Reactivity of quasi-free electrons toward N 3 - and its impact on H 2 formation mechanism in water radiolysis.
Denis S DobrovolskiiSergey A DenisovHoward E SimsMehran MostafaviPublished in: Physical chemistry chemical physics : PCCP (2024)
Picosecond pulse radiolysis measurements were employed to assess the effectiveness of N 3 - in scavenging quasi-free electrons in aqueous solutions. The absorption spectra of hydrated electrons were recorded within a 100 ps timeframe across four distinct solutions with N 3 - concentrations of 0.5, 1, 2, and 5 M in water. The results revealed a concentration-dependent shift in the maximum absorption spectra of fully solvated electrons. Notably, at 5 M concentration, the maximum absorption occurred at 670 nm, in contrast to 715 nm observed for water. Intriguingly, the formation yield of hydrated electrons within the initial 5 ps electron pulse remained unaffected, showing that, even at a concentration of 5 M, N 3 - does not effectively scavenge quasi-free electrons. This is in disagreement with conclusions from stochastic models found in the literature. This observation has an important impact on understanding the mechanism of H 2 formation in water radiolysis, which we discuss briefly here.