Abstract: A method of assaying the interaction of a molecule and a lipid bilayer is described. The method employs a microfluidic device comprising a substrate having at least one concave microcavity with a metallic surface defining an aperture and a liquid disposed within the microcavity, a lipid bilayer suspended across the aperture, and a microfluidic channel containing a liquid disposed on top of the substrate in fluid communication with the lipid bilayer. The method comprises the steps of passing a liquid containing a test molecule across the microfluidic channel, and monitoring lipid bilayer molecule interactions by plasmonically enhanced Raman or fluorescence spectroscopy configured for plasmonic enhancement of a detection signal evolving from the test molecule or lipid bilayer. Also described in a microfluidic device configured to perform the method of the invention.

Abstract: A method of assaying the interaction of a molecule and a lipid bilayer is described. The method employs a microfluidic device comprising a substrate having at least one concave microcavity with a metallic surface defining an aperture and a liquid disposed within the microcavity, a lipid bilayer suspended across the aperture, and a microfluidic channel containing a liquid disposed on top of the substrate in fluid communication with the lipid bilayer. The method comprises the steps of passing a liquid containing a test molecule across the microfluidic channel, and monitoring lipid bilayer molecule interactions by plasmonically enhanced Raman or fluorescence spectroscopy configured for plasmonic enhancement of a detection signal evolving from the test molecule or lipid bilayer. Also described in a microfluidic device configured to perform the method of the invention.

Abstract: The present invention relates to method detecting analytes by surface enhanced Raman spectroscopy (SERS), comprising contacting the analytes with at least one analyte binding molecule attached to a metal substrate surface that enhances Raman scattering via a Raman-active molecular linker; and detecting a surface enhanced Raman signal from said compound. In a further aspect, this invention relates to a conjugate and a biosensor suitable for the invented SERS-based analyte detection method.

Abstract: The present invention relates to method detecting analytes by surface enhanced Raman spectroscopy (SERS), comprising contacting the analytes with at least one analyte binding molecule attached to a metal substrate surface that enhances Raman scattering via a Raman-active molecular linker; and detecting a surface enhanced Raman signal from said compound. In a further aspect, this invention relates to a conjugate and a biosensor suitable for the invented SERS-based analyte detection method.

Abstract: The present invention relates to method detecting analytes by surface enhanced Raman spectroscopy (SERS), comprising contacting the analytes with at least one analyte binding molecule attached to a metal substrate surface that enhances Raman scattering via a Raman-active molecular linker; and detecting a surface enhanced Raman signal from said compound. In a further aspect, this invention relates to a conjugate and a biosensor suitable for the invented SERS-based analyte detection method.