(321f) Mobile Technology Based ECL Biosensor Instrumentation
AIChE Annual Meeting
2018
2018 AIChE Annual Meeting
Topical Conference: Sensors
Biosensor Devices: Applications I
Tuesday, October 30, 2018 - 2:20pm to 2:40pm
A highly compact and affordable instrumentation wad designed and constructed using the mobile technology replacing the traditional ECL detector, computer interface, and data analyzer in an all-in-one mode. Ru (bpy)32+ was embedded in silicon nanoparticles and sandwich immunoassay was conducted. One antibody is conjugated to the Silicon nanoparticles where Ru (bpy)32+ is embedded and the other antibody is attached to magnetic bead so that the bound complex can be attracted to the electrode surface separating the false positive signals. Coreactant tri-n-propylamine (TPrA) or 2-(dibutylamino)ethanol (DBAE) was tested for their ability to enhance the signal.
TPrA provided stronger signals for carbon electrodes and optimal concentration was determined for low signal measurements. The challenge of using disposable screen-printed electrode (SPE) was discussed as the binding materials and its geometry in SPE altered the electrode behaviors. The sensing conditions were optimized by experimenting with variables of buffer conditions, trigger voltage, and electrode conditions. The target sensing molecule of vitamin-D binding protein (DBP) was detected at the hundreds of nano-molar level with the optimized conditions.
The sensor demonstrated that a new instrumentation with mobile technology in the point-of-care diagnostics could provide reliability and sensitivity of a high-end equipment. This project is funded by the NSF CBET division.