PROTONATION OF FREE 2,9-BIS(P-BIPHENYLYL)-1,10-PHENANTHROLINE SITES IN A 56-MEMBERED MACROCYCLE AND IN ITS RE-I AND CU-I COMPLEXES - ABSORPTION-SPECTRA, LUMINESCENCE PROPERTIES, AND EXCITED-STATE INTERACTIONS
N. Armaroli et al., PROTONATION OF FREE 2,9-BIS(P-BIPHENYLYL)-1,10-PHENANTHROLINE SITES IN A 56-MEMBERED MACROCYCLE AND IN ITS RE-I AND CU-I COMPLEXES - ABSORPTION-SPECTRA, LUMINESCENCE PROPERTIES, AND EXCITED-STATE INTERACTIONS, Journal of the Chemical Society. Faraday transactions, 93(23), 1997, pp. 4145-4150
We have investigated the absorption and luminescence properties, and t
he H-1 NMR spectra of (i) a macrocycle (L-L) made of a 56-membered rin
g incorporating two 2,9-bis(p-biphenylyl)-1,10-phenanthroline units an
d (ii) its metal complexes (L-L)Re(CO)(3)Cl and [(L-L)Cu(A)](+), where
the latter is a catenate species (A is a 33-membered macrocycle conta
ining a 2,9-p-biphenylyl-1,10-phenanthroline unit). The free macrocycl
e and its complexes contain, respectively, two and one free phenanthro
line sites which can be protonated. Addition of trifluoroacetic acid t
o CH2Cl2 solutions of L-L, (L-L)Re(CO)(3)Cl, and [(L-L)Cu(A)](+) cause
s strong changes in the absorption spectra, with maintenance of the sa
me family of isosbestic points in all cases. The H-1 NMR spectrum of L
-L is identical to that of the uncomplexed phenanthroline site of [(L-
L)Cu(A)](+) and (L-L)Re(CO)(3)Cl. Such absorption and NMR data show th
at the two phenanthroline units of L-L do not interact in the ground s
tate. For this macrocycle, the changes in the absorption spectrum upon
protonation are accompanied by the disappearance of the very strong (
emission quantum yield Phi(em) = 0.89), short lived (tau = 1.7 ns) flu
orescence band (lambda(max) = 419 ma) of the 2,9-bis(p-biphenylyl)-1,1
0-phenanthroline units, with the appearance of a weak (Phi(em) = 0.019
), short lived (tau = 1.9 ns), strongly red-shifted (lambda(max) = 572
nm) band. The results obtained show that the two equivalent basic sit
es of L-L are independently protonated. In the monoprotonated L . H+-L
species, energy transfer from the unprotonated to the protonated site
occurs. The phosphorescence band of L-L (lambda(max) = 538 nm, tau =
0.8 s), which can be observed on cooling the solution to 77 K, moves s
lightly to the red (lambda(max) = 571 nm, tau = 1.1 s) upon protonatio
n. In the [(L-L)Cu(A)](+) and (L-L)Re(CO)(3)Cl complexes, protonation
occurs at the free coordination site, as shown by the changes observed
in the absorption and emission spectre. In the [(L . H+-L)Cu(A)](+) c
omplex, the lowest triplet metal-to-ligand charge-transfer ((MLCT)-M-3
) level of the metal-based moiety lies below the lowest singlet excite
d state and the lowest triplet excited state of the protonated moiety.
Therefore, both the fluorescence and (at 77 K) the phosphorescence of
the protonated moiety are, at least in part, quenched. In Re(L . H+-L
)(CO)(3)Cl, the lowest (MLCT)-M-3 of the Re-based moiety is very close
in energy to the fluorescent and phosphorescent levels of the protona
ted moiety with a consequent more complex luminescence behaviour.