| Abstract | dc.description.abstract | Detection of O-2((1)Delta(g)) emission, lambda(max) = 1270 nm, following laser excitation and steady-state methods were employed to measure the total reaction rate constant, k(T), and the reactive reaction rate constant, k(R), for the reaction between singlet oxygen and the Cinchona tree alkaloids, cinchonidine, cinchonine, quinine and quinidine in several solvents. In most solvents, the kT values were close to 10(7) M(-1)s(-1), indicating that these compounds are good singlet oxygen quenchers. The reactive rate constants are smaller than 10(4) M-1 s(-1), implying that quenching is essentially a physical process. The analysis of solvent effect on k(T) by using LSER equations indicates that singlet oxygen deactivation by these drugs is accelerated by solvents with large pi* and beta values, being inhibited by hydrogen bond donor (HBD) solvents. Correlations employing theoretical solvent parameters, TLSER, give similar results. These data support the formation of an exciplex with charge transfer character, resulting from the singlet oxygen electrophilic attack on the quinuclidine moiety nitrogen. In most solvents, cinchonidine is more reactive than cinchonine and quinine is more reactive than quinidine although reactivity differences are small and only in a few solvents k(T) values of the S,R-isomer are about twice than those of R,S-isomer. The higher reactivity of S,R-isomers in these solvents is explained by the geometrically favorable intra-exciplex stabilizing interaction between the non-bonded pernitrone oxygen and the hydrogen of the hydroxyl substituent at C(9) | en |
