A comparative study of the oxygen-quenching features of novel luminescent Ru(II) complexes, covalently attached to controlled porous glass (CPG), has been performed in methanol, chloroform, toluene, cyclohexane, and n-hexane. The investigated dyes contain 1,10-phenanthroline-4,7-bis(phenylsulfonate) (s2d), 5-acetamide-1,10-phenanthroline (acap), and 5-tetradecanamide-1,10-phenanthroline (tdap) coordinated to the Ru(s2d)2 moiety. The immobilization procedure involves stable sulfonamide linkages to amino-derivatized CPG-Glycophase, the loading being a function of indicator molecular size (i.e., highest for the [Ru(s2d)2(acap)]2- dye). Steady-state and time-resolved emission analysis have revealed that oxygen quenching is purely dynamic and occurs on the glass bead surface. Using a continuous-flow system and a conventional spectrofluorometer, a detection limit of 6.2 μM (200 ppb) oxygen in methanol has been achieved and a 2−4-fold one in the other organic solvents tested, with dynamic ranges over two decades...