Ru(5-Brphen)32+

excited state quenched by HgCl2
Hauenstein, B.L.,Jr.; Mandal, K.; Demas, J.N.; DeGraff, B.A.
Inorg. Chem. 23: 1101-7 (1984)

Ru(5-Brphen)32+ quenched by HgCl2
Solvent : H2O, 0.01 mol/L HNO3, 0.09 mol/L NaNO3

kq = 4.7 x 108(L mol–1 s–1)

Mechanism: oxidative electron transfer
Experimental methods: laser flash, luminescence, multiple shot with signal averaging
Lifetime in the absence of quencher, air free = 1.3 micro sec.

Hauenstein, B.L.,Jr.; Mandal, K.; Demas, J.N.; DeGraff, B.A.
Inorg. Chem. 23: 1101-7 (1984)

Ru(5-Brphen)32+ quenched by HgCl2
Solvent : H2O, 0.01 mol/L HNO3, 0.99 mol/L NaNO3

kq = 5.8 x 108(L mol–1 s–1)

Mechanism: oxidative electron transfer
Experimental methods: laser flash, luminescence, multiple shot with signal averaging
Lifetime in the absence of quencher, air free = 1.3 micro sec.

Dressick, W.J.; Hauenstein, B.L.,Jr.; Demas, J.N.; DeGraff, B.A.
Inorg. Chem. 23: 1107-13 (1984)

Ru(5-Brphen)32+ quenched by HgCl2
Solvent : H2O, 0.01 mol/L HNO3, 0.01 mol/L SLS

kq = 2.9 x 106(L mol–1 s–1)

Mechanism: oxidative electron transfer
Experimental methods: laser flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 2.2 micro sec.

Dressick, W.J.; Hauenstein, B.L.,Jr.; Demas, J.N.; DeGraff, B.A.
Inorg. Chem. 23: 1107-13 (1984)

Ru(5-Brphen)32+ quenched by HgCl2
Solvent : H2O, 0.01 mol/L HNO3, 0.1 mol/L NaNO3, 0.01 mol/L SLS

kq = 1.1 x 106(L mol–1 s–1)

Mechanism: oxidative electron transfer
Experimental methods: laser flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 2.2 micro sec.

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