Herein, an easy assembled colorimetric and ''turn–on'' fluorescent sensor (probe P4SC) based on phenolphthalein was developed for carbonate ion (CO₃^2?) sensing in a mixture of EtOH/H₂O (v/v, 80/20, pH?=?7, Britton–Robinson buffer) media. The probe P4SC demonstrated high sensitive and selective monitoring toward CO₃^2? over other competitive anions. Interaction of CO₃^2? with the probe P4SC resulted in a significant increment in emission intensity at λ_em?=?498?nm (λ_ex?=?384?nm) due to the strategy of blocking the photo induced electron transfer (PET) mechanism. ¹H NMR titration and Job's methods, as well as the theoretical study were carried out to support the probable stoichiometry of the reaction (1:2) between P4SC and CO₃^2?. The binding constant of the probe P4SC with CO₃^2? was calculated as 2.56?×?10¹⁰?M^?2. The probe P4SC providing rapid response time (~0.5?min) with a satisfactorily low detection limit (14.7?nM) may be useful as a valuable realistic sensor. The imaging studies on the liver cancer cells (HepG2) shows the great potential of the probe P4SC for the sensation of intracellular CO₃^2? anions. Furthermore, the satisfactory recovery and RSD values obtained for water application confirming that the probe P4SC could be applied to sensing of CO₃^2? ion.