Jan Hendrik Nissen scite author profile

Jan Hendrik Nissen

2Publications

32Citation Statements Received

92Citation Statements Given

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107

Affiliations

Laboratoire de Chimie Moléculaire et Thioorganique, Bielefeld University

Publications

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Poly‐Boron, ‐Silicon, and ‐Gallium Lewis Acids by Hydrometallation of 1,5‐ and 1,8‐Dialkynylanthracenes

et al. 2014

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1,5‐Dialkynylanthracenes and 1,8‐dialkynylanthracenes have been functionalised by a series of hydrometallation reactions, namely, hydrosilylation, hydroboration and hydrogallation. Nine anthracene‐based Lewis acidic compounds with a semiflexible organic framework bearing SiCl3, SiCl2Me, SiClMe2, B(C6F5)2 and GaCl2 substituents were obtained. In all cases, the substrate could be functionalised twice, and bidentate Lewis acids were obtained. By using Piers' borane [HB(C6F5)2], a fourfold‐substituted anthracene species functionalised with four extremely electronegatively substituted boron atoms could be generated in quantitative yield. All of the poly‐Lewis acids were characterised by multinuclear NMR spectroscopy and, in part, by mass spectrometry and X‐ray diffraction experiments.

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Intramolecular Lewis pairs with two acid sites – reactivity differences between P- and N-based systems

et al. 2016

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The doubly acid-functionalised aniline PhN[(CH)B(CF)] shows rapidly exchanging boron acid groups at the central base function and is an active frustrated Lewis pair due to cooperative hydride binding by both Lewis acids. Here we report investigations on the effect of different substituents at the central nitrogen atom and on the effect of exchanging nitrogen by phosphorus. Treatment of diallyl-tert-butylaniline with one equivalent of HB(CF) led to formation of a seven-membered iminium hydridoborate ring; after mono-hydroboration the intermediately formed frustrated Lewis pair reacts with the second allylamine function under ring closure. Phosphorus based Lewis pairs with two acid sites were prepared by hydroboration of diallylphenylphosphane and diallyl-tert-butylphosphane. Unlike the aniline PhN[(CH)B(CF)] the doubly hydroborated species (Bu/Ph)P[(CH)B(CF)] show no dynamic exchange of the boron Lewis acid functions in solution and are not catalytically active in terms of H/D-scrambling as well as hydrogenation reactions. Quantum-chemical investigations revealed the B-P bond dissociation Gibbs free energy to be much larger than those of the nitrogen analogue. The absence of an active open form in solution prevents an activity in heterolytic hydrogen splitting.

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