2015
DOI: 10.1021/ja5068405
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Water-Soluble Fe(II)–H2O Complex with a Weak O–H Bond Transfers a Hydrogen Atom via an Observable Monomeric Fe(III)–OH

Abstract: Understanding the metal ion properties that favor O−H bond formation versus cleavage should facilitate the development of catalysts tailored to promote a specific reaction, e.g., C−H activation or H2O oxidation. The first step in H2O oxidation involves the endothermic cleavage of a strong O−H bond (BDFE = 122.7 kcal/mol), promoted by binding the H2O to a metal ion, and by coupling electron transfer to proton transfer (PCET). This study focuses on details regarding how a metal ion’s electronic structure and lig… Show more

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Cited by 25 publications
(33 citation statements)
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References 88 publications
(269 reference statements)
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“…The pKa of the 3HPA hydroxyl (14.4–15.1) is expected to be much higher than the 3MPA-thiol (∼8) ( 43 ). While it is unlikely that the Fe-bound 3HPA-hydroxyl is deprotonated, pKa values for metal-coordinated water can decrease by several pH units ( 44 , 45 ). To corroborate the ionization state of the 3HPA inhibitor, optimized DFT models for the deprotonated (3HPA 2− )- and protonated (3HPA 1− )-hydroxyl group were made with ferric and ferrous iron for comparison to the crystallographic results ( Table 1 ).…”
Section: Resultsmentioning
confidence: 99%
“…The pKa of the 3HPA hydroxyl (14.4–15.1) is expected to be much higher than the 3MPA-thiol (∼8) ( 43 ). While it is unlikely that the Fe-bound 3HPA-hydroxyl is deprotonated, pKa values for metal-coordinated water can decrease by several pH units ( 44 , 45 ). To corroborate the ionization state of the 3HPA inhibitor, optimized DFT models for the deprotonated (3HPA 2− )- and protonated (3HPA 1− )-hydroxyl group were made with ferric and ferrous iron for comparison to the crystallographic results ( Table 1 ).…”
Section: Resultsmentioning
confidence: 99%
“…A BDFE was determined for Mn III –OH 2 (74 kcal/mol). Conversely, an iron analogue [Fe II (OH 2 ){O Me2 N 4 (tren)}] ( 14 , Figure ) was found to have a weaker BDFE (69 kcal/mol), and consequently its reaction was spontaneous in the direction [Fe II (OH 2 ){O Me2 N 4 (tren)}] + TEMPO → [Fe III (OH){O Me2 N 4 (tren)}] + TEMPOH. In this case the change from Mn to Fe, and the switch from the thiolate to a less electron‐donating alkoxide donor, contributed to the lowering of both E 0 and p K a in 14 in comparison to 13aH , thus weakening the M[O(H)–H] bond.…”
Section: Mn and Fe M–o–x Complexesmentioning
confidence: 99%
“…11,18 Further, the E pa – E pc difference at pH 2.2 decreased as the scan rate decreased, with a Δ E of 68 mV at 2 mV/s (Figure S6 and Table S1). This behavior is indicative of the transfer one proton per electron and that the ferric complex 1 has one hydroxo and one aqua axial ligand over this entire pH range.…”
mentioning
confidence: 97%