Luca Steiner scite author profile

A six‐membered phosphabenzene contracts to a five‐membered hydroxylphospholene oxide in the presence of hydrochloric acid. This unusual reaction can only proceed because the special electronic properties of phosphinines, in combination with the particular reactivity of low‐coordinate organophosphorus species, allow sequential reactions at the aromatic phosphorus heterocycles; this is in clear contrast to functionalized pyridines. More information can be found in the Research Article by C. Müller and co‐workers (DOI: 10.1002/chem.202203406).

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Exciton Coupling and Conformational Changes Impacting the Excited State Properties of Metal Organic Frameworks

Windischbacher

Steiner

Haldar

et al. 2020

Molecules

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In recent years, the photophysical properties of crystalline metal-organic frameworks (MOFs) have become increasingly relevant for their potential application in light-emitting devices, photovoltaics, nonlinear optics and sensing. The availability of high-quality experimental data for such systems makes them ideally suited for a validation of quantum mechanical simulations, aiming at an in-depth atomistic understanding of photophysical phenomena. Here we present a computational DFT study of the absorption and emission characteristics of a Zn-based surface-anchored metal-organic framework (Zn-SURMOF-2) containing anthracenedibenzoic acid (ADB) as linker. Combining band-structure and cluster-based simulations on ADB chromophores in various conformations and aggregation states, we are able to provide a detailed explanation of the experimentally observed photophysical properties of Zn-ADB SURMOF-2: The unexpected (weak) red-shift of the absorption maxima upon incorporating ADB chromophores into SURMOF-2 can be explained by a combination of excitonic coupling effects with conformational changes of the chromophores already in their ground state. As far as the unusually large red-shift of the emission of Zn-ADB SURMOF-2 is concerned, based on our simulations, we attribute it to a modification of the exciton coupling compared to conventional H-aggregates, which results from a relative slip of the centers of neighboring chromophores upon incorporation in Zn-ADB SURMOF-2.

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Phospholenes from Phosphabenzenes by Selective Ring Contraction

Lin

Coles

Dettling

et al. 2022

Chemistry A European J

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A 3-amino-functionalized phosphabenzene (phosphinine) has been synthesized and structurally characterized. The pyramidalized nitrogen atom of the dimethylamino substituent indicates only a weak interaction between the lone pair of the nitrogen atom and the aromatic phosphorus heterocycle, resulting in somewhat basic character. It turned out that the amino group can indeed be protonated by HCl.In contrast to pyridines, however, the phosphabenzeneammonium salt undergoes a selective ring contraction to form a hydroxylphospholene oxide in the presence of additional water. Based on deuterium labeling experiments and quantum chemical calculations, a rational mechanism for this hitherto unknown conversion is proposed.

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Samarium Diiodide Acting on Acetone—Modeling Single Electron Transfer Energetics in Solution

Steiner

Achazi²,

Vlaisavljevich³

et al. 2022

Molecules

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Samarium diiodide is a versatile single electron transfer (SET) agent with various applications in organic chemistry. Lewis structures regularly insinuate the existence of a ketyl radical when samarium diiodide binds a carbonyl group. The study presented here investigates this electron transfer by the means of computational chemistry. All electron CASPT2 calculations with the inclusion of scalar relativistic effects predict an endotherm electron transfer from samarium diiodide to acetone. Energies calculated with the PBE0-D3(BJ) functional and a small core pseudopotential are in good agreement with CASPT2. The calculations confirm the experimentally measured increase of the samarium diiodide reduction potential through the addition of hexamethylphosphoramide also known as HMPA.

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Luca Steiner

Cover Feature: Phospholenes from Phosphabenzenes by Selective Ring Contraction (Chem. Eur. J. 72/2022)

Exciton Coupling and Conformational Changes Impacting the Excited State Properties of Metal Organic Frameworks

Phospholenes from Phosphabenzenes by Selective Ring Contraction

Samarium Diiodide Acting on Acetone—Modeling Single Electron Transfer Energetics in Solution

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