Sustainable activated carbon obtained as a by-product of the sugar and alcohol industry for removal of amoxicillin from aqueous solution

“…Drugs adsorption onto activated carbons. Many studies have been reported for the adsorption of drug from aqueous solution onto activated carbons, e.g., diclofenac (de Franco et al, 2018) and triclosan (Bernal et al, 2020a) onto the activated carbons, atenolol (Haro et al, 2017), and phenol, salicylic acid, and methylparaben (Bernal et al, 2020b) onto commercial granular activated carbons, ampicillin (Del Vecchio et al, 2019), and acetaminophen and salicylic acid (Bernal et al, 2020c) onto granular activated carbon, ranitidine onto activated carbon prepared from lemon peel (Bhattacharyya et al, 2019), metformin hydrochloride onto Zea mays tassel activated carbon (Kalumpha et al, 2020), metronidazole and sulfamethoxazole onto walnut shell-based activated carbon (Teixeira et al, 2019), etodolac onto microporous activated carbon derived from apricot, peach stones, and almond shell mixture biomasses (Erdem et al, 2020), acetaminophen onto cashew nut shell biomass-derived activated carbons (Geczo et al, 2020), acetylsalicylic acid and sodium diclofenac onto lovegrass (Poaceae) derived activated carbon (Cimirro et al, 2020), and amoxicillin onto activated carbon obtained from the sugar and alcohol industry byproducts (Schultz et al, 2020).…”

Toxicity and remediation of pharmaceuticals and pesticides using metal oxides and carbon nanomaterials

“…Drugs adsorption onto activated carbons. Many studies have been reported for the adsorption of drug from aqueous solution onto activated carbons, e.g., diclofenac (de Franco et al, 2018) and triclosan (Bernal et al, 2020a) onto the activated carbons, atenolol (Haro et al, 2017), and phenol, salicylic acid, and methylparaben (Bernal et al, 2020b) onto commercial granular activated carbons, ampicillin (Del Vecchio et al, 2019), and acetaminophen and salicylic acid (Bernal et al, 2020c) onto granular activated carbon, ranitidine onto activated carbon prepared from lemon peel (Bhattacharyya et al, 2019), metformin hydrochloride onto Zea mays tassel activated carbon (Kalumpha et al, 2020), metronidazole and sulfamethoxazole onto walnut shell-based activated carbon (Teixeira et al, 2019), etodolac onto microporous activated carbon derived from apricot, peach stones, and almond shell mixture biomasses (Erdem et al, 2020), acetaminophen onto cashew nut shell biomass-derived activated carbons (Geczo et al, 2020), acetylsalicylic acid and sodium diclofenac onto lovegrass (Poaceae) derived activated carbon (Cimirro et al, 2020), and amoxicillin onto activated carbon obtained from the sugar and alcohol industry byproducts (Schultz et al, 2020).…”

Toxicity and remediation of pharmaceuticals and pesticides using metal oxides and carbon nanomaterials

“…31 Considering peaks around 1600-1400 cm −1 , CC stretching vibration of aromatic rings was observed and the intensity of the peak increased as the ZnCl 2 /RS ratio increased from 0.5 to 5, indicating that higher amounts of ZnCl 2 led to more aromatic moieties within the activated carbon structure. 33 In addition, the out of plane bending of the aromatic group (900-700 cm −1 ) confirmed the existence of aromatic functionality in the activated carbons. These results indicated that variation of ZnCl 2 ratio could significantly influence both the range and quantity of the resulting functional groups on the surface of the obtained activated carbons; this was especially true for the aromatic functionalities that increased with greater loadings of ZnCl 2 .…”

ZnCl₂ activated mesoporous carbon from rice straw: optimization of its synthetic process and its application as a highly efficient adsorbent for amoxicillin

“…Commercial activated carbon is expensive due to the high cost of the starting material. As inexpensive starting materials, biomass wastes from industries such as soybean oil cake from vegetable oil industry 7) , bamboo waste from a chopstick factory 9) , sugarcane bagasse from alcohol and sugar industry 10) or sour cherry stones from fruit juice industry 11) have been studied in previous researches.…”

Kinetics and Isotherm Studies of Methylene Blue Adsorption on Activated Carbon Derived from Chrysanthemum: Solid Waste of Beverage Industry