Decay constant for singlet oxygen in the solvent:

Deuterium oxide (mic)

Kochubeev, G.A.; Frolov, A.A.; Gurinovich, G.P.
Khim. Fiz. 8(9): 1184-90 (1989)

Lifetime is 6.1 x 10–5 s
Decay rate is 1.6 x 104 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is Chlorin e6
pD = 8.1; Soln. cont. 10–3 mol L–1 Triton X-100.

Racinet, H.; Jardon, P.; Gautron, R.
J. Chim. Phys. Phys.-Chim. Biol. 85(10): 971-7 (1988)

Lifetime is 4.9 x 10–5 s
Decay rate is 2.1 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is HYP;
Substrate is DPBF
BRIJ 35 micelles.

Krasnovsky, A.A.,Jr.; Neverov, K.V.; Egorov, S.Yu.; Reder, B.
Opt. Spectrosc. (USSR) 64(4): 471-4 (1988)

Lifetime is 3.6 x 10–5 s
Decay rate is 2.8 x 104 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is Ppb a
Triton X-100 micelles.

Gorman, A.A.; Hamblett, I.; Lambert, C.; Prescott, A.L.; Rodgers, M.A.J.; Spence, H.M.
J. Am. Chem. Soc. 109(10): 3091-7 (1987)

Lifetime is 4.3 x 10–5 s
Decay rate is 2.3 x 104 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is UP
0.5 mol L–1 SDS.

Rodgers, M.A.J.
Photochem. Photobiol. 37(1): 99-103 (1983)

Lifetime is 5.7 x 10–5 s
Decay rate is 1.8 x 103 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is H2TPPS4–
10–2 mol L–1 SDS.

Rodgers, M.A.J.
Photochem. Photobiol. 37(1): 99-103 (1983)

Lifetime is 5.6 x 10–5 s
Decay rate is 1.8 x 103 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is H2TPPS4–
10–2 mol L–1 CTAB.

Rodgers, M.A.J.
Photochem. Photobiol. 37(1): 99-103 (1983)

Lifetime is 5.2 x 10–5 s
Decay rate is 1.9 x 103 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is H2TPPS4–
0.1 mol L–1 Brij.

Rodgers, M.A.J.
Photochem. Photobiol. 37(1): 99-103 (1983)

Lifetime is 3.5 x 10–5 s
Decay rate is 2.9 x 103 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is H2TPPS4–
10–2 mol L–1 DDAB.

Rodgers, M.A.J.
Photochem. Photobiol. 37(1): 99-103 (1983)

Lifetime is 6.2 x 10–5 s
Decay rate is 1.6 x 103 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is H2TPPS4–
10–5 mol L–1 HSA.

Rodgers, M.A.J.
Photochem. Photobiol. 37(1): 99-103 (1983)

Lifetime is 3.2 x 10–5 s
Decay rate is 3.1 x 103 s–1

Experimental method: pulsed laser photolysis, luminescence decay
Sensitizer is H2TPPS4–
20 mg/mL Triton X-100.

Rodgers, M.A.J.; Bates, A.L.
Photochem. Photobiol. 35(4): 473-7 (1982)

Lifetime is 4.6 x 10–5 s
Decay rate is 2.2 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN;
Substrate is DPBF
vesicles (4.0 x 10–2 mol L–1 DDAB).

Rodgers, M.A.J.; Bates, A.L.
Photochem. Photobiol. 35(4): 473-7 (1982)

Decay rate is 2.3 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is MB or MB-tetrol;
Substrate is DPBF
vesicles (4.0 x 10–2 mol L–1 DDAB).

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 2.6 x 10–5 s
Decay rate is 3.8 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN;
Substrate is DPBF
0.1 mol L–1 Brij 35.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 2.2 x 10–5 s
Decay rate is 4.7 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN;
Substrate is DPBF
0.1 mol L–1 Igepal CO-660.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 2.4 x 10–5 s
Decay rate is 4.3 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is MB;
Substrate is DPBF
0.1 mol L–1 Igepal CO-660.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 4.8 x 10–5 s
Decay rate is 2.1 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN;
Substrate is DPBF
0.1 mol L–1 sodium laurate.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 5.4 x 10–5 s
Decay rate is 1.9 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is MB;
Substrate is DPBF
0.1 mol L–1 SDS.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 5.4 x 10–5 s
Decay rate is 1.9 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN;
Substrate is DPBF
0.1 mol L–1 SDS.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 5.4 x 10–5 s
Decay rate is 1.9 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is MB;
Substrate is DPBF
0.1 mol L–1 CTAB.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 5.7 x 10–5 s
Decay rate is 1.7 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN;
Substrate is DPBF
0.1 mol L–1 CTAB.

Lindig, B.A.; Rodgers, M.A.J.
J. Phys. Chem. 83(13): 1683-8 (1979)

Lifetime is 2.4 x 10–5 s
Decay rate is 4.2 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN;
Substrate is DPBF
0.1 mol L–1 Igepal CO-630.

Matheson, I.B.C.; Lee, J.; King, A.D.
Chem. Phys. Lett. 55(1): 49-51 (1978)

Lifetime is 3.6 x 10–5 s
Decay rate is 2.8 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is MB,
Substrate is DPBF
0.1 mol L–1 CTAB.

Matheson, I.B.C.; Lee, J.; King, A.D.
Chem. Phys. Lett. 55(1): 49-51 (1978)

Lifetime is 3.3 x 10–5 s
Decay rate is 3.0 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is MB;
Substrate is DPBF
pD = 7.1; 0.1 mol L–1 SDS.

Gorman, A.A.; Rodgers, M.A.J.
Chem. Phys. Lett. 55(1): 52-4 (1978)

Decay rate is 3.3 x 104 s–1

Experimental method: pulsed laser photolysis, substrate disappearance
Sensitizer is 2-ACN,
Substrate is DPBF
0.1 mol L–1 SDS.

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