separation device was a HP 6890 chr

separation device was a HP 6890 chromatograph (Agilent Technologies, Santa Clara, USA) equipped with a Flame Ionisation Detector (FID) system kept at 250 °C and a polar DB-Wax fused silica column (30 m length × 0.32 mm i.d., 0.5 μm film thickness, Agilent J&W, USA). Sample injections of 2 μl were made using a 7683 Series autosampler (Agilent Technologies, Santa Clara, USA). Injections were carried out in a Split/Splitless injector kept at 250 °C. The split valve was opened for 30 s after the injection, with a purge flow of 44 ml min−1. Helium was used as the carrier gas at a constant flow of 1.5 ml min−1. The 1D GC oven temperature started at 40 °C and was then raised at 3 °C min−1 up to 240 °C and kept isothermal for 10 min. The 1D column outlet was connected to the 2D system by means of the MCS switching device. A deactivated fused silica column transferred 10% split from the MCS device to the FID in order to monitor the eluent from the 1D column. Additional permanent inlet and outlet capillary lines connected the MCS device to a mass flow controller and a pressure regulator module (EPC) which provided a constant inlet flow of 10 ml min−1 through the MCS device, thus allowing the heart-cut procedure. This counter-current flow was switched off during the transfer of a selected heart-cut in the 2D system. Heart-cut fractions were trapped in the first 50 cm of the 2D column across a cryo trap system (CTS, Gerstel) and then cooled at −150 °C with liquid nitrogen. After each heart-cut, the current flow was switched on and the CTS was heated to 250 °C at a rate of 20 °C s−1. The EPC module ensured programmed pressure at the head of the 2D column in order to maintain a constant flow of 1.5 ml min−1.