Mário Nuno Berberan‐Santos scite author profile

The hydroxyl group of 7-hydroxyquinoline in acidic media (i.e., of 7-hydroxyquinolinium cation, 7-HQ(C)) undergoes photoinduced deprotonation even in strongly acidic media. It occurs from dilute perchloric acid solutions up to 8 mol L -1 concentration, which is evidence of an outstanding photoacidity. Excited-state proton ejection was shown to be reversible at acid concentrations greater than 1 mol L -1 . Below this value, the proton ejection was not balanced by the proton recombination. Concerning the rates of the excited-state reactions, (i) the proton ejection rate constants k 1 increased upon acid dilution, attaining at high dilution the limiting value of (k 1 ) 0 ) 5.5 × 10 10 s -1 . k 1 was shown to vary with the water activity according to k 1 ) (k 1 ) 0 (a H 2 O ) 4 . The number 4 is then a key number for the ability of water to accept a proton from 7-HQ(C*). (ii) The proton recombination rate constant varies from 3 × 10 9 to 4 × 10 10 s -1 when the acid concentration ranges from 1 to 5 mol L -1 . This observation can tentatively be ascribed to a nondiffusional recombination process occurring with the ejected proton in concentrated acid solutions. The results as a whole are consistent with the coupling of an intramolecular electron transfer with the proton transfer, due to the withdrawing effect of the quinolinium function gNH + on the -O -group generated by the deprotonation. The photoproduct is then most likely to be the ketonic tautomeric form of 7-hydroxyquinoline rather than a zwitterion. Thus, the excited-state behavior is fully accounted for by the photoinduced synergy of the two functional groups.

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Pogliani

Berberan‐Santos

2000

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Explosives Detection: From Sensing to Response

Martelo

Marques

Berberan‐Santos

2019

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