Activated Biocarbons Based on <i>Salvia officinalis</i> L. Processing Residue as Adsorbents of Pollutants from Drinking Water

Activated Biocarbons Based on <i>Salvia officinalis</i> L. Processing Residue as Adsorbents of Pollutants from Drinking Water

This study presents research on the production of activated biocarbons derived from herbal waste. Sage stems were chemically activated with two activating agents of different chemical natures—H<sub>3</sub>PO<sub>4</sub> and K<sub>2</sub>CO<sub>3</sub>—...

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Bibliographic Details
Main Authors: Joanna Koczenasz, Piotr Nowicki, Karina Tokarska, Małgorzata Wiśniewska
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Molecules
Subjects:
sage stems
waste biomass utilization
activated biocarbons
chemical activation
microwave and conventional heating
adsorption
Online Access:https://www.mdpi.com/1420-3049/30/14/3037
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Summary:This study presents research on the production of activated biocarbons derived from herbal waste. Sage stems were chemically activated with two activating agents of different chemical natures—H<sub>3</sub>PO<sub>4</sub> and K<sub>2</sub>CO<sub>3</sub>—and subjected to two thermal treatment methods: conventional and microwave heating. The effect of the activating agent type and heating method on the basic physicochemical properties of the resulting activated biocarbons was investigated. These properties included surface morphology, elemental composition, ash content, pH of aqueous extracts, the content and nature of surface functional groups, points of zero charge, and isoelectric points, as well as the type of porous structure formed. In addition, the potential of the prepared carbonaceous materials as adsorbents of model organic (represented by Triton X-100 and methylene blue) and inorganic (represented by iodine) pollutants was assessed. The influence of the initial adsorbate concentration (5–150 (dye) and 10–800 mg/dm<sup>3</sup> (surfactant)), temperature (20–40 °C), and pH (2–10) of the system on the efficiency of contaminant removal from aqueous solutions was evaluated. The adsorption kinetics were also investigated to better understand the rate and mechanism of contaminant uptake by the prepared activated biocarbons. The results showed that materials activated with orthophosphoric acid exhibited a significantly higher sorption capacity for all tested adsorbates compared to their potassium carbonate-activated counterparts. Microwave heating was found to be more effective in promoting the formation of a well-developed specific surface area (471–1151 m<sup>2</sup>/g) and porous structure (mean pore size 2.17–3.84 nm), which directly enhanced the sorption capacity of both organic and inorganic contaminants. The maximum adsorption capacities for iodine, methylene blue, and Triton X-100 reached the levels of 927.0, 298.4, and 644.3 mg/g, respectively, on the surface of the H<sub>3</sub>PO<sub>4</sub>-activated sample obtained by microwave heating. It was confirmed that the heating method used during the activation step plays a key role in determining the physicochemical properties and sorption efficiency of activated biocarbons.
ISSN:1420-3049

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