From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters

Rice husk (RH) in the rice industry is often air-burnt to obtain energy in the form of heat and RH ash (RHA) residue. In this work, RHA was applied as a starting material to obtain silica-supported carbon nanomaterials, resulting in a new reuse of a globally produced industrial waste product, in a c...

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Autores principales: Bianchini, Petra, Merlo, Francesca, Maraschi, Federica, Brescia, Rosaria, Prato, Mirko, Profumo, Antonella, Speltini, Andrea
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9866712/
https://www.ncbi.nlm.nih.gov/pubmed/36677803
http://dx.doi.org/10.3390/molecules28020745
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author Bianchini, Petra
Merlo, Francesca
Maraschi, Federica
Brescia, Rosaria
Prato, Mirko
Profumo, Antonella
Speltini, Andrea
author_facet Bianchini, Petra
Merlo, Francesca
Maraschi, Federica
Brescia, Rosaria
Prato, Mirko
Profumo, Antonella
Speltini, Andrea
author_sort Bianchini, Petra
collection PubMed
description Rice husk (RH) in the rice industry is often air-burnt to obtain energy in the form of heat and RH ash (RHA) residue. In this work, RHA was applied as a starting material to obtain silica-supported carbon nanomaterials, resulting in a new reuse of a globally produced industrial waste product, in a circular economy approach. The preparation involves ultrasound-assisted one-pot oxidation with a sulfonitric mixture followed by wet oven treatment in a closed vessel. A study of oxidation times and RHA amount/acid volume ratio led to a solid material (nC-RHA@SiO(2)) and a solution containing silica-supported carbon quantum dots (CQD-RHA@SiO(2)). TEM analyses evidenced that nC-RHA@SiO(2) consists of nanoparticle aggregates, while CQD-RHA@SiO(2) are carbon-coated spherical silica nanoparticles. The presence of oxygenated carbon functional groups, highlighted by XPS analyses, makes these materials suitable for a wide range of analytical applications. As the main product, nC-RHA@SiO(2) was tested for its affinity towards steroid hormones. Solid-phase extractions were carried out on environmental waters for the determination of target analytes at different concentrations (10, 50, and 200 ng L(−1)), achieving quantitative adsorption and recoveries (RSD < 20%, n = 3). The method was successfully employed for monitoring lake, river, and wastewater treatment plant water samples collected in Northern Italy.
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spelling pubmed-98667122023-01-22 From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters Bianchini, Petra Merlo, Francesca Maraschi, Federica Brescia, Rosaria Prato, Mirko Profumo, Antonella Speltini, Andrea Molecules Article Rice husk (RH) in the rice industry is often air-burnt to obtain energy in the form of heat and RH ash (RHA) residue. In this work, RHA was applied as a starting material to obtain silica-supported carbon nanomaterials, resulting in a new reuse of a globally produced industrial waste product, in a circular economy approach. The preparation involves ultrasound-assisted one-pot oxidation with a sulfonitric mixture followed by wet oven treatment in a closed vessel. A study of oxidation times and RHA amount/acid volume ratio led to a solid material (nC-RHA@SiO(2)) and a solution containing silica-supported carbon quantum dots (CQD-RHA@SiO(2)). TEM analyses evidenced that nC-RHA@SiO(2) consists of nanoparticle aggregates, while CQD-RHA@SiO(2) are carbon-coated spherical silica nanoparticles. The presence of oxygenated carbon functional groups, highlighted by XPS analyses, makes these materials suitable for a wide range of analytical applications. As the main product, nC-RHA@SiO(2) was tested for its affinity towards steroid hormones. Solid-phase extractions were carried out on environmental waters for the determination of target analytes at different concentrations (10, 50, and 200 ng L(−1)), achieving quantitative adsorption and recoveries (RSD < 20%, n = 3). The method was successfully employed for monitoring lake, river, and wastewater treatment plant water samples collected in Northern Italy. MDPI 2023-01-11 /pmc/articles/PMC9866712/ /pubmed/36677803 http://dx.doi.org/10.3390/molecules28020745 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bianchini, Petra
Merlo, Francesca
Maraschi, Federica
Brescia, Rosaria
Prato, Mirko
Profumo, Antonella
Speltini, Andrea
From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters
title From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters
title_full From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters
title_fullStr From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters
title_full_unstemmed From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters
title_short From Rice Husk Ash to Silica-Supported Carbon Nanomaterials: Characterization and Analytical Application for Pre-Concentration of Steroid Hormones from Environmental Waters
title_sort from rice husk ash to silica-supported carbon nanomaterials: characterization and analytical application for pre-concentration of steroid hormones from environmental waters
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9866712/
https://www.ncbi.nlm.nih.gov/pubmed/36677803
http://dx.doi.org/10.3390/molecules28020745
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