Multifunctional FFP2 Face Mask for White Light Disinfection and Pathogens Detection using Hybrid Nanostructures and Optical Metasurfaces-Reference-Cited by-同舟云学术

Multifunctional FFP2 Face Mask for White Light Disinfection and Pathogens Detection using Hybrid Nanostructures and Optical Metasurfaces

Published:2024-05-14 Issue: Volume: Page:
ISSN:1613-6810
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language:en
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Author:

Zaccagnini Federica¹,De Biase Daniela¹,Bovieri Francesca¹,Perotto Giovanni²,Quagliarini Erica³,Bavasso Irene⁴,Mangino Giorgio¹,Iuliano Marco¹,Calogero Antonella¹,Romeo Giovanna¹,Singh Dharmendra Pratap⁵,Pierini Filippo⁶,Caracciolo Giulio³,Petronella Francesca⁷,De Sio Luciano¹^ORCID

Affiliation:

1. Department of Medico‐Surgical Sciences and Biotechnologies Sapienza University of Rome Corso della Repubblica 79 Latina 04100 Italy

2. Istituto Italiano di Tecnologia Smart Materials Group Via Morego, 30 Genova 16163 Italy

3. Department of Molecular Medicine Sapienza University of Rome Viale Regina Elena 291 Rome 00161 Italy

4. Department of Chemical Engineering Materials Environment Sapienza University of Rome & UdR INSTM Via Eudossiana 18 Roma 00184 Italy

5. Unité de Dynamique et Structure des Matériaux Moléculaires (UDSMM) Université du Littoral Côte d'Opale (ULCO) 50 Rue Ferdinand Buisson Calais cedex 62228 France

6. Department of Biosystems and Soft Matter Institute of Fundamental Technological Research Polish Academy of Sciences Warsaw 02–106 Poland

7. National Research Council of Italy Institute of Crystallography CNR‐IC Rome Division, Area della Ricerca Roma 1 Strada Provinciale 35d, n. 9 Montelibretti (RM) 00010 Italy

Abstract

AbstractA new generation of an FFP2 (Filtering Face Piece of type 2) smart face mask is achieved by integrating broadband hybrid nanomaterials and a self‐assembled optical metasurface. The multifunctional FFP2 face mask shows simultaneously white light‐assisted on‐demand disinfection properties and versatile biosensing capabilities. These properties are achieved by a powerful combination of white light thermoplasmonic responsive hybrid nanomaterials, which provide excellent photo‐thermal disinfection properties, and optical metasurface‐based colorimetric biosensors, with a very low limit of pathogens detection. The realized system is studied in optical, morphological, spectroscopic, and cell viability assay experiments and environmental monitoring of harmful pathogens, thus highlighting the extraordinary properties in reusability and pathogens detection of the innovative face mask.

Funder

Sapienza Università di Roma

Air Force Office of Scientific Research

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/am-pdf/10.1002/smll.202400531

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