Florisil is often used for cleanup of soil extracts for pesticide analysis. A typical cleanup of a pesticide spiked soil extract was carried out using Certified Sep-Pak Florisil which was compared with a competitor Florisil cartridge. The competitor cartridge extract shows significant extractable interferences highly detrimental to the analysis. In contrast, the extract produced using the Certified Sep-Pak Florisil cartridge clearly shows significantly lower extractables leached from the sorbent or cartridge resulting in a much cleaner and more reliable analysis.
Florisil is often used for cleanup of soil extracts for pesticide analysis. Florisil, a form of magnesium silicate, is a normal-phase sorbent and is used to remove polar interferences from the extract prior to GC or GC-MS analysis. In this SPE cleanup, the pesticide analytes are retained and concentrated on the cartridge; the analytes are then eluted with a weak solvent while polar interferences remain on the cartridge. Of primary importance is the cleanliness of the cartridge. The introduction of any interfering compounds resulting from leaching of extractables from the cartridge defeats the purpose of the cleanup. Figure 1 shows SPE protocols for cleanup of soil extracts for determination of pesticides and PCBs. Figure 2 presents GC-MS chromatograms that show typical cleanup of a pesticide spiked soil extract using Certified Sep-Pak Florisil compared with a competitor Florisil cartridge.
An analytical test was performed on a Certified Sep-Pak Florisil cartridge to verify the effectiveness of the device for removal of a standard polar interference from a soil extract with concomitant high recovery of target pesticides. For this test, trichlorophenol (TCP) is employed as the polar probe compound and the SPE protocol is the same as given in Figure 1. The sorbent should retain the TCP when the pesticides elute from the cartridge. This example demonstrates the performance of a Certified Sep-Pak Florisil cartridge for the cleanup of organochlorine pesticides at a 1 μg/kg (PPB) level in soil with GC-MS analysis. The results show excellent recovery of the pesticides with almost complete removal of the PCP from the extract. These results are summarized in Table 1.
A 5 g sample of soil was spiked with 10 ppb each of Arochlor 1016 and 1260 and placed in a 50 mL screwcap teflon extraction tube. To this sample, 10 g of anhydrous sodium sulfate and 30 mL of methylene choride (DCM) were added. The sample was placed on a rotory shaker for a 4 hour period. After that time the sample along with ca. 20 mL of DCM washing was filtered into a concentrator tube and evaporated to 1 mL using a TurboVap concentrator. 10 mL of hexane was added and the extract was again concentrated to 1 mL. This extract was used for SPE cleanup.
Florisil is used to provide cleanup of soil samples for PCB analysis using GC with electron-capture detection (GC-ECD). This cleanup reduces the number of co-eluting peaks in the chromatographic analysis. Perhaps more importantly, the cleanup significantly reduces co-extractable substances from the final extract. These substances can contaminate GC columns and injection liners and profoundly affect the performance of the GC. Figure 3 shows chromatograms obtained from a solvent extract of soil spiked with 10 ppb of Aroclor 1016 and 1260. The lower chromatogram was obtained using no SPE cleanup and the upper chromatogram was obtained using a Certified Sep-Pak Florisil cartridge (SPE protocol for PCBs given in Figure 1). The SPE cleanup resulted in a cleaner baseline and an overall cleaner sample. Alongside each chromatogram is a photo of the actual sample extracts in GC vials; clearly, significant cleanup was achieved using the Certified Sep-Pak Florisil cartridge.
The competitor cartridge extract shows significant extractable interferences highly detrimental to the analysis. Among the compounds leached into the extract are preservatives (such as BHT) and various hydrocarbons related to the polymeric materials used to manufacture the cartridge. In contrast, the extract produced using the Certified Sep-Pak Florisil cartridge clearly shows significantly lower extractables leached from the sorbent or cartridge resulting in a much cleaner and more reliable analysis.
720003169, March 2013