Nanomolar fluorescent quantitative detection of formaldehyde with a 8-hydroxyquinoline derivative in aqueous solution and electrospun nanofibers

• A 8-hydroxyquinoline-based probe for formaldehyde in aqueous solution was synthesized.
• The probe can quantitatively detect formaldehyde in concentration range of 0–1.3 × 10−4 M.
• The detection limit could be as low as 900 nM for formaldehyde.
• The proposed method was employed for preliminary application in several available foods.
• The detection of formaldehyde on electrospinning nanofibers has been demonstrated.

A 8-hydroxyquinoline-based derivative was designed and synthesized, which is shown to act as a highly sensitive fluorescent probe for formaldehyde in aqueous solution. Based on the photo induced electron transfer (PET) process, addition of formaldehyde greatly enhanced the fluorescence of the probe. Formaldehyde can be detected quantitatively in the concentration range from 900 nM to 1.3 × 10−4 M and the detection limit on fluorescence response of the probe can be as low as 900 nM. The proposed method was successfully employed for preliminary application in several commercially available foods. Moreover, it has been successfully blended with a host polymer polyvinyl alcohol and the polymer containing the probe has been made in nanofiber form via electrospinning. The fluorescence of the nanofibers could also be enhanced after they were immersed into water solution of formaldehyde.

A highly sensitive fluorescent 8-hydroxyquinoline-based probe for formaldehyde in aqueous solution was reported and the detection of formaldehyde on electrospinning nanofibers has been demonstrated.Figure optionsDownload as PowerPoint slide