Banerjee, JayishaJayishaBanerjeeBag, RiyaRiyaBagSikdar, YeasinYeasinSikdarBehera, SnehanjaliSnehanjaliBeheraBhavana, R.R.BhavanaMondal, BiswajitBiswajitMondalLiu, ShutingShutingLiuZhang, PengPengZhangLi, Xiao-LeiXiao-LeiLiTang, JinkuiJinkuiTangGoswami, SanchitaSanchitaGoswami2026-02-252026-02-252026-06-010020-169310.1016/j.ica.2026.123127https://repository.iitgn.ac.in/handle/IITG2025/34666This manuscript demonstrates the synthesis, structure, catalytic activity and magnetism of a trinuclear MnIII − CaIIcomplex which is compositionally relevant to the Oxygen Evolving Complex (OEC) of Photosystem II. The μ–O bridged hetero–metallic complex containing redox–inactive metal ion CaII was synthesized using a tetradentate ligand framework. The complex exhibits water oxidation activity, assessed through electrochemical studies. The icat/ip ratio calculated at 1000 mM H2O and 100 mM OH− was 9.97 and 12, respectively. The turnover frequency (TOF) of the complex was assessed with both H2O and OH− providing the values of 2.41 s − 1 and 3.5 s − 1 respectively. Magnetic susceptibility measurements reveal antiferromagnetic interactions between MnIII centers; within direct current magnetic susceptibility (dc) measurements there was no indication of slow magnetic relaxation. Fitting the full curve with a Heisenberg–Dirac–van Vleck dimer model for two S1 = S2 = 2 centers affords g = 1.834 and an antiferromagnetic exchange constant J = 0.117 cm− 1 . X–band CW–EPR at 77 K exhibits a broad derivative profile; EasySpin simulation reproduces the spectrum with g = 1.834, axial zero–field splitting (ZFS) D2 = − 1.00 cm− 1 and negligible rhombicity, together with an effective isotropic exchange J = 0.336 cm− 1 . The unresolved 55Mn hyperfine sextet is attributed to strong ZFS, exchange, and line broadening. These results contribute to the understanding of biomimetic water oxidation systems and provide a structural framework for designing OEC–inspired functional materials.en-USSchiff base ligandMn�ca complexX�ray diffractionWater oxidation activitySQUID�VSMArticle1873-3255WOS:001698940900001