Method and Instrumentation for Comprehensive Multidimensional Chromatography Separations using a Micro Flow Modulator

The present invention refers to a modulator, to be used for comprehensive multidimensional chromatography separations, to entrap and release sample solute fractions (entrapped in a capillary loop of fixed or variable volume), deriving from a capillary column with an internal diameter ranging from 0.01 mm to 0.53 mm, onto another capillary column with an internal diameter ranging from 0.01 mm to 0.53 mm. The micro-device has been integrated in a gas chromatographic system, composed of two ovens for the independent temperature control of the two columns; the micro-device is characterized, internally, by a system of channels that enable the controlled splitting of gas flow, entering the second capillary, to generate an optimum gas linear velocity and to release the pressure in excess, with the objective of attaining the maximum separation efficiency in the second column. Furthermore, the system is equipped with a second device, to divide the flow exiting the second column in two different detectors that operate at the same or at different pressures.