Add to ORKGThis report shows an unexpected toxicity decrease during atrazine photoelectrodegradation in the presence of NaCl. Atrazine is a pesticide classified as endocrine disruptor occurring in industrial effluents and agricultural wastewaters. We therefore studied the effects of the degradation method, electrochemical and electrochemical photo-assisted, and of the supporting electrolyte, NaCl and Na2SO4, on the residual toxicity of treated atrazine solutions. We also studied the toxicity of treated atrazine solutions using Results show that at initial concentration of 20 mg L-1, atrazine was completely removed in up to 30 min using 10 mA cm(-2) electrolysis in NaCl medium, regardless of the electrochemical method used. The total organic carbon rem...
Atrazine photochemical degradation in homogeneous phase using Fe(III)/UV/air system was studied. Two...
The atrazine photoelectrochemical degradation has been examined in solutions containing TiO2 on immo...
Solutions of 30 mg L-1 of the herbicide atrazine have been degraded by environmentally friendly elec...
Atrazine is a highly used herbicide and it has been found in both deep and superficial waters. Its s...
This paper presents a degradation study of the pesticide atrazine using photo-assisted electrochemic...
Water reuse for irrigation activities is becoming a crucial worldwide challenge due to the depletion...
This research examines the degradation of atrazine by photocatalytic oxidation (PCO) under different...
Atrazine is one of the most used pesticides, although it is extremely toxic for living organisms. In...
The degradation of Atrazine (ATZ) in an outdoor environment was investigated by varying the ATZ conc...
[EN] This study examines the degradation of atrazine (ATZ) with Pt-modified textile electrodes using...
The photo-assisted electrochemical degradation of a real effluent of the atrazine manufacturing proc...
Atrazine, a chlorinated s-triazine group of herbicide is one of the most widely used pesticides in t...
International audienceAtrazine, an herbicide used to control grassy and broadleaf weed, has become a...
International audienceAtrazine, an herbicide used to control grassy and broadleaf weed, has become a...
The electrochemical oxidation of an atrazine solution obtained from a flushing treatment of a contam...
Atrazine photochemical degradation in homogeneous phase using Fe(III)/UV/air system was studied. Two...
The atrazine photoelectrochemical degradation has been examined in solutions containing TiO2 on immo...
Solutions of 30 mg L-1 of the herbicide atrazine have been degraded by environmentally friendly elec...
Atrazine is a highly used herbicide and it has been found in both deep and superficial waters. Its s...
This paper presents a degradation study of the pesticide atrazine using photo-assisted electrochemic...
Water reuse for irrigation activities is becoming a crucial worldwide challenge due to the depletion...
This research examines the degradation of atrazine by photocatalytic oxidation (PCO) under different...
Atrazine is one of the most used pesticides, although it is extremely toxic for living organisms. In...
The degradation of Atrazine (ATZ) in an outdoor environment was investigated by varying the ATZ conc...
[EN] This study examines the degradation of atrazine (ATZ) with Pt-modified textile electrodes using...
The photo-assisted electrochemical degradation of a real effluent of the atrazine manufacturing proc...
Atrazine, a chlorinated s-triazine group of herbicide is one of the most widely used pesticides in t...
International audienceAtrazine, an herbicide used to control grassy and broadleaf weed, has become a...
International audienceAtrazine, an herbicide used to control grassy and broadleaf weed, has become a...
The electrochemical oxidation of an atrazine solution obtained from a flushing treatment of a contam...
Atrazine photochemical degradation in homogeneous phase using Fe(III)/UV/air system was studied. Two...
The atrazine photoelectrochemical degradation has been examined in solutions containing TiO2 on immo...
Solutions of 30 mg L-1 of the herbicide atrazine have been degraded by environmentally friendly elec...