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Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity

Multipurpose Fe(3)O(4)@APTES–Ag heterostructures for mutual heat generation, SERS probing, and antimicrobial activity were fabricated using a three-step process. Silver metallic particles were precipitated on a thin silica shell that served as an interlayer with Fe(3)O(4) nanocubes. The structural p...

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Autores principales: Kulpa-Greszta, Magdalena, Tomaszewska, Anna, Michalicha, Anna, Sikora, Daniel, Dziedzic, Andrzej, Wojnarowska-Nowak, Renata, Belcarz, Anna, Pązik, Robert
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9513694/
https://www.ncbi.nlm.nih.gov/pubmed/36276011
http://dx.doi.org/10.1039/d2ra05207e
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author Kulpa-Greszta, Magdalena
Tomaszewska, Anna
Michalicha, Anna
Sikora, Daniel
Dziedzic, Andrzej
Wojnarowska-Nowak, Renata
Belcarz, Anna
Pązik, Robert
author_facet Kulpa-Greszta, Magdalena
Tomaszewska, Anna
Michalicha, Anna
Sikora, Daniel
Dziedzic, Andrzej
Wojnarowska-Nowak, Renata
Belcarz, Anna
Pązik, Robert
author_sort Kulpa-Greszta, Magdalena
collection PubMed
description Multipurpose Fe(3)O(4)@APTES–Ag heterostructures for mutual heat generation, SERS probing, and antimicrobial activity were fabricated using a three-step process. Silver metallic particles were precipitated on a thin silica shell that served as an interlayer with Fe(3)O(4) nanocubes. The structural properties were studied by means of the powder X-ray diffraction technique, and selected area electron diffraction. Particle size, distribution, and morphology were evaluated using transmission electron microscopy, while element mapping was performed using the STEM-EDS technique. The presence of the silica shell and the effectiveness of the Ag reduction were checked by FTIR-ATR spectroscopy. The heat generation ability was studied by using AMF and NIR contactless external stimulations working separately and simultaneously. We demonstrated that the dual mode stimulation leads to a SAR (specific absorption rate) of 1000 W g(−1) with the predominant role of the mechanism associated with the light interaction. The SERS effect was recorded with the use of the R6G standard molecule showing high capability of the heterostructures for Raman signal augmentation. Fe(3)O(4) nanocubes decorated with Ag particles have shown antibacterial activity against P. aeruginosa. The Fe(3)O(4)@APTES–Ag presents promising potential as a multipurpose platform for biological applications ranging from photomagnetic therapies, to analytical probes exploiting the SERS effect and antibacterial activity.
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spelling pubmed-95136942022-10-21 Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity Kulpa-Greszta, Magdalena Tomaszewska, Anna Michalicha, Anna Sikora, Daniel Dziedzic, Andrzej Wojnarowska-Nowak, Renata Belcarz, Anna Pązik, Robert RSC Adv Chemistry Multipurpose Fe(3)O(4)@APTES–Ag heterostructures for mutual heat generation, SERS probing, and antimicrobial activity were fabricated using a three-step process. Silver metallic particles were precipitated on a thin silica shell that served as an interlayer with Fe(3)O(4) nanocubes. The structural properties were studied by means of the powder X-ray diffraction technique, and selected area electron diffraction. Particle size, distribution, and morphology were evaluated using transmission electron microscopy, while element mapping was performed using the STEM-EDS technique. The presence of the silica shell and the effectiveness of the Ag reduction were checked by FTIR-ATR spectroscopy. The heat generation ability was studied by using AMF and NIR contactless external stimulations working separately and simultaneously. We demonstrated that the dual mode stimulation leads to a SAR (specific absorption rate) of 1000 W g(−1) with the predominant role of the mechanism associated with the light interaction. The SERS effect was recorded with the use of the R6G standard molecule showing high capability of the heterostructures for Raman signal augmentation. Fe(3)O(4) nanocubes decorated with Ag particles have shown antibacterial activity against P. aeruginosa. The Fe(3)O(4)@APTES–Ag presents promising potential as a multipurpose platform for biological applications ranging from photomagnetic therapies, to analytical probes exploiting the SERS effect and antibacterial activity. The Royal Society of Chemistry 2022-09-27 /pmc/articles/PMC9513694/ /pubmed/36276011 http://dx.doi.org/10.1039/d2ra05207e Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Kulpa-Greszta, Magdalena
Tomaszewska, Anna
Michalicha, Anna
Sikora, Daniel
Dziedzic, Andrzej
Wojnarowska-Nowak, Renata
Belcarz, Anna
Pązik, Robert
Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity
title Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity
title_full Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity
title_fullStr Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity
title_full_unstemmed Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity
title_short Alternating magnetic field and NIR energy conversion on magneto-plasmonic Fe(3)O(4)@APTES–Ag heterostructures with SERS detection capability and antimicrobial activity
title_sort alternating magnetic field and nir energy conversion on magneto-plasmonic fe(3)o(4)@aptes–ag heterostructures with sers detection capability and antimicrobial activity
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9513694/
https://www.ncbi.nlm.nih.gov/pubmed/36276011
http://dx.doi.org/10.1039/d2ra05207e
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