Determination of deuterium oxide content in water based on luminescence quenching.

Water molecules (H2O) often reduce luminescence lifetimes of various luminescence probes. The change of lifetime is usually caused by dynamic luminescence quenching induced by O-H oscillators which effectively take away energy from excited molecule. The process can be described by Stern-Volmer equation. We have studied selected luminescence systems where it is possible to detect considerable changes of lifetime in presence/absence of H2O and D2O in this work for analytical purposes. We have tested both, inorganic (Ln3+) and organic compounds using three different instrumentation in order to find the largest change between τH and τD. The Ln3+ containing systems have shown considerable increase/decrease of lifetimes in the presence/absence of D2O (Eu3+: τD/τH = 34.5) whereas organic systems gave significantly lower values of τD/τH (coumarin 123 lifetime ratio, τD/τH = 1.94). The calculated LOD varied from 0.04 mol l−1 (samarium nitrate) to 6.55 mol l−1 (riboflavin).