2020
DOI: 10.1088/1361-6528/ab9788
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Effects of cold atmospheric plasma treatment on the morphological and optical properties of plasmonic silver nanoparticles

Abstract: The use of plasma processes in nanomaterial synthesis is limited by a lack of understanding of the effects of plasma treatment on the morphology and other properties. Here, we studied the effects of atmospheric plasma treatment on the morphology and optical properties of Ag nanoparticles. The Ag nanoparticles were deposited on substrates by injecting an aerosol into flowing argon gas and then treated with a low-temperature atmospheric plasma jet. After plasma treatment, the mean Ag nanoparticle diameter reduce… Show more

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Cited by 11 publications
(14 citation statements)
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“…29,30 In our earlier work published in 2020, we have systematically studied the interaction of the plasma species with metal nanoparticles. 19 The plasma was characterized by optical emission spectroscopy (OES) to investigate the energy of the reactive species such as oxygen, hydrogen, nitrogen, argon, and free electrons. These reactive species interacted with the surface of the NPs and removed the surface citrate capping of AuNPs.…”
Section: Resultsmentioning
confidence: 99%
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“…29,30 In our earlier work published in 2020, we have systematically studied the interaction of the plasma species with metal nanoparticles. 19 The plasma was characterized by optical emission spectroscopy (OES) to investigate the energy of the reactive species such as oxygen, hydrogen, nitrogen, argon, and free electrons. These reactive species interacted with the surface of the NPs and removed the surface citrate capping of AuNPs.…”
Section: Resultsmentioning
confidence: 99%
“…The removal of citrate capping induced the redox reaction on the AuNP surface and modified the arrangement and surface roughness. 19 The redox reaction that was induced by plasma treatment resulted in the size reduction of NPs. The SERS response of the plasmatreated AuNPs (Figure 5) evidenced the removal of citrate capping and surface oxide formation.…”
Section: Resultsmentioning
confidence: 99%
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“…The plasma retains the transferred energy as a cloud of active particles for a short period. These active particles can react with fruit and vegetable materials in the plasma, moving their stored energy into enzymes (Sonawane et al., 2020). These reactive species cause the enzyme inactivation by impeding the coenzyme and/or substrate from binding and, subsequently, the catalysis step.…”
Section: Cold Plasma Techniquementioning
confidence: 99%