Your search keyword '"Chernichenko K"' showing total 32 results

1. Water reduction and dihydrogen addition in aqueous conditions with ansa-phosphinoborane

Author

Sorochkina, K. (Kristina), Chernichenko, K. (Konstantin), Zhivonitko, V. V. (Vladimir V.), Nieger, M. (Martin), Repo, T. (Timo), Sorochkina, K. (Kristina), Chernichenko, K. (Konstantin), Zhivonitko, V. V. (Vladimir V.), Nieger, M. (Martin), and Repo, T. (Timo)

Abstract

Ortho-phenylene-bridged phosphinoborane (2,6-Cl₂Ph)₂B-C₆H₄-PCy₂ 1 was synthesized in three steps from commercially available starting materials. 1 reacts with H2 or H2O under mild conditions to form corresponding zwitterionic phosphonium borates 1-H₂ or 1-H₂O. NMR studies revealed both reactions to be remarkably reversible. Thus, when exposed to H₂, 1-H₂O partially converts to 1-H₂ even in the presence of multiple equivalents of water in the solution. The addition of parahydrogen to 1 leads to nuclear spin hyperpolarization both in dry and hydrous solvents, confirming the dissociation of 1-H₂O to free 1. These observations were supported by computational studies indicating that the formation of 1-H₂ and 1-H₂O from 1 are thermodynamically favored. Unexpectedly, 1-H₂O can release molecular hydrogen to form phosphine oxide 1-O. Kinetic, mechanistic, and computational (DFT) studies were used to elucidate the unique “umpolung” water reduction mechanism.

Published

2022

2. Parahydrogen-induced polarization study of imine hydrogenations mediated by a metal-free catalyst

Author

Zakharov, D. O. (Danila O.), Chernichenko, K. (Konstantin), Sorochkina, K. (Kristina), Repo, T. (Timo), Zhivonitko, V. V. (Vladimir V.), Zakharov, D. O. (Danila O.), Chernichenko, K. (Konstantin), Sorochkina, K. (Kristina), Repo, T. (Timo), and Zhivonitko, V. V. (Vladimir V.)

Abstract

Parahydrogen-induced polarization is a nuclear spin hyperpolarization technique that can provide strongly enhanced NMR signals for catalytic hydrogenation reaction products and intermediates. Among other matters, this can be employed to study the mechanisms of the corresponding chemical transformations. Commonly, noble metal complexes are used for reactions with parahydrogen. Herein, we present a PHIP study of metal-free imine hydrogenations catalyzed by the ansa-aminoborane catalyst QCAT. We discuss the reaction mechanism by showing the pairwise nature of the initial hydrogen activation step that leads to the formation of the negative net nuclear spin polarization of N–H hydrogen in the QCAT-H₂ intermediate, enabling the further transfer of parahydrogen-originating protons to the imine substrate with the accumulation of hyperpolarized amine products. Parahydrogen-induced polarization also demonstrates the reversibility of the catalytic cycle.

Published

2022

3. Parahydrogen-induced polarization in hydrogenation reactions mediated by a metal-free catalyst

Author

Zakharov, D. O. (Danila O.), Chernichenko, K. (Konstantin), Sorochkina, K. (Kristina), Yang, S. (Shengjun), Telkki, V.-V. (Ville-Veikko), Repo, T. (Timo), Zhivonitko, V. V. (Vladimir V.), Zakharov, D. O. (Danila O.), Chernichenko, K. (Konstantin), Sorochkina, K. (Kristina), Yang, S. (Shengjun), Telkki, V.-V. (Ville-Veikko), Repo, T. (Timo), and Zhivonitko, V. V. (Vladimir V.)

Abstract

We report nuclear spin hyperpolarization of various alkenes achieved in alkyne hydrogenations with parahydrogen over a metal-free hydroborane catalyst (HCAT). Being an intramolecular frustrated Lewis pair aminoborane, HCAT utilizes a non-pairwise mechanism of H₂ transfer to alkynes that normally prevents parahydrogen-induced polarization (PHIP) from being observed. Nevertheless, the specific spin dynamics in catalytic intermediates leads to the hyperpolarization of predominantly one hydrogen in alkene. PHIP enabled the detection of important HCAT-alkyne-H₂ intermediates through substantial ¹H, ¹¹B and ¹⁵N signal enhancement and allowed advanced characterization of the catalytic process.

Published

2022

4. Synthesis of annulated oligothiophenes

Author

Nenajdenko, V. G., Balenkova, E. S., Chernichenko, K. Y., and Vshivenko, S. S.

Published

2012

5. Spontaneous ¹⁵N nuclear spin hyperpolarization in metal-free activation of parahydrogen by molecular tweezers

Author

Sorochkina, K. (Kristina), Zhivonitko, V. V. (Vladimir V.), Chernichenko, K. (Konstantin), Telkki, V.-V. (Ville-Veikko), Repo, T. (Timo), and Koptyug, I. V. (Igor V.)

Abstract

The ability of frustrated Lewis pairs (FLPs) to activate H₂ is of significant interest for metal-free catalysis. The activation of H₂ is also the key element of parahydrogen-induced polarization (PHIP), one of the nuclear spin hyperpolarization techniques. It is demonstrated that o-phenylene-based ansa-aminoboranes (AABs) can produce ¹H nuclear spin hyperpolarization through a reversible interaction with parahydrogen at ambient temperatures. Heteronuclei are useful in NMR and MRI as well because they have a broad chemical shift range and long relaxation times and may act as background-free labels. We report spontaneous formation of ¹⁵N hyperpolarization of the N−H site for a family of AABs. The process is efficient at the high magnetic field of an NMR magnet (7 T), and it provides up to 350-fold ¹⁵N signal enhancements. Different hyperpolarization effects are observed with various AAB structures and in a broad temperature range. Spontaneous hyperpolarization, albeit an order of magnitude weaker than that for ¹⁵N, was also observed for ¹¹B nuclei.

Published

2018

6. Replacing C6F5 groups with Cl and H atoms in frustrated Lewis pairs: H2 additions and catalytic hydrogenations

Author

Chernichenko, K., primary, Kótai, B., additional, Nieger, M., additional, Heikkinen, S., additional, Pápai, I., additional, and Repo, T., additional

Published

2017

7. Nuclear spin hyperpolarization with ansa-aminoboranes:a metal-free perspective for parahydrogen-induced polarization

Author

Zhivonitko, V. V. (Vladimir V.), Sorochkina, K. (Kristina), Chernichenko, K. (Konstantin), Kótai, B. (Bianka), Földes, T. (Tamás), Pápai, I. (Imre), Telkki, V.-V. (Ville-Veikko), Repo, T. (Timo), Koptyug, I. (Igor), Zhivonitko, V. V. (Vladimir V.), Sorochkina, K. (Kristina), Chernichenko, K. (Konstantin), Kótai, B. (Bianka), Földes, T. (Tamás), Pápai, I. (Imre), Telkki, V.-V. (Ville-Veikko), Repo, T. (Timo), and Koptyug, I. (Igor)

Abstract

The parahydrogen-induced polarization (PHIP) phenomenon, observed when parahydrogen is used in H₂ addition processes, provides a means for substantial NMR signal enhancements and mechanistic studies of chemical reactions. Commonly, noble metal complexes are used for parahydrogen activation, whereas metal-free activation is rare. Herein, we report a series of unimolecular metal-free frustrated Lewis pairs based on an ansa-aminoborane (AAB) moiety in the context of PHIP. These molecules, which have a “molecular tweezers” structure, differ in their substituents at the boryl site (–H, –Ph, –o-iPr-Ph, and –Mes). PHIP effects were observed for all the AABs after exposing their solutions to parahydrogen in a wide temperature range, and experimental measurements of their kinetic and thermodynamic parameters were performed. A theoretical analysis of their nuclear spin polarization effects is presented, and the roles of chemical exchange, chemical equilibrium and spin dynamics are discussed in terms of the key dimensionless parameters. The analysis allowed us to formulate the prerequisites for achieving strong polarization effects with AAB molecules, which can be applied for further design of efficient metal-free tweezers-like molecules for PHIP. Mechanistic (chemical and physical) aspects of the observed effects are discussed in detail. In addition, we performed quantum chemical calculations, which confirmed that the J-coupling between the parahydrogen-originated protons in AAB–H₂ molecules is mediated through dihydrogen bonding.

Published

2016

8. Impact of heterocirculene molecular symmetry upon two-dimensional

Author

Xiao, W. D., Zhang, Y. Y., Tao, L., Ait-Mansour, K., Chernichenko, K. Y., Nenajdenko, V. G., Ruffieux, P., Du, S. X., Gao, H.-J., Fasel, R., and Department of Chemistry

Subjects

SELF-ASSEMBLED MONOLAYERS, PACKING, CRYSTAL, SULFLOWER, education, 116 Chemical sciences, SCANNING-TUNNELING-MICROSCOPY, METAL-SURFACES, AUGMENTED-WAVE METHOD, SUPRAMOLECULAR CHEMISTRY, AU(111), INTERFACES

Abstract

Despite the development of crystal engineering, it remains a great challenge to predict the crystal structure even for the simplest molecules, and a clear link between molecular and crystal symmetry is missing in general. Here we demonstrate that the two-dimensional (2D) crystallization of heterocirculenes on a Au(111) surface is greatly affected by the molecular symmetry. By means of ultrahigh vacuum scanning tunneling microscopy, we observe a variety of 2D crystalline structures in the coverage range from submonolayer to monolayer for D-8h-symmetric sulflower (C16S8), whereas D-4h-symmetric selenosulflower (C16S4Se4) forms square and rectangular lattices at submonolayer and monolayer coverages, respectively. No long-range ordered structure is observed for C-1h-symmetric selenosulflower (C16S5Se3) self-assembling at submonolayer coverage. Such different self-assembly behaviors for the heterocirculenes with reduced molecular symmetries derive from the tendency toward close packing and the molecular symmetry retention in 2D crystallization due to van der Waals interactions.

Published

2014

9. Impact of heterocirculene molecular symmetry upon two-dimensional

Author

University of Helsinki, Department of Chemistry, Xiao, W. D., Zhang, Y. Y., Tao, L., Ait-Mansour, K., Chernichenko, K. Y., Nenajdenko, V. G., Ruffieux, P., Du, S. X., Gao, H. -J., Fasel, R., University of Helsinki, Department of Chemistry, Xiao, W. D., Zhang, Y. Y., Tao, L., Ait-Mansour, K., Chernichenko, K. Y., Nenajdenko, V. G., Ruffieux, P., Du, S. X., Gao, H. -J., and Fasel, R.

Published

2014

10. Replacing C6F5 groups with Cl and H atoms in frustrated Lewis pairs: H2 additions and catalytic hydrogenations.

Author

Chernichenko, K., Kótai, B., Nieger, M., Heikkinen, S., Pápai, I., and Repo, T.

Subjects

*LEWIS pairs (Chemistry), *CATALYTIC hydrogenation, *LEWIS acidity

Abstract

2-(Dialkylamino)phenylboranes containing the BXZ group, where X, Z = C6F5, Cl, and H, were prepared in a few synthetic steps and demonstrated the cleavage of H2 under mild conditions. Depending on the nature of the dialkylamino group, X, and Z, the stability of the produced zwitterionic H2 adducts varies from isolated solids indefinitely stable in an inert atmosphere to those quickly equilibrating with the initial aminoborane and H2. Using a combined experimental/computational approach on a series of isostructural aminoboranes (dialkylamino = 2,2,6,6-tetramethylpiperid-1-yl), it was demonstrated that the electronegativity and the steric effect of the substituents generally follow the trend C6F5∼ Cl > H. This observation is useful for designing new FLPs for practical applications. As an example, we demonstrated the hydrogenation of alkynes to cis-alkenes under mild conditions that was catalyzed by a chloro-analogue of the C6F5-substituted aminoborane developed previously. The presence of a BHCl group in the aminochloroboranes or in their H2 adducts features facile redistribution of the H and Cl atoms and the formation of polychloro and polyhydrido species. [ABSTRACT FROM AUTHOR]

Published

2017

11. Impact of heterocirculene molecular symmetry upon two-dimensional crystallization

Author

Xiao, W. D., primary, Zhang, Y. Y., additional, Tao, L., additional, Aït-Mansour, K., additional, Chernichenko, K. Y., additional, Nenajdenko, V. G., additional, Ruffieux, P., additional, Du, S. X., additional, Gao, H.-J., additional, and Fasel, R., additional

Published

2014

12. ChemInform Abstract: Synthesis of Annulated Oligothiophenes.

Author

Nenajdenko, V. G., primary, Balenkova, E. S., additional, Chernichenko, K. Y., additional, and Vshivenko, S. S., additional

Published

2013

13. Carbon Sulfide Flowers

Author

Nenajdenko, V., primary, Chernichenko, K., additional, Sumerin, V., additional, Shpanchenko, R., additional, and Balenkova, E., additional

Published

2007

14. A New Route to Annulated Oligothiophenes

Author

Nenajdenko, V. G., Sumerin, V. V., Chernichenko, K. Yu., and Balenkova, E. S.

Abstract

A new convenient method for the construction of thiophene-annulated thieno[2,3-b]thiophenes has been proposed. The key step of the method is ring closure of 10H-bisthienodithiocin-10-one by strong bases. The syntheses of two previously unknown annulated oligothiophenes, thieno[2,3-b]thieno[3‘,2‘:4,5]thieno[3,2-d]thiophene (1a) and thieno[3,2-b]thieno[2‘,3‘:4,5]thieno[3,2-d]thiophene (1b), have been described to illustrate the success of the method.

Published

2004

15. Enantioselective C-H Arylation for Axially Chiral Heterobiaryls.

Author

Liu Z, Gao B, Chernichenko K, Yang H, Lemaire S, and Tang W

Abstract

An enantioselective palladium-catalyzed C-H arylation of functionalized pyrazoles/triazoles/imidazoles is developed, affording a variety of axially chiral ortho -nitro/formyl-substituted heterobiaryls with excellent enantioselectivities and good yields. The method features a deuterated P-chiral phosphorus ligand CD 3 -AntPhos, a broad substrate scope of functionalized heterobiaryls, mild reaction conditions, and low palladium loadings.

Published

2023

16. Water Reduction and Dihydrogen Addition in Aqueous Conditions With ansa-Phosphinoborane.

Author

Sorochkina K, Chernichenko K, Zhivonitko VV, Nieger M, and Repo T

Abstract

Ortho-phenylene-bridged phosphinoborane (2,6-Cl 2 Ph) 2 B-C 6 H 4 -PCy 2 1 was synthesized in three steps from commercially available starting materials. 1 reacts with H 2 or H 2 O under mild conditions to form corresponding zwitterionic phosphonium borates 1-H 2 or 1-H 2 O. NMR studies revealed both reactions to be remarkably reversible. Thus, when exposed to H 2 , 1-H 2 O partially converts to 1-H 2 even in the presence of multiple equivalents of water in the solution. The addition of parahydrogen to 1 leads to nuclear spin hyperpolarization both in dry and hydrous solvents, confirming the dissociation of 1-H 2 O to free 1. These observations were supported by computational studies indicating that the formation of 1-H 2 and 1-H 2 O from 1 are thermodynamically favored. Unexpectedly, 1-H 2 O can release molecular hydrogen to form phosphine oxide 1-O. Kinetic, mechanistic, and computational (DFT) studies were used to elucidate the unique "umpolung" water reduction mechanism., (© 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

17. Parahydrogen-induced polarization study of imine hydrogenations mediated by a metal-free catalyst.

Author

Zakharov DO, Chernichenko K, Sorochkina K, Repo T, and Zhivonitko VV

Abstract

Parahydrogen-induced polarization is a nuclear spin hyperpolarization technique that can provide strongly enhanced NMR signals for catalytic hydrogenation reaction products and intermediates. Among other matters, this can be employed to study the mechanisms of the corresponding chemical transformations. Commonly, noble metal complexes are used for reactions with parahydrogen. Herein, we present a PHIP study of metal-free imine hydrogenations catalyzed by the ansa -aminoborane catalyst QCAT. We discuss the reaction mechanism by showing the pairwise nature of the initial hydrogen activation step that leads to the formation of the negative net nuclear spin polarization of N-H hydrogen in the QCAT-H 2 intermediate, enabling the further transfer of parahydrogen-originating protons to the imine substrate with the accumulation of hyperpolarized amine products. Parahydrogen-induced polarization also demonstrates the reversibility of the catalytic cycle.

Published

2022

18. Heck Reaction of 2-Oxyacrylates with Aryl Bromides: A Common Route to Monoaryl Pyruvates and Ortho Ester-Protected Monoaryl Pyruvates.

Author

Matcha K, Chernichenko K, Jouvin K, Guduguntla SB, Tran DN, Bell S, Paden W, Figlus M, Muir C, Elliott A, and Diaz CH

Subjects

Catalysis, Palladium, Pyruvates, Bromides, Esters

Abstract

A palladium-catalyzed Heck reaction between 2-oxyacrylates and aryl bromides was developed, where DavePhos was a unique ligand that efficiently promoted the reaction. The products, 2-oxycinnamates, served as excellent precursors, providing synthetically useful monoaryl pyruvates or ortho ester-protected monoaryl pyruvates depending on the nature of the 2-oxy group. The formation of such ortho esters via alkoxide addition is novel, and computational studies identified a plausible mechanism with an oxyallyl zwitterion as the key intermediate.

Published

2022

19. Parahydrogen-Induced Polarization in Hydrogenation Reactions Mediated by a Metal-Free Catalyst.

Author

Zakharov DO, Chernichenko K, Sorochkina K, Yang S, Telkki VV, Repo T, and Zhivonitko VV

Abstract

We report nuclear spin hyperpolarization of various alkenes achieved in alkyne hydrogenations with parahydrogen over a metal-free hydroborane catalyst (HCAT). Being an intramolecular frustrated Lewis pair aminoborane, HCAT utilizes a non-pairwise mechanism of H 2 transfer to alkynes that normally prevents parahydrogen-induced polarization (PHIP) from being observed. Nevertheless, the specific spin dynamics in catalytic intermediates leads to the hyperpolarization of predominantly one hydrogen in alkene. PHIP enabled the detection of important HCAT-alkyne-H 2 intermediates through substantial 1 H, 11 B and 15 N signal enhancement and allowed advanced characterization of the catalytic process., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

20. Metal-Free C-H Borylation of N-Heteroarenes by Boron Trifluoride.

Author

Iashin V, Berta D, Chernichenko K, Nieger M, Moslova K, Pápai I, and Repo T

Abstract

Organoboron compounds are essential reagents in modern C-C coupling reactions. Their synthesis via catalytic C-H borylation by main group elements is emerging as a powerful tool alternative to transition metal based catalysis. Herein, a straightforward metal-free synthesis of aryldifluoroboranes from BF 3 and heteroarenes is reported. The reaction is assisted by sterically hindered amines and catalytic amounts of thioureas. According to computational studies the reaction proceeds via frustrated Lewis pair (FLP) mechanism. The obtained aryldifluoroboranes are further stabilized against destructive protodeborylation by converting them to the corresponding air stable tetramethylammonium organotrifluoroborates., (© 2020 The Authors. Published by Wiley-VCH GmbH.)

Published

2020

21. Heterolytic Scission of Hydrogen Within a Crystalline Frustrated Lewis Pair.

Author

Bowden ME, Ginovska B, Jones MO, Karkamkar AJ, Ramirez-Cuesta AJ, Daemen LL, Schenter GK, Miller SA, Repo T, Chernichenko K, Leick N, Martinez MB, and Autrey T

Abstract

We report the heterolysis of molecular hydrogen under ambient conditions by the crystalline frustrated Lewis pair (FLP) 1-{2-[bis(pentafluorophenyl)boryl]phenyl}-2,2,6,6-tetramethylpiperidine (KCAT). The gas-solid reaction provides an approach to prepare the solvent-free, polycrystalline ion pair KCATH2 through a single crystal to single crystal transformation. The crystal lattice of KCATH2 increases in size relative to the parent KCAT by approximately 2%. Microscopy was used to follow the transformation of the highly colored red/orange KCAT to the colorless KCATH2 over a period of 2 h at 300 K under a flow of H 2 gas. There is no evidence of crystal decrepitation during hydrogen uptake. Inelastic neutron scattering employed over a temperature range from 4-200 K did not provide evidence for the formation of polarized H 2 in a precursor complex within the crystal at low temperatures and high pressures. However, at 300 K, the INS spectrum of KCAT transformed to the INS spectrum of KCATH2. Calculations suggest that the driving force is more favorable in the solid state compared to the solution or gas phase, but the addition of H 2 into the KCAT crystal is unfavorable. Ab Initio methods were used to calculate the INS spectra of KCAT, KCATH2, and a possible precursor complex of H 2 in the pocket between the B and N of crystalline KCAT. Ex-situ NMR showed that the transformation from KCAT to KCATH2 is quantitative and our results suggest that the hydrogen heterolysis process occurs via H 2 diffusion into the FLP crystal with a rate-limiting movement of H 2 from inactive positions to reactive sites.

Published

2020

22. Spontaneous 15 N Nuclear Spin Hyperpolarization in Metal-Free Activation of Parahydrogen by Molecular Tweezers.

Author

Sorochkina K, Zhivonitko VV, Chernichenko K, Telkki VV, Repo T, and Koptyug IV

Abstract

The ability of frustrated Lewis pairs (FLPs) to activate H 2 is of significant interest for metal-free catalysis. The activation of H 2 is also the key element of parahydrogen-induced polarization (PHIP), one of the nuclear spin hyperpolarization techniques. It is demonstrated that o-phenylene-based ansa-aminoboranes (AABs) can produce 1 H nuclear spin hyperpolarization through a reversible interaction with parahydrogen at ambient temperatures. Heteronuclei are useful in NMR and MRI as well because they have a broad chemical shift range and long relaxation times and may act as background-free labels. We report spontaneous formation of 15 N hyperpolarization of the N-H site for a family of AABs. The process is efficient at the high magnetic field of an NMR magnet (7 T), and it provides up to 350-fold 15 N signal enhancements. Different hyperpolarization effects are observed with various AAB structures and in a broad temperature range. Spontaneous hyperpolarization, albeit an order of magnitude weaker than that for 15 N, was also observed for 11 B nuclei.

Published

2018

23. Replacing C 6 F 5 groups with Cl and H atoms in frustrated Lewis pairs: H 2 additions and catalytic hydrogenations.

Author

Chernichenko K, Kótai B, Nieger M, Heikkinen S, Pápai I, and Repo T

Abstract

2-(Dialkylamino)phenylboranes containing the BXZ group, where X, Z = C 6 F 5 , Cl, and H, were prepared in a few synthetic steps and demonstrated the cleavage of H 2 under mild conditions. Depending on the nature of the dialkylamino group, X, and Z, the stability of the produced zwitterionic H 2 adducts varies from isolated solids indefinitely stable in an inert atmosphere to those quickly equilibrating with the initial aminoborane and H 2 . Using a combined experimental/computational approach on a series of isostructural aminoboranes (dialkylamino = 2,2,6,6-tetramethylpiperid-1-yl), it was demonstrated that the electronegativity and the steric effect of the substituents generally follow the trend C 6 F 5 ∼ Cl ≫ H. This observation is useful for designing new FLPs for practical applications. As an example, we demonstrated the hydrogenation of alkynes to cis-alkenes under mild conditions that was catalyzed by a chloro-analogue of the C 6 F 5 -substituted aminoborane developed previously. The presence of a BHCl group in the aminochloroboranes or in their H 2 adducts features facile redistribution of the H and Cl atoms and the formation of polychloro and polyhydrido species.

Published

2017

24. Atom-Efficient Synthesis of Alkynylfluoroborates Using BF 3 -Based Frustrated Lewis Pairs.

Author

Iashin V, Chernichenko K, Pápai I, and Repo T

Abstract

A sterically demanding amine, 1,2,2,6,6-pentamethylpiperidine (PMP), forms a highly reactive Lewis acid-base pair with boron trifluoride. This pair reacts with terminal acetylenes to give the products of C(sp)-H borylation, previously unknown tri- and tetraalkynylboron compounds. Trialkynylfluoroborates can serve as surrogates of alkynyltrifluoroborates for C-C coupling reactions. Using aqueous NaOH, PMP can be recovered from its tetrafluoroborate salt, which is formed as a C-H borylation byproduct. Combining the discovered borylation reactivity with the PMP recovery provides a straightforward and atom-efficient approach to synthetically useful alkynylfluoroborates., (© 2016 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

25. Nuclear spin hyperpolarization with ansa-aminoboranes: a metal-free perspective for parahydrogen-induced polarization.

Author

Zhivonitko VV, Sorochkina K, Chernichenko K, Kótai B, Földes T, Pápai I, Telkki VV, Repo T, and Koptyug I

Abstract

The parahydrogen-induced polarization (PHIP) phenomenon, observed when parahydrogen is used in H 2 addition processes, provides a means for substantial NMR signal enhancements and mechanistic studies of chemical reactions. Commonly, noble metal complexes are used for parahydrogen activation, whereas metal-free activation is rare. Herein, we report a series of unimolecular metal-free frustrated Lewis pairs based on an ansa-aminoborane (AAB) moiety in the context of PHIP. These molecules, which have a "molecular tweezers" structure, differ in their substituents at the boryl site (-H, -Ph, -o-iPr-Ph, and -Mes). PHIP effects were observed for all the AABs after exposing their solutions to parahydrogen in a wide temperature range, and experimental measurements of their kinetic and thermodynamic parameters were performed. A theoretical analysis of their nuclear spin polarization effects is presented, and the roles of chemical exchange, chemical equilibrium and spin dynamics are discussed in terms of the key dimensionless parameters. The analysis allowed us to formulate the prerequisites for achieving strong polarization effects with AAB molecules, which can be applied for further design of efficient metal-free tweezers-like molecules for PHIP. Mechanistic (chemical and physical) aspects of the observed effects are discussed in detail. In addition, we performed quantum chemical calculations, which confirmed that the J-coupling between the parahydrogen-originated protons in AAB-H 2 molecules is mediated through dihydrogen bonding.

Published

2016

26. Metal-Free sp(2)-C-H Borylation as a Common Reactivity Pattern of Frustrated 2-Aminophenylboranes.

Author

Chernichenko K, Lindqvist M, Kótai B, Nieger M, Sorochkina K, Pápai I, and Repo T

Abstract

C-H borylation is a powerful and atom-efficient method for converting affordable and abundant chemicals into versatile organic reagents used in the production of fine chemicals and functional materials. Herein we report a facile C-H borylation of aromatic and olefinic C-H bonds with 2-aminophenylboranes. Computational and experimental studies reveal that the metal-free C-H insertion proceeds via a frustrated Lewis pair mechanism involving heterolytic splitting of the C-H bond by cooperative action of the amine and boryl groups. The adapted geometry of the reactive B and N centers results in an unprecedentently low kinetic barrier for both insertion into the sp(2)-C-H bond and intramolecular protonation of the sp(2)-C-B bond in 2-ammoniophenyl(aryl)- or -(alkenyl)borates. This common reactivity pattern serves as a platform for various catalytic reactions such as C-H borylation and hydrogenation of alkynes. In particular, we demonstrate that simple 2-aminopyridinium salts efficiently catalyze the C-H borylation of hetarenes with catecholborane. This reaction is presumably mediated by a borenium species isoelectronic to 2-aminophenylboranes.

Published

2016

27. Intramolecular frustrated Lewis pair with the smallest boryl site: reversible H2 addition and kinetic analysis.

Author

Chernichenko K, Kótai B, Pápai I, Zhivonitko V, Nieger M, Leskelä M, and Repo T

Abstract

Ansa-aminoborane 1 (ortho-TMP-C6H4-BH2; TMP = 2,2,6,6-tetramethylpiperid-1-yl), a frustrated Lewis pair with the smallest possible Lewis acidic boryl site (-BH2), is prepared. Although it is present in quenched forms in solution, and BH2 represents an acidic site with reduced hydride affinity, 1 reacts with H2 under mild conditions producing ansa-ammonium trihydroborate 2. The thermodynamic and kinetic features as well as the mechanism of this reaction are studied by variable-temperature NMR spectroscopy, spin-saturation transfer experiments, and DFT calculations, which provide comprehensive insight into the nature of 1., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

28. Tweezers for parahydrogen: a metal-free probe of nonequilibrium nuclear spin states of H₂ molecules.

Author

Zhivonitko VV, Telkki VV, Chernichenko K, Repo T, Leskelä M, Sumerin V, and Koptyug IV

Abstract

To date, only metal-containing hydrogenation catalysts have been utilized for producing substantial NMR signal enhancements by means of parahydrogen-induced polarization (PHIP). Herein, we show that metal-free compounds known as molecular tweezers are useful in this respect. It is shown that ansa-aminoborane tweezers QCAT provided (20-30)-fold signal enhancements of parahydrogen-originating hydrogens in (1)H NMR spectra. Nuclear polarization transfer from the polarized hydrogens to (11)B nuclei leads to a 10-fold enhancement in the (11)B NMR spectrum. Moreover, our results indicate that dihydrogen activation by QCAT and CAT tweezers is carried out in a pairwise manner, and PHIP can be used for understanding the activation mechanism in metal-free catalytic systems in general.

Published

2014

29. A frustrated-Lewis-pair approach to catalytic reduction of alkynes to cis-alkenes.

Author

Chernichenko K, Madarász A, Pápai I, Nieger M, Leskelä M, and Repo T

Subjects

Catalysis, Oxidation-Reduction, Alkenes chemistry, Alkynes chemistry

Abstract

Frustrated Lewis pairs are compounds containing both Lewis acidic and Lewis basic moieties, where the formation of an adduct is prevented by steric hindrance. They are therefore highly reactive, and have been shown to be capable of heterolysis of molecular hydrogen, a property that has led to their use in hydrogenation reactions of polarized multiple bonds. Here, we describe a general approach to the hydrogenation of alkynes to cis-alkenes under mild conditions using the unique ansa-aminohydroborane as a catalyst. Our approach combines several reactions as the elementary steps of the catalytic cycle: hydroboration (substrate binding), heterolytic hydrogen splitting (typical frustrated-Lewis-pair reactivity) and facile intramolecular protodeborylation (product release). The mechanism is verified by experimental and computational studies.

Published

2013

30. Amine-borane mediated metal-free hydrogen activation and catalytic hydrogenation.

Author

Sumerin V, Chernichenko K, Schulz F, Leskelä M, Rieger B, and Repo T

Abstract

The use of frustrated Lewis pairs (FLPs) as hydrogenation catalysts is attracting increasing attention as one of the most modern and rapidly growing areas of organic chemistry, with many research groups around the world working on this subject. Since the pioneering studies of the groups of Stephan and Piers on the Lewis acid-base pairs, which do not react irreversibly with each other and act as a trap for small molecules, numerous FLPs for hydrogen activation have been reported. Among others, intra- and intermolecular systems based on phosphines, organic carbenes, amines as Lewis bases, and boranes or alanes as Lewis acids were studied. This review presents a progression from the first observation of the facile heterolytical cleavage of hydrogen gas by amines and B(C6F5)3 to highly active non-metal catalysts for both enantioselective and racemic hydrogenation of unsaturated nitrogen-containing compounds and also internal alkynes.

Published

2013

31. Hydrogen activation by 2-boryl-N,N-dialkylanilines: a revision of Piers' ansa-aminoborane.

Author

Chernichenko K, Nieger M, Leskelä M, and Repo T

Abstract

Two 2-[bis(pentafluorophenyl)boryl]-N,N-dialkylanilines reported here exemplify a new class of intramolecular frustrated B/N Lewis pairs. A structure closely related to this class structure was synthesized in 2003 by Piers et al. but was unable to activate H(2). The new aminoboranes can activate hydrogen at near ambient conditions; besides, one of them can hydrogenate imines and enamines in a catalytic fashion demonstrating the validity of the original Piers' approach to hydrogen activation with ansa-aminoboranes.

Published

2012

32. Heterolytic dihydrogen activation by B(C6F5)3 and carbonyl compounds.

Author

Lindqvist M, Sarnela N, Sumerin V, Chernichenko K, Leskelä M, and Repo T

Abstract

Aromatic carbonyl compounds in combination with B(C(6)F(5))(3) are able to activate H(2) heterolytically. The reactivity of the carbonyl-B(C(6)F(5))(3) adduct is initiated by its thermal dissociation into components. After H(2) addition, aromatic carbonyl compounds convert into aryl-substituted methanes or alcohols.

Published

2012