratio, large area coverage, and availability of low-cost production technologies. Here I report on our research on electrospun fibers, merging photonic functions and energy harvesting capability1. An additional exploited application relies on their use as photoprogrammable material for intelligent labels. It is well known indeed that spoiled perishable products, such as food and drugs, when exposed to inappropriate temperature, cause million illnesses every year. I will int roduce t o optically-programmed, non-colorimetric indicators based on polymer fibers. The devices operate by visual contrast with ambient light and can be designed to achieve the desidered time-temperature response. The research leading to these results has received funding from the European Research Council under the European Union’s Horizon 2020 Research and Innovation Programme (Grant Agreement no. 682157, “xPRINT”) and from the Italian Minister of University and Research PRIN 2017PHRM8X and 20173L7W8K projects.
References 1 L. Persano et al., Advanced Materials 2017, 29, 1701031, 10.1002/adma.201701031. 2 L. Romano et al. Nature Communications 2020, 11, 5991,
https://doi.org/10.1038/s41467-020-19676-y.