Tb3+ [5D4] excited state quenched by Nd3+

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : (C₂H₅)₂O, 20ºC

k_q = 1.7 x 10⁶(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 920 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : 1-PrOH, 20ºC

k_q = 7.7 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1100 micro sec.
This value also reported in 72E319

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : 2-PrOH, 20ºC

k_q = 1.0 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1000 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Acetonitrile, 20ºC

k_q = 2.1 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 930 micro sec.
This value also reported in 72E319

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Acetaldehyde, 20ºC

k_q = 3.3 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 840 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺ at conc. <= 0.025 mol L^–1
Solvent : Acetone, 20ºC

k_q = 1.2 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, , luminescence
Lifetime in the absence of quencher, air free = 1060 micro sec.
This value also reported in 68E121

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Acetophenone, 20ºC

k_q = 2.4 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 620 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Allyl alcohol, 20ºC

k_q = 5.3 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1200 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Benzaldehyde, 20ºC

k_q = 7.5 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 620 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Benzonitrile, 20ºC

k_q > 3.4 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 750 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : DMA, 20ºC

k_q = 4.3 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1600 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : DMF, 20ºC

k_q = 6.5 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1600 micro sec.
This value also reported in 72E319

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : DMSO, 20ºC

k_q = 1.0 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 2200 micro sec.
This value also reported in 72E319

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : EtOH, 20ºC

k_q = 3.8 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1240 micro sec.
This value also reported in 72E319

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : H₂O, 20ºC

k_q = 4.5 x 10³(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, , luminescence
Lifetime in the absence of quencher, air free = 470 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : H₂O, 22ºC, pH 5.9, ionic strength 0.6

k_q = 7 x 10³(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: laser flash, luminescence, single shot signal

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Isoamyl alcohol, 20ºC

k_q = 1.3 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1100 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : MeOH, 20ºC

k_q = 2.4 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1350 micro sec.
This value also reported in 72E319

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : TBP/Toluene (2/1), 20ºC

k_q = 9.6 x 10³(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 2100 micro sec.
This value also reported in 72E319

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : n-Amyl alcohol, 20ºC

k_q = 9.8 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1250 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : n-BuOH, 20ºC

k_q = 1.0 x 10⁵(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 1170 micro sec.

Tb³⁺ [⁵D₄] quenched by Nd³⁺
Solvent : Pyridine, 20ºC

k_q = 1.6 x 10⁴(L mol^–1 s^–1)

Mechanism: energy transfer
Experimental methods: conventional flash, luminescence, single shot signal
Lifetime in the absence of quencher, air free = 970 micro sec.
This value also reported in 72E319