Removal of tetracycline hydrochloride in aqueous by coupling dielectric barrier discharge plasma with biochar

“…for the degradation of tetracycline hydrochloride in aqueous medium [254]. The result showed that during discharge plasma process, the specific surface area and the amount of oxygen-containing functional groups of biochar increased due to the interaction of biochar and reactive species generated by the plasma.…”

“…Furthermore, this process leads to the elimination of tetracycline hydrochloride (C0=50 mg/L) at 89.36% in only 5 min [254].…”

A comprehensive review of biochar in removal of organic pollutants from wastewater: Characterization, toxicity, activation/functionalization and influencing treatment factors

“…for the degradation of tetracycline hydrochloride in aqueous medium [254]. The result showed that during discharge plasma process, the specific surface area and the amount of oxygen-containing functional groups of biochar increased due to the interaction of biochar and reactive species generated by the plasma.…”

“…Furthermore, this process leads to the elimination of tetracycline hydrochloride (C0=50 mg/L) at 89.36% in only 5 min [254].…”

A comprehensive review of biochar in removal of organic pollutants from wastewater: Characterization, toxicity, activation/functionalization and influencing treatment factors

“…Since its residue in the aquatic environment can induce the development of antibioticresistant pathogens and cause serious health problems, [1][2][3][4] the removal of TC from the environment is essential. Methods involving the use of plasma, 5 persulfate, 6 electrocatalysts, 7 ozone, 8 etc. are often employed for TC degradation.…”

In situ growth of a heterojunction cocatalyst on the g-C₃N₅ surface enhances charge transfer to improve photocatalytic activity

“…NTPs have been comprehensively studied for the degradation of organic compounds (Krishna et al 2016;Wardenier et al 2019). As for TC, many studies have proven the efficiency of NTP operated under various reactors types such as: surface pulsed discharge plasma (Li et al 2020), corona discharge (Wang et al 2018a), and dielectric barrier discharge (DBD) (Lou et al 2021) etc. The gliding arc discharge (GAD) is a type of plasma discharge that was originally developed for the treatment of gases.…”

Tetracycline degradation by nonthermal plasma: removal efficiency, degradation pathway, and toxicity evaluation