Development of a photocatalyst with good efficiency and recyclability is demanding heavily to degrade endocrine disrupting chemicals from wastewater. In this study, degradation of an endocrine disrupting agent (pentachlorophenol) is performed by using photocatalysts BiSbO4, BiSbS3 and carbon nanohorns (CNH) modified BiSbO4/BiSbS3 heterostructure nanocomposite (BiSbO4/BiSbS3/CNHs) under visible light. To get structural, morphological, textural insights, the photocatalysts are characterized by XRD, SEM-EDX, TEM, UV, PL, FTIR and BET techniques. Band gap plays a dynamic role in photocatalysts and band gap of photocatalysts is determined to be 3.20, 2.82 and 2.69 eV for BiSbS3, BiSbO4 and BiSbO4/BiSbS3/CNHs respectively. All the photocatalysts show high degradation at pH value of 6. The rate constant (Kapp) and R2 calculated form of pseudo first order reveals that the heterostructure BiSbO4/BiSbS3/CNHs is more efficient in degradation of pentachlorophenol as compared to BiSbO4 and BiSbS3. Among the three photocatalysts, BiSbS3 is observed to be comparatively less efficient because oxides are considered more pivotal in photocatalysis as compared to sulphides. The effect of scavengers shows that all charge carriers are effective, however oxide radicals play a key role during the process of photocatalysis. Photodegradation of pentachlorophenol in the presence of other phenolic pollutants indicates that BiSbO4/BiSbS3/CNHs can be utilized for degradation of other phenolic compounds. Further DFT studies are performed to know degradation behavior of pollutant as well as electrochemical measurements are also executed to illuminate the electrochemical behavior of all photocatalysts for supercapacitor applications.