2022
DOI: 10.1021/acs.inorgchem.1c03104
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Structure and Reactivity of Nonporphyrinic Terminal Manganese(IV)–Hydroxide Complexes in the Oxidative Electrophilic Reaction

Abstract: High-valent transition metal–hydroxide complexes have been proposed as essential intermediates in biological and synthetic catalytic reactions. In this work, we report the single-crystal X-ray structure and spectroscopic characteristics of a mononuclear nonporphyrinic MnIV–(OH) complex, [MnIV(Me3-TPADP)­(OH)­(OCH2CH3)]2+ (2), using various physicochemical methods. Likewise, [MnIV(Me3-TPADP)­(OH)­(OCH2CF3)]2+ (3), which is thermally stable at room temperature, was also synthesized and characterized spectroscopi… Show more

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Cited by 7 publications
(6 citation statements)
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“…The ligand L1, including its analogues bearing various Nalkyl groups and pyridyl ring substituents, forms 6-coordinate distorted octahedral complexes with Mn IV , 26 Fe II , 15,17,27 Fe III , 27,28 Co II , 29 Co III , 25 Ni II (high-spin), 30 and Ni III . 30 Interestingly, and also found here, Cu II only forms 5coordinate complexes with L1 and its derivatives.…”
Section: ■ Introductionmentioning
confidence: 99%
“…The ligand L1, including its analogues bearing various Nalkyl groups and pyridyl ring substituents, forms 6-coordinate distorted octahedral complexes with Mn IV , 26 Fe II , 15,17,27 Fe III , 27,28 Co II , 29 Co III , 25 Ni II (high-spin), 30 and Ni III . 30 Interestingly, and also found here, Cu II only forms 5coordinate complexes with L1 and its derivatives.…”
Section: ■ Introductionmentioning
confidence: 99%
“…Literature highlights Mn IV =O species show Raman band in the range of 700-750 cm À 1 (e. g. [(BQCN)Mn IV =O] 2 + (where BQCN = N,N'-dimethyl-N,N'-bis(8-quinolyl)cyclohexane-1,2-diamine) at 707 cm À 1 ), [28] while few reported cases for Mn V =O to exhibit the band around 755 cm À 1 and Mn V � O's above 900 cm À 1 (Table S4). [6,15,[29][30][31][32] The appearance of the band at 840 cm À 1 in 2 a, however, is distinct and a plausible candidate for a terminal Mn=O stretch in the complex. Thus, to verify whether the 840 cm À 1 band is originated from a Mn=O, the rRaman experiments were performed in the presence of 18 O-labeled water.…”
Section: Resultsmentioning
confidence: 95%
“…From Figure 3, it is evident that 2 a and 2 b share several common bands, indicating the presence of m ‐Cl‐salicylate coordinated to the Mn centre. Literature highlights Mn IV =O species show Raman band in the range of 700–750 cm −1 (e. g. [(BQCN)Mn IV =O] 2+ (where BQCN= N,N′ ‐dimethyl‐ N,N′ ‐bis(8‐quinolyl)cyclohexane‐1,2‐diamine) at 707 cm −1 ), [28] while few reported cases for Mn V =O to exhibit the band around 755 cm −1 and Mn V ≡O's above 900 cm −1 (Table S4) [6,15,29–32] . The appearance of the band at 840 cm −1 in 2 a , however, is distinct and a plausible candidate for a terminal Mn=O stretch in the complex.…”
Section: Resultsmentioning
confidence: 99%
“…In biomimetic chemistry, the aim is to develop bioinspired and environmentally benign catalysts by utilizing reactive metal-oxygen species. The C–H bond activation by synthetic high-valent metal-oxo species has been intensively investigated through detailed experimental and theoretical studies. For instance, high-valent iron and manganese-oxo species carry out C–H functionalization of aliphatic hydrocarbons, which have C–H bond dissociation energy in the range of 77–99.5 kcal/mol. ,,, The generally accepted mechanism in the hydroxylation is the hydrogen atom transfer (HAT), where the initial hydrogen abstraction step is followed by fast oxygen rebound of substrate radical species. , In some cases, after rate-determining HAT, the dissociation pathway of substrate radical species is preferred rather than the oxygen-rebound process. , There are a few examples of electrophilic oxidation reactions of anthracene by metal-oxo complexes .…”
Section: Introductionmentioning
confidence: 99%
“…Recently, metal-hydroxo species have also been recognized as critical intermediates in the catalytic event of metalloenzymes such as lipoxygenase (LOX). , Mn-LOX enzyme is proposed to oxidize C–H bonds of polyunsaturated fatty acids, where Mn III -hydroxo species performs the rate-determining hydrogen atom abstraction. Several mid- and high-valent metal-hydroxo complexes have been synthesized and spectroscopically characterized.…”
Section: Introductionmentioning
confidence: 99%