Electron Emission for Nanodosimetry of Ionizing Radiation and Gas Sensing

Chemical Sensors 2013
Jurijs Dehtjars, Diāna Krumpāne, Kristīne Perovicha, Renata Reisfeld, Marina Romanova, Tsiala Saraidarov, Alexandr Soudnikovich, Indra Surkova

Photoelectron (PE) and thermostimulated exoelectron (TE) emission spectroscopies were explored for nanodosimetry of electron radiation and gas sensing. Lead sulphide (PbS) nanocrystals embedded in zirconia (ZrO2) thin-films were employed to absorb electron radiation and changes in PE properties of the films in dependence on absorbed dose were studied. Gases benzene and isopentane were adsorbed onto silicon substrates and changes in PE and TE emission properties of the substrates were explored. The research demonstrated that both PE and TE are promising approaches to use in sensing applications.

Keywords
PbS nanodots, radiation, dosimetry, photoelectron emission, gas sensing
Hyperlink
http://www.cognizure.com/chemsen.aspx

Dehtjars, J., Krumpāne, D., Perovicha, K., Reisfeld, R., Romanova, M., Saraidarov, T., Soudnikovich, A., Surkova, I. Electron Emission for Nanodosimetry of Ionizing Radiation and Gas Sensing. Chemical Sensors, 2013, Vol. 3, No. 1, pp.1-4. ISSN 2231-6035.

Publication language
English (en)