Title :
Light emitting devices and integrated electrochemical sensors on lab-on-chip for toxicity bioassays based on algal physiology
Author :
Tsopela, A. ; Laborde, A. ; Salvagnac, L. ; Seguy, I. ; Izquierdo, R. ; Juneau, P. ; Temple-Boyer, P. ; Launay, J.
Author_Institution :
LAAS, Toulouse, France
Abstract :
In the frame of water toxicity analysis, a portable, glass-based, lab-on-chip was developed, integrating threeelectrode electrochemical microsensors and organic lightemitting diodes (OLED). The basic detection principle consists in monitoring electrochemically O2-related, algal metabolism in presence of herbicides. Thus, aiming on Diuron herbicide detection, a concentration-dependent inhibition effect on photosynthetic oxygen production rate was evidenced in the [0 - 1 μM] range. Finally, OLEDbased integrated system demonstrates higher detection characteristics than those using external white light source (sensitivity: 0.48 versus 0.26 nA/s/μM) and is highly promising for further integration of optical and electrochemical sensors enabling double complementary detection.
Keywords :
chemical products; electrochemical sensors; lab-on-a-chip; microelectrodes; microsensors; organic light emitting diodes; toxicology; water quality; Diuron herbicide detection; OLED; OLED-based integrated system; algal physiology; integrated electrochemical sensors; lab-on-chip; light emitting devices; organic light emitting diodes; photosynthetic oxygen production rate; three-electrode electrochemical microsensors; toxicity bioassays; water toxicity analysis; Biochemistry; Glass; Light sources; Monitoring; Organic light emitting diodes; Production; Sensors; Lab-on-chip; O2-related algal metabolism herbicide detection; OLED; microelectrode; water toxicity analysis;
Conference_Titel :
Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers - 2015 18th International Conference on
Conference_Location :
Anchorage, AK
DOI :
10.1109/TRANSDUCERS.2015.7181251
