In this research work, thin films of BiSbS3 have been successfully synthesized onto well cleaned soda-lima glass substrates via the chemical bath deposition procedure at different thicknesses (t= 159, 243, 296 and 362 nm). The X-ray diffraction patterns of the chemically deposited BiSbS3 films depicted that the synthesized films exposed polycrystalline nature and have an orthorhombic structure. The structural parameters of the chemically deposited BiSbS3 films were evaluated by Debye-Scherer’s formulas. The surface morphologies of the BiSbS3 films were fixed via the field-emission-scanning-electron microscope. The analyses of the linear optical parameters of the chemically deposited BiSbS3 thin films refer to improving the values of the absorption coefficient, α and the linear refractive index, n via the increase in the film thickness. In addition, there is an observed reduction in the energy gap, Eg values from 1.38 to 1.22 eV occurred by raising the film thickness. Furthermore, there is an enhancement in the nonlinear optical constants and the optoelectrical parameters occurred by raising the film thickness where the nonlinear refractive index, \({n}_{2},\)the optical free carrier concentration, \({N}_{opt}\) and the optical conductivity σopt were enlarged with increasing the values of film thickness. Moreover, the hot probe procedure was applied to the BiSbS3 thin films and this method demonstrated that the chemically deposited BiSbS3 films are p-type semiconductors.