Toward new instruments for measurement of low concentration hydrogen sulfide in small-quantity aqueous solutions

Abstract

Endogenously generated hydrogen sulfide (H2S) has been found to play some important physiological roles in the nervous and cardiovascular systems, such as a neuromodulator and a vasorelaxant. These roles are in contrast to our common perception that H2S is toxic. However, whether H2S plays a positive or negative role is dependent on the H2S concentration levels in mammals. This further puts a high demand on the accurate measurement of H2S in mammals with a further desire to be real time, continuous and in vivo. Existing methods for H2S measurement require a large number of tissue samples with complex procedures, and these methods are extremely invasive. The development of new in vivo and real-time methods for measuring H2S is, however, a great challenge. In the present study, we proposed and examined five potential H2S measurement methods: (1) atomic force microscopy with coating materials, (2) Raman spectroscopy on the H2S solutions, (3) gas chromatography/mass spectroscopy (with the static headspace technique) on the H2S solutions, (4) mass spectroscopy on unfunctionalized carbon nanotubes treated with the H2S solutions and (5) Raman spectroscopy on unfunctionalized carbon nanotubes treated with the H2S solutions. Our study concluded that method (5) is the most promising one for detecting low concentration H2S in small-quantity aqueous solutions in terms of measurement resolution and non-invasiveness, but the method is not very robust.