Lewis-Acid-Promoted Stoichiometric and Catalytic Oxidations by Manganese Complexes Having Cross-Bridged Cyclam Ligand: A Comprehensive Study

Lewis-Acid-Promoted Stoichiometric and Catalytic Oxidations by Manganese Complexes Having Cross-Bridged Cyclam Ligand: A Comprehensive Study

Redox-inactive metal ions have been recognized to be able to participate in redox metal-ion-mediated biological and chemical oxidative events; however, their roles are still elusive. This work presents how the redox-inactive metal ions affect the oxidative reactivity of a well-investigated manganese...

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Veröffentlicht in:Inorganic chemistry 2013-05, Vol.52 (9), p.5418-5427
Hauptverfasser: Dong, Lei, Wang, Yujuan, Lv, Yanzong, Chen, Zhuqi, Mei, Fuming, Xiong, Hui, Yin, Guochuan
Format: Artikel
Sprache:eng
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Alkenes - chemistry
Catalysis
Coordination Complexes - chemistry
Epoxy Compounds - chemistry
Heterocyclic Compounds - chemistry
Kinetics
Lewis Acids - chemistry
Ligands
Manganese - chemistry
Organophosphorus Compounds - chemistry
Oxidation-Reduction
Sulfoxides - chemistry
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container_end_page 5427
container_issue 9
container_start_page 5418
container_title Inorganic chemistry
container_volume 52
creator Dong, Lei
Wang, Yujuan
Lv, Yanzong
Chen, Zhuqi
Mei, Fuming
Xiong, Hui
Yin, Guochuan
description Redox-inactive metal ions have been recognized to be able to participate in redox metal-ion-mediated biological and chemical oxidative events; however, their roles are still elusive. This work presents how the redox-inactive metal ions affect the oxidative reactivity of a well-investigated manganese(II) with its corresponding manganese(IV) complexes having cross-bridged cyclam ligand. In dry acetone, the presence of these metal ions can greatly accelerate stoichiometric oxidations of triphenylphosphine and sulfides by the manganese(IV) complexes through electron transfer or catalytic sulfoxidations by the corresponding manganese(II) complexes with PhIO. Significantly, the rate enhancements are highly Lewis-acid strength dependent on added metal ions. These metal ions like Al3+ can also promote the thermodynamic driving force of the MnIV–OH moiety to facilitate its hydrogen abstraction from ethylbenzene having a BDECH value of 85 kcal/mol, while it is experimentally limited to 80 kcal/mol for MnIV–OH alone. Adding Al3+ may also improve the manganese(II)-catalyzed olefin epoxidation with PhIO. However, compared with those in electron transfer, improvements in hydrogen abstraction and electron transfer are minor. The existence of the interaction between Lewis acid and the manganese(IV) species was evidenced by the blue shift of the characteristic absorbance of the manganese(IV) species from 554 to 537 nm and by converting its EPR signal at g = 2.01 into a hyperfine 6-line signal upon adding Al3+ (I = 5/2). Cyclic voltammograms of the manganese(IV) complexes reveal that adding Lewis acid would substantially shift its potential to the positive direction, thus enhancing its oxidizing capability.
doi_str_mv 10.1021/ic400361s
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subjects Alkenes - chemistry
Catalysis
Coordination Complexes - chemistry
Epoxy Compounds - chemistry
Heterocyclic Compounds - chemistry
Kinetics
Lewis Acids - chemistry
Ligands
Manganese - chemistry
Organophosphorus Compounds - chemistry
Oxidation-Reduction
Sulfoxides - chemistry
title Lewis-Acid-Promoted Stoichiometric and Catalytic Oxidations by Manganese Complexes Having Cross-Bridged Cyclam Ligand: A Comprehensive Study
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