The neutron capture cross-section for ¹⁹¹Ir plays an important role to improve the accuracy of the s-process model, in particular, at branching point where the neutron capture reaction competes with the decay in the s-process. It is however difficult to explain the late stage of stellar evolution due to lack of data and large discrepancies among the neutron capture cross-section data for ¹⁹¹Ir in past measurements. For this reason, we measured neutron capture cross-section for ¹⁹¹Ir in a neutron energy range from 0.01 eV to 1 keV by applying the TOF method with the ANNRI beamline of MLF at the J-PARC. A sample was a pellet of 99.904% enriched ¹⁹¹Ir metal with a diameter of 5 mm and 90.2 mg in weight. The NaI(Tl) detectors equipped at the ANNRI beamline were used for capture yield measurements. The PHWT was applied to derive the ¹⁹¹Ir(n, γ) reaction cross-sections, where the weighting function was normalized by comparing the experimental thermal cross-section of ¹⁹⁷Au with that in JENDL-5. The neutron capture cross-sections of ¹⁹¹Ir were fitted with 1/ν function in a neutron energy from 20 meV to 30 meV, and thermal-neutron capture cross-section of ¹⁹¹Ir was preliminarily determined to be 857.47±38.28 b. When compared with past measurements, the present result agreed with the value by Huang et al. The resonances of ¹⁹¹Ir below 160 eV were examined for the obtained ¹⁹¹Ir(n, γ) cross-sections using the resonance analysis code, REFIT, and the present results were compared with parameters both in past measurements and in JENDL-5. Results showed that the magnitudes of several resonances differed from those in the JENDL-5 data due to the change in the neutron width. I will present detailed results and discuss their impact on astrophysics at the conference presentation.