Rapid impedance measurement of tethered bilayer lipid membrane biosensors

Tethered bilayer lipid membranes (tBLM) offer a promising means to immobilize membrane proteins for sensor applications and study biological phenomena including membrane-nanoparticle interactions. tBLM biointerfaces are typically characterized using electrochemical impedance spectroscopy (EIS) in the 1mHz to 1Hz range due to interface parasitics. To enable rapid characterization of biointerfaces for high throughput applications, this paper introduces a method for high resolution EIS characterization of tBLMs at higher frequencies. The tBLM equivalent electrical model is analyzed, and the benefit of extracting the real portion of interface admittance is described. Mathematical analysis shows that the maximum frequency for measuring membrane resistance is a function of membrane characteristics and that small area membranes could enable measurement well into the kHz range, permitting observation of millisecond membrane protein activity in biosensor arrays.