Use of vibronic phenomena in adsorption phase for developing of semiconductor gas sensors
Document Type
Article
Publication Date
12-1-2002
Abstract
Semiconductor sensor selectivity is of the most importance for environment monitoring. The surface modifications and multi-sensor systems are widely used for the selectivity increasing in commercial sensors. The work presented is an experimental study aimed to show the use of fine vibrational phenomena on the semiconductor surface for the increase of the sensor selectivity. Our experiments showed that resonant vibrational energy transfer from the photoexcited adsorbed dye may occur if gas molecules have correspondent vibrational modes. This energy transfer controls both the luminescent signal from the dye and electrical response of the semiconductor substrate. The sensor selectivity in this case is due to the overlapping of rich vibrational spectra of the molecules. We have shown that isotopes can be distinguished from each other in this way since they have different vibrational frequencies. This could not be done with traditional 'chemiresistors'. Selective sensors for specific gas molecules could be produced in this way by depositing organic dye molecules on the semiconductor surface with vibrational modes 'tuned' to the vibrations of those gas molecules.
Identifier
18544372681 (Scopus)
Publication Title
Materials Science Poland
ISSN
01371339
First Page
29
Last Page
37
Issue
3
Volume
20
Recommended Citation
Zaitsev, Vladimir and Kebbecus, Barbara, "Use of vibronic phenomena in adsorption phase for developing of semiconductor gas sensors" (2002). Faculty Publications. 14516.
https://digitalcommons.njit.edu/fac_pubs/14516
