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Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films

[Image: see text] The design of multifunctional nanostructured materials is the key to the development of smart wearable devices. For instance, nanostructures endowed with both piezoelectric and photocatalytic activities could well be the workhorse for solar-light-driven self-cleaning wearable senso...

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Autores principales: Arrabito, Giuseppe, Delisi, Antonio, Giuliano, Giuliana, Prestopino, Giuseppe, Medaglia, Pier Gianni, Ferrara, Vittorio, Arcidiacono, Federica, Scopelliti, Michelangelo, Chillura Martino, Delia Francesca, Pignataro, Bruno
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10226038/
https://www.ncbi.nlm.nih.gov/pubmed/37256019
http://dx.doi.org/10.1021/acsaenm.3c00082
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author Arrabito, Giuseppe
Delisi, Antonio
Giuliano, Giuliana
Prestopino, Giuseppe
Medaglia, Pier Gianni
Ferrara, Vittorio
Arcidiacono, Federica
Scopelliti, Michelangelo
Chillura Martino, Delia Francesca
Pignataro, Bruno
author_facet Arrabito, Giuseppe
Delisi, Antonio
Giuliano, Giuliana
Prestopino, Giuseppe
Medaglia, Pier Gianni
Ferrara, Vittorio
Arcidiacono, Federica
Scopelliti, Michelangelo
Chillura Martino, Delia Francesca
Pignataro, Bruno
author_sort Arrabito, Giuseppe
collection PubMed
description [Image: see text] The design of multifunctional nanostructured materials is the key to the development of smart wearable devices. For instance, nanostructures endowed with both piezoelectric and photocatalytic activities could well be the workhorse for solar-light-driven self-cleaning wearable sensors. In this work, a simple strategy for the assembly of a flexible, semitransparent piezophotocatalytic system is demonstrated by leveraging rational wet chemistry synthesis of ZnO-based nanosheets/nanoflowers (NSs/NFs) under basic pH conditions onto flexible ITO/PET supports. A KMnO(4) pretreatment before the ZnO synthesis (seeded ZnO) allows for the control of the density, size, and orientation of the NSs/NFs systems compared to the systems produced in the absence of seeding (seedless ZnO). The electrical response of the sensors is extracted at a 1 V bias as a function of bending in the interval between 0 and 90°, being the responsivity toward bending significantly enhanced by the KMnO(4) treatment effect. The photocatalytic activity of the sensors is analyzed in aqueous solution (methylene blue, 25 μM) by a solar simulator, resulting in similar values between seedless and seeded ZnO. Upon bending the sensor, the photocatalytic activity of seedless ZnO is almost unaffected, whereas that of seeded ZnO is improved by about 25%. The sensor’s reusability and repeatability are tested in up to three different cycles. These results open up the way toward the seamless integration of bending sensitivity and photocatalysis into a single device.
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spelling pubmed-102260382023-05-30 Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films Arrabito, Giuseppe Delisi, Antonio Giuliano, Giuliana Prestopino, Giuseppe Medaglia, Pier Gianni Ferrara, Vittorio Arcidiacono, Federica Scopelliti, Michelangelo Chillura Martino, Delia Francesca Pignataro, Bruno ACS Appl Eng Mater [Image: see text] The design of multifunctional nanostructured materials is the key to the development of smart wearable devices. For instance, nanostructures endowed with both piezoelectric and photocatalytic activities could well be the workhorse for solar-light-driven self-cleaning wearable sensors. In this work, a simple strategy for the assembly of a flexible, semitransparent piezophotocatalytic system is demonstrated by leveraging rational wet chemistry synthesis of ZnO-based nanosheets/nanoflowers (NSs/NFs) under basic pH conditions onto flexible ITO/PET supports. A KMnO(4) pretreatment before the ZnO synthesis (seeded ZnO) allows for the control of the density, size, and orientation of the NSs/NFs systems compared to the systems produced in the absence of seeding (seedless ZnO). The electrical response of the sensors is extracted at a 1 V bias as a function of bending in the interval between 0 and 90°, being the responsivity toward bending significantly enhanced by the KMnO(4) treatment effect. The photocatalytic activity of the sensors is analyzed in aqueous solution (methylene blue, 25 μM) by a solar simulator, resulting in similar values between seedless and seeded ZnO. Upon bending the sensor, the photocatalytic activity of seedless ZnO is almost unaffected, whereas that of seeded ZnO is improved by about 25%. The sensor’s reusability and repeatability are tested in up to three different cycles. These results open up the way toward the seamless integration of bending sensitivity and photocatalysis into a single device. American Chemical Society 2023-05-03 /pmc/articles/PMC10226038/ /pubmed/37256019 http://dx.doi.org/10.1021/acsaenm.3c00082 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Arrabito, Giuseppe
Delisi, Antonio
Giuliano, Giuliana
Prestopino, Giuseppe
Medaglia, Pier Gianni
Ferrara, Vittorio
Arcidiacono, Federica
Scopelliti, Michelangelo
Chillura Martino, Delia Francesca
Pignataro, Bruno
Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films
title Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films
title_full Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films
title_fullStr Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films
title_full_unstemmed Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films
title_short Self-Cleaning Bending Sensors Based on Semitransparent ZnO Nanostructured Films
title_sort self-cleaning bending sensors based on semitransparent zno nanostructured films
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10226038/
https://www.ncbi.nlm.nih.gov/pubmed/37256019
http://dx.doi.org/10.1021/acsaenm.3c00082
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