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Article Abstract
In recent times, the theoretical prediction of catalytic efficiency is of utmost urgency. With the advent of density functional theory (DFT), reliable computations can delineate a quantitative aspect of the study. To this state-of-the-art approach, valuable incorporation would be a tool that can acknowledge the efficiency of a catalyst. In the current work, we developed the efficiency conceptualization model (ECM) that utilizes the quantum mechanical tool to achieve efficiency in terms of turnover frequency (TOF). Twenty-six experimentally designed transition metal (TM) water oxidation catalysts were chosen under similar experimental conditions of temperature, pressure, and pH to execute the same. The computations conclude that the Fe-based [Fe(OTf)(MePytacn)] (MWOC-17) is a highly active catalyst and, therefore, can endure for more time in the catalytic cycle. Our results conclude that the Ir-based catalysts [CpIr(κ-N,O)X] with MWOC-23: X=Cl; and MWOC-24: X=NO report the highest computed turnover numbers (TONs), of 406 and 490 against the highest experimental TONs, of 1200 and 2000 respectively, whereas the Co-based [Co(12-TMC)] (MWOC-19) has the lowest TONs ( =19, τ=16) among the chosen catalysts and thereby successful in corroborating the previous experimental results.
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