It is generally agreed that photosynthetic organisms demonstrated their potential for the development of highly sensitive, sustainable, and affordable biosensors to detect toxic chemicals in aquatic ecosystems, being a primary target for most toxic pollutants. Based on this principle, the application of photosynthetic material as a biological receptor in biosensing provides an excellent tool for a cheap and effective detection of a wide range of life-threatening pollutants. This review will provide a comprehensive overview of photosynthesis-based biosensors, shading light on the diverse types of photosynthetic materials to be exploited, the different supports on which such material can be immobilized, and the dual opto-electrochemical transduction in which it can be integrated for the environmental monitoring of photosynthetic herbicides.
Photosynthesis-based biosensors for environmental analysis of herbicides
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2021
Abstract
It is generally agreed that photosynthetic organisms demonstrated their potential for the development of highly sensitive, sustainable, and affordable biosensors to detect toxic chemicals in aquatic ecosystems, being a primary target for most toxic pollutants. Based on this principle, the application of photosynthetic material as a biological receptor in biosensing provides an excellent tool for a cheap and effective detection of a wide range of life-threatening pollutants. This review will provide a comprehensive overview of photosynthesis-based biosensors, shading light on the diverse types of photosynthetic materials to be exploited, the different supports on which such material can be immobilized, and the dual opto-electrochemical transduction in which it can be integrated for the environmental monitoring of photosynthetic herbicides.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
