Environmental Sustainability Study for the Determination of Ketoprofen in the Presence of Its Main Photo-Degradation Products in River Water Using Solid-Contact Electrodes

A major objective in recent years has been the use of membrane sensors for the purpose of monitoring and recognizing environmental pollutants in pharmaceuticals. Ketoprofen (KTP) is likely to be found in the environment, particularly in surface water bodies like rivers, because of its extensive use in medicine. The photodegradability of KTP and the prolonged exposure of river water to sunlight may facilitate its photodegradation. To measure KTP along with its main photo-degradation products, three membrane electrodes were fabricated using different plasticizers. Dioctyl phthalate (DOP), dibutyl sebacate (DBS), and o-nitrophenyloctyl ether (o-NPOE) membrane electrodes were constructed for the selective analysis of the investigated medication. The fabricated sensors were prepared using tetraoctyl ammonium chloride as an ion-pairing agent. A linear range of 1 × 10⁻⁵ M to 1 × 10⁻¹ M was shown by the electrodes. The slopes (in mV/decade) for the DOP, DBS, and o-NPOE membranes were −58.80 ± 0.90, −57.90 ± 0.80, and −56.80 ± 1.10, respectively. All test parameters were refined to enhance electrochemical performance. The synthesized membranes were successfully utilized to accurately measure KTP amidst its primary photodegradants. The fabricated sensors were effectively utilized to measure KTP in river water samples without requiring pre-treatment processes.