Photosensitised production of singlet oxygen, O-2(*)(a(1)Delta g), in the unique'heavy-atom' solvent, supercritical fluid xenon. Pressure dependence of electronic to vibrational energy conversion during quenching of O-2(*)(a(1)Delta g) by xenon and by ground state oxygen

Abdel-Shafi AA; Wilkinson F; Worrall DR

Chemical Physics Letters, Vol.343, No.3-4, 273-280, 2001

DOI10.1016/S0009-2614(01)00727-8 Export Citation

Photosensitised production of singlet oxygen, O-2(*)(a(1)Delta g), in the unique'heavy-atom' solvent, supercritical fluid xenon. Pressure dependence of electronic to vibrational energy conversion during quenching of O-2(*)(a(1)Delta g) by xenon and by ground state oxygen

Abdel-Shafi AA, Wilkinson F, Worrall DR

Photosensitised generation of singlet oxygen, O-2* (a(1) Delta (g)), in supercritical xenon, SCF-Xe at 325 K is reported for the first time. Rate constants for quenching by ground state oxygen, and by xenon, vary from 8.9 +/- 0.3 to 13 +/- 1 x 10(2) and from 7 +/- 1 to 4.4 +/- 0.5 dm(3) mol(-1) s(-1), respectively, as the pressure increases from 7.8 to 44 Wa. The measured decay constant shows little temperature dependence in the range 295-325 K at 29.6 Wa. The extrapolated lifetime of O-2*(a(1)Delta (g)), expected in the absence of O-2(X(3)Sigma (-)(g)), in SCF-Xe, at 325 K and 8.8 MPa is 22 +/- 3 ms. Explanations for observed variations are proposed and factors governing the decay of singlet oxygen in SCF-Xe are discussed.