Your search keyword '"Thiess, Torsten"' showing total 40 results

1. Reactions of diborenes with terminal alkynes: mechanisms of ligand-controlled anti-selective hydroalkynylation, cycloaddition and C <svg xmlns='http://www.w3.org/2000/svg' version='1.0' width='23.636364pt' height='16.000000pt' viewBox='0 0 23.636364 16.000000' preserveAspectRatio='xMidYMid meet'><metadata> Created by potrace 1.16, written by Peter Selinger 2001-2019 </metadata><g transform='translate(1.000000,15.000000) scale(0.015909,-0.015909)' fill='currentColor' stroke='none'><path d='M80 600 l0 -40 600 0 600 0 0 40 0 40 -600 0 -600 0 0 -40z M80 440 l0 -40 600 0 600 0 0 40 0 40 -600 0 -600 0 0 -40z M80 280 l0 -40 600 0 600 0 0 40 0 40 -600 0 -600 0 0 -40z'/></g></svg> C triple bond scission†

Author

Englert, Lukas, Schmidt, Uwe, Dömling, Michael, Passargus, Max, Stennett, Tom E., Hermann, Alexander, Arrowsmith, Merle, Härterich, Marcel, Müssig, Jonas, Phillipps, Alexandra, Prieschl, Dominic, Rempel, Anna, Rohm, Felix, Radacki, Krzysztof, Schorr, Fabian, Thiess, Torsten, Jiménez-Halla, J. Oscar C., and Braunschweig, Holger

Subjects

Chemistry

Abstract

The reactions of terminal acetylenes with doubly Lewis base-stabilised diborenes resulted in different outcomes depending on the nature of the ligands at boron and the conformation of the diborene (cyclic versus acyclic). N-heterocyclic carbene (NHC)-stabilised diborenes tended to undergo anti-selective hydroalkynylation at room temperature, whereas [2 + 2] cycloaddition was observed at higher temperatures, invariably followed by a C–N bond activation at one NHC ligand, leading to the ring-expansion of the initially formed BCBC ring and formation of novel boron-containing heterocycles. For phosphine-stabilised diborenes only [2 + 2] cycloaddition was observed, followed by a rearrangement of the resulting 1,2-dihydro-1,2-diborete to the corresponding 1,3-isomer, which amounts to complete scission of both the B Created by potrace 1.16, written by Peter Selinger 2001-2019 B double and CC triple bonds of the reactants. The elusive 1,2-isomer was finally trapped by using a cyclic phosphine-stabilised diborene, which prevented rearrangement to the 1,3-isomer. Extensive density functional theory (DFT) calculations provide a rationale for the selectivity observed., The outcome of reactions between diborenes and terminal alkynes can be tuned by varying the stabilising Lewis base and/or reaction conditions, to yield either the anti-hydroalkynylation product or [2 + 2] cycloaddition-derived boron heterocycles.

Published

2021

2. Synthesis and Fluorescence Studies of Diborene Coinage Metal Complexes

Author

Dömling, Michael, primary, Stennett, Tom E., additional, Belyaev, Andrey, additional, Hupp, Benjamin, additional, Claes, Christina, additional, Ullrich, Stefan, additional, Endres, Sebastian, additional, Freytag, Emely, additional, Kramer, Thomas, additional, Kupfer, Thomas, additional, Schorr, Fabian, additional, Thiess, Torsten, additional, Arrowsmith, Merle, additional, Steffen, Andreas, additional, and Braunschweig, Holger, additional

Published

2022

3. Evidence for Borylene Carbonyl (LHB═C═O) and Base-Stabilized (LHB═O) and Base-Free Oxoborane (RB≡O) Intermediates in the Reactions of Diborenes with CO2

Author

Stoy, Andreas, primary, Härterich, Marcel, additional, Dewhurst, Rian D., additional, Jiménez-Halla, J. Oscar C., additional, Endres, Peter, additional, Eyßelein, Maximilian, additional, Kupfer, Thomas, additional, Deissenberger, Andrea, additional, Thiess, Torsten, additional, and Braunschweig, Holger, additional

Published

2022

4. Controlled Synthesis of Oligomers Containing Main‐Chain B(sp2)‐B(sp2) Bonds

Author

Schorr, Fabian, primary, Schopper, Nils, additional, Riensch, Nicolas, additional, Fantuzzi, Felipe, additional, Neder, Marco, additional, Dewhurst, Rian D., additional, Thiess, Torsten, additional, Brückner, Tobias, additional, Hammond, Kai, additional, Helten, Holger, additional, Finze, Maik, additional, and Braunschweig, Holger, additional

Published

2021

5. Synthesis and reactivity of 1,4-diaza-2,3-diborinines

Author

Thiess, Torsten

Subjects

Heterocyclische Verbindungen, ddc:546

Abstract

In der vorliegenden Arbeit wurde die Synthese, Funktionalisierung und Reaktivität von 1,4,2,3-Diazadiborininen untersucht. Zu Beginn sollten Bis(dimethylamino)-substituierte Diazadiborinine mit unterschiedlichen Resten an den Stickstoffatomen dargestellt werden, deren weitere Funktionalisierung später im Fokus stand. Die Synthese erfolgte durch Reduktion von 1,4-Diazabutadienen mit elementarem Lithium und anschließender Salzeliminierungsreaktion mit B2(NMe2)2Cl2. Dadurch ließen sich die monocyclischen vier N,N’-Diaryl-substituierten Diazadiborinine sowie ein Alkyl-substituiertes Diazadiborinin darstellen. Durch etablierte Methoden der Diboran(4)-Chemie wurden diese in ihre Halogenderivate (Cl, Br, I) überführt. Aus diesen konnten drei 2,3-Diazido-1,4,2,3-diazadiborinine durch Umsetzung mit TMSN3 aus den Dihalogenderivaten dargestellt werden. Diese stellen hierbei die ersten isolierten Diboran(4)azidverbindugen dar. Ebenso gelang die Synthese eines bicyclischen Naphthalinisosters, welches erneut erfolgreich in seine Halogenderivate sowie das Diazdidoderivat überführt werden konnte. Einen Einblick in den Mechanismus der 1,4,2,3-Diazadiborininbildung ermöglichte die Isolierung eines Diazadiboretidinintermediats, welches durch doppelte Salzeliminierung entsteht. Dieses erwies sich jedoch als metastabil und lagerte zum Sechsring Diazadiborinin um. Quantenchemische Berechnungen unterstutzten die experimentellen Befunde. Über Kommutierungsreaktionen konnte eine Vielzahl an B,B‘-unsymmetrisch substituierten Diazadiborininen dargestellt und isoliert werden, wobei je nach verwendeten Startmaterialien entweder Gleichgewichtsreaktionen oder quantitative Umsetzungen beobachtet wurden. Ebenso wurde die Reaktivität der neuartigen Diazidodiborane(4) gegenüber Lewis-Basen untersucht. Sowohl das monocyclische Diazadiborinin, als auch das Benzodiazadiborinin konnten mit NHC-Basen zu den fünf verschiedenen Addukten umgesetzt werden. Unter thermischer Belastung wurde bei den monocyclischen Addukten eine Staudinger-artige Reaktion beobachtet, die unter Freisetzung von N2 zur Bildung von Guanadin-substituierten Diborane(4) führte. Die Benzodiazadiborininaddukte zeigten jedoch eine gänzlich andere Reaktivität. Hier fand eine Ringverkleinerungsreaktion unter Bildung von Diazaborolen statt, welche unter Wanderung einer Azidfunktion auf das NHC-stabilisierte Boratom gebildet wurden. Auf diese Weise konnten drei 1,1-Diamino-2,2-diazidodiborane(5) isoliert werden. Während bei der Umsetzung des Naphtalenderivats mit cAAC keine selektive Reaktion beobachtet wurde, reagierte das monocyclische Diazadiborinin mit zwei Äquivalenten cAAC. Hier bedingte das erste Carbon eine Staudinger-artige Reaktion, die unter Distickstofffreisetzung zu einem Formamidin führte. Die zweite Azidgruppe wurde am $\gamma$-Stickstoffatom von einem weiteren Äquivalent cAAC koordiniert. In weiteren Reaktivitätsstudien wurde die Generierung von transienten Iminoboranen aus Diazidodiazadiborininen untersucht. Die Diazide zeigten bei Temperaturen von über 150 °C ein sehr selektives Reaktionsverhalten und gingen unter Freisetzung von Distickstoff zu 1,3,2,4-Diazadiboretidin über, wobei dies über die Dimerisierung eines intermediär gebildeten siebengliedrigen, endocyclischen Iminoborans verlief. Der Mechanismus zur Bildung der transienten Iminoborane wurde anhand zweier möglicher Bildungswege mit quantenchemischen Methoden untersucht. Im letzten Kapitel wurde die Reaktivität des Dihydrodiazadiborinins gegenüber NHC- und cAAC-Lewis-Basen untersucht. Die Umsetzung mit cAAC führte zu einer B–H-Bindungsaktivierung durch das Carbenkohlenstoffatom, die vermutlich über eine Adduktspezies verläuft. Mit dem gesättigten NHC SIMes wurde ebenfalls keine Adduktbildung beobachtet, auch wenn ein derartiges Intermediat vermutlich durchlaufen wird. Als Produkt der Umsetzung wurde indes ein bicyclisches Molekül identifiziert, welches durch doppelte Ringerweiterung gebildet wurde. Mit ungesättigten NHCs wurden drei Addukte isoliert, welche jedoch nur metastabil waren und beim Erwärmen in bicyclische Verbindungen umlagerten. Die Umlagerungsprodukte konnten weiterhin durch Koordination eines weiteren Äquivalents IMe an die B–H-Funktionalität erneut zu Addukten umgesetzt werden. Die Bildung der zweier bicyclischer Verbindungen wurde ebenfalls mit quantenchemischen Methoden untersucht, wobei ein vierstufiger Prozess durchlaufen wird. Nach der Bildung des NHC-Addukts erfolgt die Übertragung eines Hydrids auf das Carbenkohlenstoffatom. Durch Insertion eines Boratoms in die NC-Bindung des Carbenrings wird eine Spiroverbindung gebildet und im letzten Schritt folgt die Spaltung der BB-Bindung durch Insertion des ehemaligen Carbenkohlenstoffatoms, was zur Bildung der Bicyclen führt., In the present work the synthesis, functionalization and reactivity of 1,4,2,3-diazadiborinines was investigated. Initially, bis(dimethylamino)-substituted diazadiborinines with different residues on the nitrogen atoms were to be synthesized, whose further functionalization was later in focus. The synthesis was performed by reduction of 1,4-diazabutadienes with elemental lithium and subsequent salt elimination reaction with B2(NMe2)2Cl2. Thus, the monocyclic four N,N'-diaryl-substituted diazadiborinines and one alkyl-substituted diazadiborinine could be prepared. By established methods of diborane(4) chemistry, these were converted into their halogen derivatives (Cl, Br, I). From these, three 2,3-diazido-1,4,2,3-diazadiborinines could be prepared by reaction with TMSN3 from the dihalogen derivatives. These represent the first isolated diborane(4)azide compounds. The synthesis of a bicyclic naphthalene isoster was also successful, which could again be successfully converted into its halogen derivatives as well as the diazdido derivative. An insight into the mechanism of 1,4,2,3-diazadiborinine formation was gained by isolating a diazadiboretidine intermediate, which is formed by double salt elimination. However, this proved to be metastable and rearranged to the six-membered ring of diazadiborinine. Quantum chemical calculations supported the experimental findings. Via commutation reactions, a large number of B,B'-unsymmetrically substituted diazadiborinines could be represented and isolated. Depending on the starting materials used, either equilibrium reactions or quantitative conversions were observed. The reactivity of the novel diazidodiboranes(4) to Lewis bases was also investigated. Both the monocyclic diazadiborinine and the benzodiazadiborinine could be converted with NHC bases to the five different adducts. Under thermal stress a Staudinger-like reaction was observed in the monocyclic adducts, which led to the formation of guanadine-substituted diboranes(4) with the release of N2. However, the benzodiazadiborinine adducts showed a completely different reactivity. Here, a ring reduction reaction took place with formation of diazaborols, which were formed by migration of an azide function to the NHC-stabilized boron atom. In this way, three 1,1-diamino-2,2-diazidodiboranes(5) could be isolated. While no selective reaction was observed during the reaction of the naphthalene derivative with cAAC, the monocyclic diazadiborinine reacted with two equivalents of cAAC. In this case, the first carbon caused a Staudinger-like reaction, which led to the release of dinitrogen to formamidine. The second azide group was coordinated at the $\gamma$ nitrogen atom by another equivalent cAAC. In further reactivity studies the generation of transient iminoboranes from diazidodiazadiborinines was investigated. The diazides showed a highly selective reaction behavior at temperatures above 150 °C and converted to 1,3,2,4-diazadiboretidine with the release of dinitrogen. This was achieved by dimerization of an intermediately formed seven-membered endocyclic iminoborane. The mechanism for the formation of the transient iminoboranes was investigated by quantum chemical methods on the basis of two possible formation pathways. In the last chapter the reactivity of dihydrodiazadiborinine towards NHC and cAAC Lewis bases were investigated. The reaction with cAAC resulted in B-H bond activation by the carbene carbon atom, which is thought to be via an adduct species. No adduct formation was observed with the saturated NHC SIMes either, although such an intermediate is likely to be passed through. However, a bicyclic molecule formed by double ring extension was identified as the product of the reaction. Three adducts were isolated with unsaturated NHCs, but they were only metastable and rearranged into bicyclic compounds upon heating. The rearrangement products were further converted back to adducts by coordinating another equivalent IMe to the B-H functionality. The formation of the two bicyclic compounds was also investigated by quantum chemical methods, whereby a four-step process is used. After formation of the NHC adduct, a hydride is transferred to the carbene carbon atom. By insertion of a boron atom into the NC bond of the carbene ring a spiro compound is formed and in the last step the BB bond is cleaved by insertion of the former carbene carbon atom, which leads to the formation of the bicycles.

Published

2021

6. Synthese und Reaktivität von 1,4-Diaza-2,3-diborininen

Author

Thiess, Torsten

Subjects

546 Anorganische Chemie

Published

2021

7. Reactions of diborenes with terminal alkynes: mechanisms of ligand-controlled anti-selective hydroalkynylation, cycloaddition and CC triple bond scission

Author

Englert, Lukas, primary, Schmidt, Uwe, additional, Dömling, Michael, additional, Passargus, Max, additional, Stennett, Tom E., additional, Hermann, Alexander, additional, Arrowsmith, Merle, additional, Härterich, Marcel, additional, Müssig, Jonas, additional, Phillipps, Alexandra, additional, Prieschl, Dominic, additional, Rempel, Anna, additional, Rohm, Felix, additional, Radacki, Krzysztof, additional, Schorr, Fabian, additional, Thiess, Torsten, additional, Jiménez-Halla, J. Oscar C., additional, and Braunschweig, Holger, additional

Published

2021

8. Evidence for Borylene Carbonyl (LHBCO) and Base-Stabilized (LHBO) and Base-Free Oxoborane (RBO) Intermediates in the Reactions of Diborenes with CO2.

Author

Stoy, Andreas, Härterich, Marcel, Dewhurst, Rian D., Jiménez-Halla, J. Oscar C., Endres, Peter, Eyßelein, Maximilian, Kupfer, Thomas, Deissenberger, Andrea, Thiess, Torsten, and Braunschweig, Holger

Published

2022

9. Diborane(4) Azides: Surprisingly Stable Sources of Transient Iminoboranes

Author

Thiess, Torsten, primary, Bélanger‐Chabot, Guillaume, additional, Fantuzzi, Felipe, additional, Michel, Maximilian, additional, Ernst, Moritz, additional, Engels, Bernd, additional, and Braunschweig, Holger, additional

Published

2020

10. Diboran(4)azide als stabile Quelle für kurzlebige Iminoborane

Author

Thiess, Torsten, primary, Bélanger‐Chabot, Guillaume, additional, Fantuzzi, Felipe, additional, Michel, Maximilian, additional, Ernst, Moritz, additional, Engels, Bernd, additional, and Braunschweig, Holger, additional

Published

2020

11. Facile Access to Substituted 1,4‐Diaza‐2,3‐Diborinines

Author

Thiess, Torsten, primary, Ernst, Moritz, additional, Kupfer, Thomas, additional, and Braunschweig, Holger, additional

Published

2020

12. Diverse ring-opening reactions of rhodium η4-azaborete complexes

Author

Heß, Merlin, primary, Stennett, Tom E., additional, Fantuzzi, Felipe, additional, Bertermann, Rüdiger, additional, Schock, Marvin, additional, Schäfer, Marius, additional, Thiess, Torsten, additional, and Braunschweig, Holger, additional

Published

2020

13. Controlled Synthesis of Oligomers Containing Main‐Chain B(sp2)‐B(sp2) Bonds.

Author

Schorr, Fabian, Schopper, Nils, Riensch, Nicolas, Fantuzzi, Felipe, Neder, Marco, Dewhurst, Rian D., Thiess, Torsten, Brückner, Tobias, Hammond, Kai, Helten, Holger, Finze, Maik, and Braunschweig, Holger

Subjects

OLIGOMERIZATION, NUCLEAR magnetic resonance spectroscopy, HYDROBORATION, ORGANIC solvents, DIBORANE

Abstract

A number of novel alkynyl‐functionalized diarylbis(dimethylamino)diboranes(4) are prepared by salt metathesis, and the appended alkynyl groups are subjected to hydroboration. Their reactions with monohydroboranes lead to discrete boryl‐appended diborane(4) species, while dihydroboranes induce their catenation to oligomeric species, the first known examples of well‐characterized macromolecular species with B−B bonds. The oligomeric species were found to comprise up to ten repeat units and are soluble in common organic solvents. Some of the oligomeric species have good air stability and all were characterized by NMR and vibrational spectroscopy and size‐exclusion chromatography techniques. [ABSTRACT FROM AUTHOR]

Published

2021

14. B−B Cleavage and Ring‐Expansion of a 1,4,2,3‐Diazadiborinine with N‐Heterocyclic Carbenes

Author

Thiess, Torsten, primary, Mellerup, Soren K., additional, and Braunschweig, Holger, additional

Published

2019

15. Stable Lewis Base Adducts of Tetrahalodiboranes: Synthetic Methods and Structural Diversity

Author

Englert, Lukas, primary, Stoy, Andreas, additional, Arrowsmith, Merle, additional, Muessig, Jonas H., additional, Thaler, Melanie, additional, Deißenberger, Andrea, additional, Häfner, Alena, additional, Böhnke, Julian, additional, Hupp, Florian, additional, Seufert, Jens, additional, Mies, Jan, additional, Damme, Alexander, additional, Dellermann, Theresa, additional, Hammond, Kai, additional, Kupfer, Thomas, additional, Radacki, Krzysztof, additional, Thiess, Torsten, additional, and Braunschweig, Holger, additional

Published

2019

16. Diverse ring-opening reactions of rhodium η4-azaborete complexes.

Author

Heß, Merlin, Stennett, Tom E., Fantuzzi, Felipe, Bertermann, Rüdiger, Schock, Marvin, Schäfer, Marius, Thiess, Torsten, and Braunschweig, Holger

Published

2020

17. Reactivity of Tetrahalo- and Difluorodiboranes(4) toward Lewis Basic Platinum(0): Bis(boryl), Borylborato, and Doubly Boryl-Bridged Platinum Complexes

Author

Muessig, Jonas H., primary, Prieschl, Dominic, additional, Deißenberger, Andrea, additional, Dewhurst, Rian D., additional, Dietz, Maximilian, additional, Jiménez-Halla, J. Oscar C., additional, Trumpp, Alexandra, additional, Wang, Sunewang R., additional, Brunecker, Carina, additional, Haefner, Alena, additional, Gärtner, Annalena, additional, Thiess, Torsten, additional, Böhnke, Julian, additional, Radacki, Krzysztof, additional, Bertermann, Rüdiger, additional, Marder, Todd B., additional, and Braunschweig, Holger, additional

Published

2018

18. CO2 Binding and Splitting by Boron-Boron Multiple Bonds

Author

Stoy, Andreas, primary, Böhnke, Julian, additional, Jiménez-Halla, J. Oscar C., additional, Dewhurst, Rian D., additional, Thiess, Torsten, additional, and Braunschweig, Holger, additional

Published

2018

19. CO2‐Fixierung und Spaltung durch unpolare Mehrfachbindungen

Author

Stoy, Andreas, primary, Böhnke, Julian, additional, Jiménez‐Halla, J. Oscar C., additional, Dewhurst, Rian D., additional, Thiess, Torsten, additional, and Braunschweig, Holger, additional

Published

2018

20. Selective one- and two-electron reductions of a haloborane enabled by a π-withdrawing carbene ligand

Author

Roy, Dipak Kumar, primary, Krummenacher, Ivo, additional, Stennett, Tom E., additional, Lenczyk, Carsten, additional, Thiess, Torsten, additional, Welz, Eileen, additional, Engels, Bernd, additional, and Braunschweig, Holger, additional

Published

2018

21. Reaction of Dihalodiboranes(4) with a N‐Heterocyclic Silylene: Facile Construction of 1‐Aryl‐2‐Silyl‐1,2‐Diboraindanes

Author

Braunschweig, Holger, primary, Brückner, Tobias, additional, Deißenberger, Andrea, additional, Dewhurst, Rian D., additional, Gackstatter, Annika, additional, Gärtner, Annalena, additional, Hofmann, Alexander, additional, Kupfer, Thomas, additional, Prieschl, Dominic, additional, Thiess, Torsten, additional, and Wang, Sunewang Rixin, additional

Published

2017

22. Generierung einer kleinen HOMO‐LUMO‐Lücke und intramolekulare C‐H‐Borylierung durch Diboren‐Anthracen‐Orbitalinterkalation

Author

Wang, Sunewang R., primary, Arrowsmith, Merle, additional, Böhnke, Julian, additional, Braunschweig, Holger, additional, Dellermann, Theresa, additional, Dewhurst, Rian D., additional, Kelch, Hauke, additional, Krummenacher, Ivo, additional, Mattock, James D., additional, Müssig, Jonas H., additional, Thiess, Torsten, additional, Vargas, Alfredo, additional, and Zhang, Jiji, additional

Published

2017

23. Engineering a Small HOMO-LUMO Gap and Intramolecular C−H Borylation by Diborene/Anthracene Orbital Intercalation

Author

Wang, Sunewang R., primary, Arrowsmith, Merle, additional, Böhnke, Julian, additional, Braunschweig, Holger, additional, Dellermann, Theresa, additional, Dewhurst, Rian D., additional, Kelch, Hauke, additional, Krummenacher, Ivo, additional, Mattock, James D., additional, Müssig, Jonas H., additional, Thiess, Torsten, additional, Vargas, Alfredo, additional, and Zhang, Jiji, additional

Published

2017

24. Facile Access to Unprecedented Electron-Precise Monohydrodiboranes(4), cis -1,2-Dihydrodiboranes(4), and a 1,1-Dihydrodiborane(5)

Author

Arrowsmith, Merle, primary, Braunschweig, Holger, additional, Radacki, Krzysztof, additional, Thiess, Torsten, additional, and Turkin, Arthur, additional

Published

2017

25. Controlling Regiochemistry in the Syntheses of Boraindanes from Diborane(4) Starting Materials

Author

Arnold, Nicole, primary, Braunschweig, Holger, additional, Ewing, William C., additional, Kupfer, Thomas, additional, Radacki, Krzysztof, additional, Thiess, Torsten, additional, and Trumpp, Alexandra, additional

Published

2016

26. New outcomes of Lewis base addition to diboranes(4): electronic effects override strong steric disincentives

Author

Arnold, Nicole, primary, Braunschweig, Holger, additional, Damme, Alexander, additional, Dewhurst, Rian D., additional, Pentecost, Leanne, additional, Radacki, Krzysztof, additional, Stellwag-Konertz, Sascha, additional, Thiess, Torsten, additional, Trumpp, Alexandra, additional, and Vargas, Alfredo, additional

Published

2016

27. CO2 Binding and Splitting by Boron–Boron Multiple Bonds.

Author

Stoy, Andreas, Böhnke, Julian, Jiménez‐Halla, J. Oscar C., Dewhurst, Rian D., Thiess, Torsten, and Braunschweig, Holger

Subjects

CARBON dioxide, BORON, CHEMICAL bonds, CHEMICAL reactions, INTERMEDIATES (Chemistry)

Abstract

Abstract: The room‐temperature, ambient‐pressure reactions of CO2 with two species containing boron–boron multiple bonds led to the incorporation of either one or two CO2 molecules. The structural characterization of a thermally unstable intermediate in one case indicates that an initial [2+2] cycloaddition is the key step in the reaction mechanism. [ABSTRACT FROM AUTHOR]

Published

2018

28. CO2‐Fixierung und Spaltung durch unpolare Mehrfachbindungen.

Author

Stoy, Andreas, Böhnke, Julian, Jiménez‐Halla, J. Oscar C., Dewhurst, Rian D., Thiess, Torsten, and Braunschweig, Holger

Subjects

CARBON dioxide, CHEMICAL bonds, MOLECULAR sieves, DRYING agents, BENZENE, HYDROGEN atom

Abstract

Copyright of Angewandte Chemie is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

29. Controlled Synthesis of Oligomers Containing Main-Chain B(sp 2 )-B(sp 2 ) Bonds.

Author

Schorr F, Schopper N, Riensch N, Fantuzzi F, Neder M, Dewhurst RD, Thiess T, Brückner T, Hammond K, Helten H, Finze M, and Braunschweig H

Abstract

A number of novel alkynyl-functionalized diarylbis(dimethylamino)diboranes(4) are prepared by salt metathesis, and the appended alkynyl groups are subjected to hydroboration. Their reactions with monohydroboranes lead to discrete boryl-appended diborane(4) species, while dihydroboranes induce their catenation to oligomeric species, the first known examples of well-characterized macromolecular species with B-B bonds. The oligomeric species were found to comprise up to ten repeat units and are soluble in common organic solvents. Some of the oligomeric species have good air stability and all were characterized by NMR and vibrational spectroscopy and size-exclusion chromatography techniques., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2021

30. Reactions of diborenes with terminal alkynes: mechanisms of ligand-controlled anti -selective hydroalkynylation, cycloaddition and C[triple bond, length as m-dash]C triple bond scission.

Author

Englert L, Schmidt U, Dömling M, Passargus M, Stennett TE, Hermann A, Arrowsmith M, Härterich M, Müssig J, Phillipps A, Prieschl D, Rempel A, Rohm F, Radacki K, Schorr F, Thiess T, Jiménez-Halla JOC, and Braunschweig H

Abstract

The reactions of terminal acetylenes with doubly Lewis base-stabilised diborenes resulted in different outcomes depending on the nature of the ligands at boron and the conformation of the diborene (cyclic versus acyclic). N-heterocyclic carbene (NHC)-stabilised diborenes tended to undergo anti -selective hydroalkynylation at room temperature, whereas [2 + 2] cycloaddition was observed at higher temperatures, invariably followed by a C-N bond activation at one NHC ligand, leading to the ring-expansion of the initially formed BCBC ring and formation of novel boron-containing heterocycles. For phosphine-stabilised diborenes only [2 + 2] cycloaddition was observed, followed by a rearrangement of the resulting 1,2-dihydro-1,2-diborete to the corresponding 1,3-isomer, which amounts to complete scission of both the B[double bond, length as m-dash]B double and C[triple bond, length as m-dash]C triple bonds of the reactants. The elusive 1,2-isomer was finally trapped by using a cyclic phosphine-stabilised diborene, which prevented rearrangement to the 1,3-isomer. Extensive density functional theory (DFT) calculations provide a rationale for the selectivity observed., Competing Interests: The authors declare no conflict of interest., (This journal is © The Royal Society of Chemistry.)

Published

2021

31. Diborane(4) Azides: Surprisingly Stable Sources of Transient Iminoboranes.

Author

Thiess T, Bélanger-Chabot G, Fantuzzi F, Michel M, Ernst M, Engels B, and Braunschweig H

Abstract

Herein we describe the first examples of isolable electron-precise diboranes(4) that bear azide moieties: the acyclic 1,2-diazido-1,2-bis(dimethylamino)diborane(4) and the cyclic 1,4-diaryl-2,3-diazido-1,4-diaza-2,3-diborinines (aryl=mesityl, 2,6-xylyl, 4-tolyl). The reported examples are not only stable enough to be observed and isolated (putative transient diborane(4) azides previously reported by our group spontaneously decompose even below room temperature), but some of them are even robust enough to undergo controlled pyrolysis without explosive decomposition at temperatures well above 100 °C. In two cases, the controlled pyrolysis allows the isolation of complex diazaboretidines, which are the apparent dimerization products of endocyclic boryl-iminoboranes., (© 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2020

32. Diverse ring-opening reactions of rhodium η 4 -azaborete complexes.

Author

Heß M, Stennett TE, Fantuzzi F, Bertermann R, Schock M, Schäfer M, Thiess T, and Braunschweig H

Abstract

Sequential treatment of [Rh(COE) 2 Cl] 2 (COE = cyclooctene) with P i Pr 3 , alkyne derivatives and t BuN[triple bond, length as m-dash]BMes (Mes = 2,4,6-trimethylphenyl) provided functionalized rhodium η 4 -1,2-azaborete complexes of the form (η 4 -azaborete)RhCl(P i Pr 3 ). The scope of this reaction was expanded to encompass alkynes with hydrogen, alkyl, aryl, ferrocenyl, alkynyl, azaborinyl and boronate ester substituents. Treatment of these complexes with PMe 3 led to insertion of the rhodium atom into the B-C bond of the BNC 2 ring, forming 1-rhoda-3,2-azaboroles. Addition of N-heterocyclic carbenes to azaborete complexes led to highly unusual rearrangements to rhodium η 2 ,κ 1 -allenylborylamino complexes via deprotonation and C-N bond cleavage. Heating and photolysis of an azaborete complex also led to rupture of the C-N bond followed by subsequent rearrangements, yielding an η 4 -aminoborylallene complex and two isomeric η 4 -butadiene complexes., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2020

33. Facile Access to Substituted 1,4-Diaza-2,3-Diborinines.

Author

Thiess T, Ernst M, Kupfer T, and Braunschweig H

Abstract

Several bis(dimethylamino)-substituted 1,4-diaza-2,3-diborinines (DADBs) were synthesized with variable substituents at the backbone nitrogen atoms. By reaction with HCl or BX 3 (X=Br, I), these species were successfully converted into their synthetically more useful halide congeners. The high versatility of the generated B-X bonds in further functionalization reactions at the boron centers was demonstrated by means of salt elimination (MeLi) and commutation (NMe 2 DADBs) reactions, thus making the DADB system a general structural motif in diborane(4) chemistry. A total of 18 DADB derivatives were characterized in the solid state by X-ray diffraction, revealing a strong dependence of the heterocyclic bonding parameters from the exocyclic substitution pattern at boron. According to our experiments towards the realization of a Dipp-substituted, sterically encumbered DADB, the mechanism of DADB formation proceeds via a transient four-membered azadiboretidine intermediate that subsequently undergoes ring expansion to afford the six-membered DADB heterocycle., (© 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2020

34. B-B Cleavage and Ring-Expansion of a 1,4,2,3-Diazadiborinine with N-Heterocyclic Carbenes.

Author

Thiess T, Mellerup SK, and Braunschweig H

Abstract

A 1,4,2,3-diazadiborinine derivative was found to form Lewis adducts with strong two-electron donors such as N-heterocyclic and cyclic (alkyl)(amino)carbenes. Depending on the donor, some of these Lewis pairs are thermally unstable, converting to sole B,N-embedded products upon gentle heating. The products of these reactions, which have been fully characterized by NMR spectroscopy, elemental analysis, and single-crystal X-ray diffraction, were identified as B,N-heterocycles with fused 1,5,2,4-diazadiborepine and 1,4,2-diazaborinine rings. Computational modelling of the reaction mechanism provides insight into the formation of these unique structures, suggesting that a series of B-H, C-N, and B-B bond activation steps are responsible for these "intercalation" reactions between the 1,4,2,3-diazadiborinine and NHCs., (© 2019 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2019

35. Stable Lewis Base Adducts of Tetrahalodiboranes: Synthetic Methods and Structural Diversity.

Author

Englert L, Stoy A, Arrowsmith M, Muessig JH, Thaler M, Deißenberger A, Häfner A, Böhnke J, Hupp F, Seufert J, Mies J, Damme A, Dellermann T, Hammond K, Kupfer T, Radacki K, Thiess T, and Braunschweig H

Abstract

A series of 22 new bis(phosphine), bis(carbene), and bis(isonitrile) tetrahalodiborane adducts has been synthesized, either by direct adduct formation with highly sensitive B 2 X 4 precursors (X=Cl, Br, I) or by ligand exchange at stable B 2 X 4 (SMe 2 ) 2 precursors (X=Cl, Br) with labile dimethylsulfide ligands. The isolated compounds have been fully characterized using NMR spectroscopy, elemental analysis, and, for 20 of these compounds, single-crystal X-ray diffraction, revealing an unexpected variation in the bonding motifs. In addition to the classical B 2 X 4 L 2 diborane(4) bis-adducts, certain more sterically demanding carbene ligands induce a halide displacement which led to the first halide-bridged monocationic diboron species, [B 2 X 3 L 2 ]A (A=BCl 4 , Br, I). Furthermore, low-temperature 1:1 reactions of B 2 Cl 4 with sterically demanding N-heterocyclic carbenes led to the formation of kinetically unstable mono-adducts, one of which was structurally characterized. A comparison of the NMR spectra and structural data of new and literature-known bis-adducts shows several trends pertaining to the nature of the halides and the stereoelectronic properties of the Lewis bases employed., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

36. CO 2 Binding and Splitting by Boron-Boron Multiple Bonds.

Author

Stoy A, Böhnke J, Jiménez-Halla JOC, Dewhurst RD, Thiess T, and Braunschweig H

Abstract

The room-temperature, ambient-pressure reactions of CO 2 with two species containing boron-boron multiple bonds led to the incorporation of either one or two CO 2 molecules. The structural characterization of a thermally unstable intermediate in one case indicates that an initial [2+2] cycloaddition is the key step in the reaction mechanism., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

37. Reaction of Dihalodiboranes(4) with a N-Heterocyclic Silylene: Facile Construction of 1-Aryl-2-Silyl-1,2-Diboraindanes.

Author

Braunschweig H, Brückner T, Deißenberger A, Dewhurst RD, Gackstatter A, Gärtner A, Hofmann A, Kupfer T, Prieschl D, Thiess T, and Wang SR

Abstract

Dihalodiboranes(4) react with a N-heterocyclic silylene (NHSi) to generate NHSi adducts of 1-aryl-2-silyl-1,2-diboraindanes, as was confirmed by X-ray crystallography, featuring the functionalization of both B-X (X=halogen) bonds and a sp 3 - or sp 2 -C-H bond under mild conditions. Coordination of a third NHSi to the proposed 1,1-diaryl-2,2-disilyldiborane(4) intermediates, generated by a twofold B-X insertion, may be crucial for the C-H borylation that leads to the final products. Notably, our results demonstrate the first C-H borylation with a strong B-F bond activated by silylene insertion., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

38. Engineering a Small HOMO-LUMO Gap and Intramolecular C-H Borylation by Diborene/Anthracene Orbital Intercalation.

Author

Wang SR, Arrowsmith M, Böhnke J, Braunschweig H, Dellermann T, Dewhurst RD, Kelch H, Krummenacher I, Mattock JD, Müssig JH, Thiess T, Vargas A, and Zhang J

Abstract

The diborene 1 was synthesized by reduction of a mixture of 1,2-di-9-anthryl-1,2-dibromodiborane(4) (6) and trimethylphosphine with potassium graphite. The X-ray structure of 1 shows the two anthryl rings to be parallel and their π(C 14 ) systems perpendicular to the diborene π(B=B) system. This twisted conformation allows for intercalation of the relatively high-lying π(B=B) orbital and the low-lying π* orbital of the anthryl moiety with no significant conjugation, resulting in a small HOMO-LUMO gap (HLG) and ultimately a C-H borylation of the anthryl unit. The HLG of 1 was estimated to be 1.57 eV from the onset of the long wavelength band in its UV/Vis absorption spectrum (THF, λ onset =788 nm). The oxidation of 1 with elemental selenium afforded diboraselenirane 8 in quantitative yield. By oxidative abstraction of one phosphine ligand by another equivalent of elemental selenium, the B-B and C 1 -H bonds of 8 were cleaved to give the cyclic 1,9-diborylanthracene 9., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

39. Facile Access to Unprecedented Electron-Precise Monohydrodiboranes(4), cis-1,2-Dihydrodiboranes(4), and a 1,1-Dihydrodiborane(5).

Author

Arrowsmith M, Braunschweig H, Radacki K, Thiess T, and Turkin A

Abstract

2,3-Bis(dimethylamino)-substituted B 2 N 2 C 2 heterocycles underwent selective dimethylamino/hydride exchange with either one or two equivalents of BH 3 ⋅SMe 2 to give the corresponding cyclic monohydrido- or (cis)1,2-dihydridodiboranes(4), respectively. Upon either heating or irradiation in solution, the latter underwent ring contraction to the corresponding five-membered BN 2 C 2 heterocycles, whereas irradiation of the 1,2-dimethylaminoethene-supported 1,2-dihydridodiborane(4) in the presence of PEt 3 gave an unprecedented unsymmetrical 1,1-dihydrodiborane(5) phosphine adduct., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

40. Controlling Regiochemistry in the Syntheses of Boraindanes from Diborane(4) Starting Materials.

Author

Arnold N, Braunschweig H, Ewing WC, Kupfer T, Radacki K, Thiess T, and Trumpp A

Abstract

The reaction of tert-butylisonitrile (tBuNC) with 1,2-dihalo-1,2-diduryldiborane leads initially to the formation of the mono-base adduct of the symmetrical diborane(4), which then undergoes an intramolecular cyclization resulting in the formation of a 1-boraindane. This result is in contrast to a previously reported cyclization of a mono-isonitrile adduct of an unsymmetrical 1,1-pinacol-2,2-diaryldiborane(4), which results in the formation of a 1-boraindane. This latter result is herein confirmed by the reaction of 1,1-difluoro-2,2-dimesityldiborane(4) with tBuNC, which yielded the 2-boraindane compound. The mechanism of the former reaction has been computationally elucidated, and the differences between this route and the pathway to 1-boraindanes is discussed. These reactions further the understanding of the chemistry of the increasingly popular mono-base adducts of diborane(4), demonstrate the versatility of isonitriles in comparison to standard two-electron donors, and elucidate selective routes to boron-containing polycyclics, such as those being proposed as analogues for conventional organic pharmaceuticals., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016