Surface Plasmon Resonance Imaging Sensor for Detection of Photolytically and Photocatalytically Degraded Glyphosate

Abstract: Glyphosate is one of the most widely used pesticides, which, together with its primary metabolite aminomethylphosphonic acid, remains present in the environment. Many technologies have been developed to reduce glyphosate amounts in water. Among them, heterogeneous photocatalysis with titanium dioxide as a commonly used photocatalyst achieves high removal efficiency. Nevertheless, glyphosate is often converted to organic intermediates during its degradation. The detection of degraded glyphosate and emerging pro… Show more

“…The industrial implementation of this technology is not only apparently simple and promising, but in recent years it has become a hot spot in the scientific community. It is one of the main goals in the development of new devices [ 3 ] and photocatalytic reactors [ 4 ] that are efficient, cheap and easy to execute, which simultaneously allow the control and follow-up of the photoreactions.…”

Low-Cost Photoreactor to Monitor Wastewater Pollutant Decomposition

“…The industrial implementation of this technology is not only apparently simple and promising, but in recent years it has become a hot spot in the scientific community. It is one of the main goals in the development of new devices [ 3 ] and photocatalytic reactors [ 4 ] that are efficient, cheap and easy to execute, which simultaneously allow the control and follow-up of the photoreactions.…”

Low-Cost Photoreactor to Monitor Wastewater Pollutant Decomposition

Trends of Nanobiosensors in Modern Agriculture Systems

Physiological response and molecular mechanism of glyphosate degradation by Pseudomonas alcaligenes Z1–1