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Mahmud Abu-Odeh Dr. Katharina Bleher Neethinathan Johnee Britto Prof. Dr. Peter Comba Dr. Michael Gast Prof. Madhavan Jaccob Dr. Marion Kerscher Dr. Saskia Krieg Marius Kurth 《Chemistry (Weinheim an der Bergstrasse, Germany)》2021,27(44):11377-11390
The nonheme iron(IV)-oxido complex trans-N3-[(L1)FeIV=O(Cl)]+, where L1 is a derivative of the tetradentate bispidine 2,4-di(pyridine-2-yl)-3,7-diazabicyclo[3.3.1]nonane-1-one, is known to have an S=1 electronic ground state and to be an extremely reactive oxidant for oxygen atom transfer (OAT) and hydrogen atom abstraction (HAA) processes. Here we show that, in spite of this ferryl oxidant having the “wrong” spin ground state, it is the most reactive nonheme iron model system known so far and of a similar order of reactivity as nonheme iron enzymes (C−H abstraction of cyclohexane, −90 °C (propionitrile), t1/2=3.5 sec). Discussed are spectroscopic and kinetic data, supported by a DFT-based theoretical analysis, which indicate that substrate oxidation is significantly faster than self-decay processes due to an intramolecular demethylation pathway and formation of an oxido-bridged diiron(III) intermediate. It is also shown that the iron(III)-chlorido-hydroxido/cyclohexyl radical intermediate, resulting from C−H abstraction, selectively produces chlorocyclohexane in a rebound process. However, the life-time of the intermediate is so long that other reaction channels (known as cage escape) become important, and much of the C−H abstraction therefore is unproductive. In bulk reactions at ambient temperature and at longer time scales, there is formation of significant amounts of oxidation product – selectively of chlorocyclohexane – and it is shown that this originates from oxidation of the oxido-bridged diiron(III) resting state. 相似文献
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Saskia Stegmaier Thomas F. Fssler 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2012,124(11):2701-2704
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S Stegmaier M Waibel A Henze LA Jantke AJ Karttunen TF Fässler 《Journal of the American Chemical Society》2012,134(35):14450-14460
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Scharfe S Kraus F Stegmaier S Schier A Fässler TF 《Angewandte Chemie (International ed. in English)》2011,50(16):3630-3670
For a long time, Zintl ions of Group 14 and 15 elements were considered to be remarkable species domiciled in solid-state chemistry that have unexpected stoichiometries and fascinating structures, but were of limited relevance. The revival of Zintl ions was heralded by the observation that these species, preformed in solid-state Zintl phases, can be extracted from the lattice of the solids and dissolved in appropriate solvents, and thus become available as reactants and building blocks in solution chemistry. The recent upsurge of research activity in this fast-growing field has now provided a rich plethora of new compounds, for example by substitution of these Zintl ions with organic groups and organometallic fragments, by oxidative coupling reactions leading to dimers, oligomers, or polymers, or by the inclusion of metal atoms under formation of endohedral cluster species and intermetalloid compounds; some of these species have good prospects in applications in materials science. This Review presents the enormous progress that has been made in Zintl ion chemistry with an emphasis on syntheses, properties, structures, and theoretical treatments. 相似文献
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We study magnetohydrodynamic flow of a liquid metal in a straight duct. The magnetic field is produced by an exterior magnetic dipole. This basic configuration is of fundamental interest for Lorentz force velocimetry (LFV), where the Lorentz force opposing the relative motion of conducting medium and magnetic field is measured to determine the flow velocity. The Lorentz force acts in equal strength but opposite direction on the flow as well as on the dipole. We are interested in the dependence of the velocity on the flow rate and on strength of the magnetic field as well as on geometric parameters such as distance and position of the dipole relative to the duct. To this end, we perform numerical simulations with an accurate finite-difference method in the limit of small magnetic Reynolds number, whereby the induced magnetic field is assumed to be small compared with the external applied field. The hydrodynamic Reynolds number is also assumed to be small so that the flow remains laminar. The simulations allow us to quantify the magnetic obstacle effect as a potential complication for local flow measurement with LFV. (© 2011 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
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Eduard P.A. Van Wijk Roeland Van Wijk Saskia Bosman 《Journal of photochemistry and photobiology. B, Biology》2010,98(3):199-206
Exposure of skin to ultraviolet (UV) radiation triggers oxidative stress in skin tissue that can lead to erythema, early skin aging or even cancer. It is suggested that oligomeric proanthocyanidins (OPCs), phytonutrients that belong to the polyphenol family have an anti-oxidant/anti-inflammatory activity on the skin. Measuring ultra-weak photon emission (UPE) is a non-invasive, fairly-sensitive and convenient technique for continuously monitoring oxidative stress. The present study was undertaken to confirm anti-oxidant activity of the specific OPCs cream formulation in human skin by measuring UPE of skin. In the present study 25 healthy female subjects participated. As a baseline measurement of skin, UPE was recorded from the dorsal surface of the subjects’ hands before (spontaneous UPE) and after exposure to UV (UV-induced UPE). The effects of the OPCs cream on spontaneous and UV-induced UPE were measured using a fractionated UV exposure protocol. UV exposure resulted in an increase in UPE from both hands. Repeat UV exposure also resulted in a long-term increase of spontaneous UPE. This is likely due to depletion of anti-oxidant capacity of skin resulting in sensitization of skin to UV. It was assessed by measuring spontaneous UPE at 80 min after each UV exposure. Application of the OPCs cream immediately after UV exposure resulted in a significant (approx. 30%) decrease in UV-induced UPE. Topical OPCs cream application also reduced sensitization of skin to UV following repeated UV exposure (i.e., reduced long-term increase in spontaneous UPE). This study indicates that the specific OPCs cream formulation significantly decreases UV-induced oxidative stress in human skin based on UPE measurement. It therefore suggests that regular use of this OPCs cream might protect skin from harmful effects of UV. 相似文献