Identification of volatile components in the headspace of pharmaceutical-grade fentanyl

The immense potency of fentanyl and its persistent use poses great danger to abusers and law enforcement personnel. With just a few milligrams capable of causing an overdose, most agencies advise personnel to avoid handling fentanyl or related materials directly. However, there are limited field-portable and non-contact methods for the detection of fentanyl. Thus, the development of a non-contact field portable detection method is essential. To facilitate the development of a non-contact detection method, the volatile signature of fentanyl was explored using a solid phase microextraction (SPME) coupled with gas chromatography and mass spectrometry (GC-MS) method. SPME-GC-MS was used to collect and establish the vapor signature of pure pharmaceutical-grade fentanyl and diluted pharmaceutical-grade fentanyl. The collection and analysis of these vapor signatures has provided an essential stepping-stone in the future development of a non-contact vapor detection method for fentanyl.

Automated summary

The powerful nature of fentanyl presents significant dangers to both abusers and law enforcement personnel, emphasizing the need for a non-contact detection method. The exploration of fentanyl's volatile signature using SPME-GC-MS provides a crucial foundation for the future development of a non-contact vapor detection method for fentanyl.