Your search keyword '"Felix Hennersdorf"' showing total 28 results

1. Saccharified Uranyl Ions: Self‐Assembly of UO2 2+ into Trinuclear Anionic Complexes by the Coordination of Glucosamine‐Derived Schiff Bases

Author

Felix Hennersdorf, Leonard F. Lindoy, Gerrit Schaper, Jan J. Weigand, and Marco Wenzel

Subjects

Anions, Recrystallization (geology), Hot Paper, 010402 general chemistry, Mass spectrometry, Ligands, 01 natural sciences, Catalysis, Ion, chemistry.chemical_compound, polynuclear coordination complexes, uranyl, Schiff Bases, Ions, glucosamine-derived Schiff bases, Glucosamine, Full Paper, 010405 organic chemistry, Ligand, Organic Chemistry, biologically inspired ligands, General Chemistry, Full Papers, Uranyl, Alkali metal, 0104 chemical sciences, X-ray diffraction, Crystallography, chemistry, Yield (chemistry), X-ray crystallography

Abstract

The reaction of UO2(OAc)2 ⋅ 2H2O with the biologically inspired ligand 2‐salicylidene glucosamine (H2 L1) results in the formation of the anionic trinuclear uranyl complex [(UO2)3(μ3‐O)(L1)3]2− (1 2−), which was isolated in good yield as its Cs‐salt, [Cs]2 1. Recrystallization of [Cs]2 1 in the presence of 18‐crown‐6 led to formation of a neutral ion pair of type [M(18‐crown‐6)]2 1, which was also obtained for the alkali metal ions Rb+ and K+ (M=Cs, Rb, K). The related ligand, 2‐(2‐hydroxy‐1‐naphthylidene) glucosamine (H2 L2) in a similar procedure with Cs+ gave the corresponding complex [Cs(18‐crown‐6)]2[(UO2)3(μ3‐O)(L2)3 ([Cs(18‐crown‐6)]2 2). From X‐ray investigations, the [(UO2)3O(Ln)3]2− anion (n=1, 2) in each complex is a discrete trinuclear uranyl species that coordinates to the alkali metal ion via three uranyl oxygen atoms. The coordination behavior of H2 L1 and H2 L2 towards UO2 2+ was investigated by NMR, UV/Vis spectroscopy and mass spectrometry, revealing the in situ formation of the 1 2− and 2 2−dianions in solution., Investigation of the coordination behavior of salicylidene glucosamine (H2 L1) towards uranyl ions (UO2 2+) revealed the exclusive formation of a trinuclear anionic uranyl complex [(UO2)3(μ3‐O)(L1)3]2− (1 2−), which was isolated by precipitation with the alkali metals ions Cs+, Rb+, and K+. Recrystallization of the Cs salt in the presence of 18‐crown‐6 in DMF led to the formation of the solvated ion pair [Cs(18‐crown‐6)]2 1, in which coordination of the Cs+ ion by three uranyl oxygen atoms was observe.

Published

2021

2. Coordination Chemistry and Methylation of Mixed‐Substituted Tetraphosphetanes (RP−P t Bu) 2 (R=Ph, Py)

Author

Jan J. Weigand, Robin Schoemaker, Philipp Kossatz, Felix Hennersdorf, and Kai Schwedtmann

Subjects

Salt (chemistry), Alkylation, 010402 general chemistry, Metathesis, 01 natural sciences, Medicinal chemistry, Catalysis, Coordination complex, Main Group Elements | Hot Paper, chemistry.chemical_compound, Rearrangement reaction, phosphorus, chemistry.chemical_classification, Full Paper, 010405 organic chemistry, Organic Chemistry, General Chemistry, Methylation, Full Papers, cations, 0104 chemical sciences, tetraphosphetanes, chemistry, coinage metal complexes, Tetrahydrothiophene, Trifluoromethanesulfonate

Abstract

Synthesis of mixed‐substituted tetraphosphetanes (RP−PtBu)2 (R=Ph (4), Py (5); Py=2‐pyridyl) is achieved from the condensation of dipyrazolylphosphanes RPpyr2 (R=Py (1), Ph (3); pyr=3,5‐dimethylpyrazolyl) as P1‐building block (R−P) and tBuPH2 in an equimolar ratio. Compound 5 is of special interest since the presence of two pyridyl‐substituents as well as the P4‐core allows for a rich coordination chemistry with coinage metal salts [Cu(MeCN)4][OTf], Ag[OTf] and in situ formed [Au(tht)][OTf] (tht=tetrahydrothiophene). Both tetraphosphetanes undergo alkylation reaction with MeOTf to give a series of tetraphosphetanium and tetraphosphetanediium triflate salts with additional methylation of the pyridyl‐moiety in case of 5 resulting in interesting novel cyclic trications. Harsh reaction condition and an excess of MeOTf converts 5 into the cyclic trication [‐P(MePy)PMe2P(MePy)PtBu‐]3+ (13 3+; MePy=1‐methylpyridiniumyl) through the elimination of isobutene. This salt undergoes a complicated rearrangement reaction involving a P−P/P−P bond metathesis to form trication [‐P(MePy)3PtBu‐]3+ (17 3+) when reacted with Me2PPMe2., Choose your donor: A convenient route towards mixed‐substituted tetraphosphetanes was established, enabling the synthesis of (PhP‐PtBu)2 and (PyP‐PtBu)2 (Py=2‐pyridyl) in good yields. The coordination chemistry of (PyP‐PtBu)2 was investigated by reacting it with coinage metal triflate salts. Further methylation studies on both tetraphosphetanes revealed an interesting chemistry of multiply charged, cylic polyphosphanes.

Published

2020

3. Helical Nanographenes Containing an Azulene Unit: Synthesis, Crystal Structures, and Properties

Author

Alexey A. Popov, Jan J. Weigand, Xinliang Feng, Felix Hennersdorf, Ji Ma, Evgenia Dmitrieva, Junzhi Liu, Hartmut Komber, Fupin Liu, and Yubin Fu

Subjects

azulene, nanographenes, Materials science, polycyclic aromatic hydrocarbons, Crystal structure, 010402 general chemistry, 01 natural sciences, Helicenes, Catalysis, law.invention, Steric repulsion, chemistry.chemical_compound, law, Electron paramagnetic resonance, Scholl reaction, 010405 organic chemistry, Communication, General Chemistry, General Medicine, Azulene, Communications, 0104 chemical sciences, Crystallography, chemistry, Density functional theory, Cyclic voltammetry, Unit (ring theory), Antiaromaticity

Abstract

Three unprecedented helical nanographenes (1, 2, and 3) containing an azulene unit are synthesized. The resultant helical structures are unambiguously confirmed by X‐ray crystallographic analysis. The embedded azulene unit in 2 possesses a record‐high twisting degree (16.1°) as a result of the contiguous steric repulsion at the helical inner rim. Structural analysis in combination with theoretical calculations reveals that these helical nanographenes manifest a global aromatic structure, while the inner azulene unit exhibits weak antiaromatic character. Furthermore, UV/Vis‐spectral measurements reveal that superhelicenes 2 and 3 possess narrow energy gaps (2: 1.88 eV; 3: 2.03 eV), as corroborated by cyclic voltammetry and supported by density functional theory (DFT) calculations. The stable oxidized and reduced states of 2 and 3 are characterized by in‐situ EPR/Vis–NIR spectroelectrochemistry. Our study provides a novel synthetic strategy for helical nanographenes containing azulene units as well as their associated structures and physical properties., An odd contribution: Azulene‐embedded helical nanographenes with global aromaticity are synthesized by a Scholl‐type cyclization. X‐ray crystallographic analysis clearly reveals the formation of an azulene unit in the helical π‐system. The embedded azulene core adopts a highly twisted conformation and is less aromatic than pristine azulene.

Published

2020

4. P−P Condensation and P−N/P−P Bond Metathesis: Facile Synthesis of Cationic Tri‐ and Tetraphosphanes

Author

Felix Hennersdorf, Jan J. Weigand, Kai Schwedtmann, Robert Wolf, Clemens Taube, Ekasith Somsook, and Medena Noikham

Subjects

gold complex, cationic polyphosphanes, chemistry.chemical_element, Salt (chemistry), 010402 general chemistry, Metathesis, 01 natural sciences, Medicinal chemistry, Catalysis, chemistry.chemical_compound, reductive coupling, Diphosphane, Phosphorus Ligands, P−P bond metathesis, Research Articles, Bond cleavage, chemistry.chemical_classification, 010405 organic chemistry, Cationic polymerization, General Medicine, General Chemistry, Copper, 0104 chemical sciences, chemistry, Trifluoromethanesulfonate, Tetrahydrothiophene, Research Article

Abstract

[LC RP((PhP)2C2H4)][OTf] (4 a,b[OTf]) and [LC iPrP(PPh2)2][OTf] (5 b[OTf]) were prepared from the reaction of imidazoliumyl‐substituted dipyrazolylphosphane triflate salts [LC RP(pyr)2][OTf] (3 a,b[OTf]; a: R=Me, b=iPr; LC R=1,3‐dialkyl‐4,5‐dimethylimidazol‐2‐yl; pyr=3,5‐dimethylpyrazol‐1‐yl) with the secondary phosphanes PhP(H)C2H4P(H)Ph) and Ph2PH. A stepwise double P−N/P−P bond metathesis to catena‐tetraphosphane‐2,3‐diium triflate salt [(Ph2P)2(LC MeP)2][OTf]2 (7 a[OTf]2) is observed when reacting 3 a[OTf] with diphosphane P2Ph4. The coordination ability of 5 b[OTf] was probed with selected coinage metal salts [Cu(CH3CN)4]OTf, AgOTf and AuCl(tht) (tht=tetrahydrothiophene). For AuCl(tht), the helical complex [{(Ph2PPLC iPr)Au}4][OTf]4 (9[OTf]4) was unexpectedly formed as a result of a chloride‐induced P−P bond cleavage. The weakly coordinating triflate anion enables the formation of the expected copper(I) and silver(I) complexes [(5 b)M(CH3CN)3][OTf]2 (M=Cu, Ag) (10[OTf]2, 11[OTf]2)., Cationic 1,2,3‐triphospholanium salts [LC RP((PhP)2C2H4)][OTf] and dicationic catena‐tetraphosphane‐2,3‐diidum salt [(Ph2P)2(LC MeP)2][OTf]2 were obtained from reactions of Lewis basic phosphanes with dipyrazolylphosphanes [LC RP(pyr)2][OTf] (pyr=3,5‐dimethylpyrazol‐1‐yl). Reaction of triphosphane salt [LC RP(PPh2)2][OTf] with AuCl(tht) led to the cationic gold complex [{(Ph2PPLC iPr)Au}4][OTf]4, which forms a helical structure in the solid state.

Published

2019

5. Toward N,P-Doped π-Extended PAHs: A One-Pot Synthesis to Diannulated 1,4,2-Diazaphospholium Triflate Salts

Author

Jan J. Weigand, Antonio Bauzá, Robin Schoemaker, Felix Hennersdorf, Antonio Frontera, and Kai Schwedtmann

Subjects

010405 organic chemistry, Chemistry, Organic Chemistry, Polymer chemistry, One-pot synthesis, Doping, 010402 general chemistry, 01 natural sciences, Trifluoromethanesulfonate, 0104 chemical sciences

Abstract

A novel method for the one-pot synthesis of diannulated 1,4,2-diazaphospholium triflate salts by a Me3SiOTf-mediated self-condensation of dichlorophosphaneyl aza-(poly)cyclic aromatic hydrocarbons ...

Published

2020

6. Controlled scrambling reactions to polyphosphanes via bond metathesis reactions

Author

Antonio Frontera, Felix Hennersdorf, Jan J. Weigand, Robin Schoemaker, Antonio Franconetti, and Kai Schwedtmann

Subjects

chemistry.chemical_classification, 010405 organic chemistry, Chemistry, Salt (chemistry), General Chemistry, 010402 general chemistry, Condensation reaction, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, Coordination complex, Metal, chemistry.chemical_compound, Triphosphane, visual_art, Yield (chemistry), Salt metathesis reaction, visual_art.visual_art_medium, Trifluoromethanesulfonate

Abstract

Triphosphanes R′2PP(R)PR′2 (9a,c: R = Py; 9b R = BTz), 1,3-diphenyl-2-pyridyl-triphospholane 9d and pentaphospholanes (RP)5 (13: R = Py; 18: R = BTz) are obtained in high yield of up to 98% from the reaction of dipyrazolylphosphanes RPpyr2 (5: R = Py; 6: R = BTz; pyr = 1,3-dimethylpyrazolyl) and the respective secondary phosphane (R′2PH, R′ = Cy (9a,b), tBu (9c); PhPH(CH2)2PHPh (9d)). The formation of derivatives 9a–d proceeds via a condensation reaction while the formation of 13 and 18 can only be explained by a selective scrambling reaction. We realized that the reaction outcome is strongly solvent dependent as outlined by the controlled scrambling reaction pathway towards pentaphospholane 13. In our further investigations to apply these compounds as ligands we first confined ourselves to the coordination chemistry of triphosphane 9a with respect to coinage metal salts and discussed the observation of different syn- and anti-isomeric metal complexes based on NMR and X-ray analyses as well as quantum chemical calculations. Methylation reactions of 9a with MeOTf yield triphosphan-1-ium Cy2MePP(Py)PCy2+ (10+) and triphosphane-1,3-diium Cy2MePP(Py)PMeCy22+ (112+) cations as triflate salts. Salt 11[OTf]2 reacts with pentaphospholane 13 in an unprecedented chain growth reaction to give the tetraphosphane-1,4-diium triflate salt Cy2MePP(Py)P(Py)PMeCy22+ (19[OTf]2) via a P–P/P–P bond metathesis reaction. The latter salt is unstable in solution and rearranges via a rare [1,2]-migration of the Cy2MeP-group followed by the elimination of the triphosph-2-en-1-ium cation [Cy2MePPPMeCy2]+ (20+) to yield a novel 1,4,2-diazaphospholium salt (21[OTf]).

Published

2019

7. Cationic Nitrogen-Doped Helical Nanographenes

Author

Peter Machata, Jan J. Weigand, Reinhard Berger, Alexey A. Popov, Yubin Fu, Youjia Zhou, Kun Xu, Xinliang Feng, Ilka Vincon, and Felix Hennersdorf

Subjects

Dopant, 010405 organic chemistry, Graphene, Chemistry, Radical, Cationic polymerization, General Chemistry, 010402 general chemistry, Photochemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Helicene, law, Axial chirality, Cyclic voltammetry, Graphene nanoribbons

Abstract

Herein, we report the design and synthesis of a series of novel cationic nitrogen-doped nanographenes (CNDNs) with nonplanar geometry and axial chirality. Single-crystal X-ray analysis reveals helical and cove-edged structures. Compared to their all-carbon analogues, the frontier orbitals of the CNDNs are energetically lower lying, with a reduced optical energy gap and greater electron-accepting behavior. Cyclic voltammetry shows all the derivatives to undergo quasireversible reductions. In situ spectroelectrochemical studies prove that, depending on the number of nitrogen dopants, either neutral radicals (one nitrogen dopant) or radical cations (two nitrogen dopants) are formed upon reduction. The concept of cationic nitrogen doping and introducing helicity into nanographenes paves the way for the design and synthesis of expanded nanographenes or even graphene nanoribbons with cationic nitrogen dopants.

Published

2017

8. Kationische stickstoffdotierte helikale Nanographene

Author

Peter Machata, Xinliang Feng, Jan J. Weigand, Alexey A. Popov, Kun Xu, Yubin Fu, Ilka Vincon, Felix Hennersdorf, Youjia Zhou, and Reinhard Berger

Subjects

010405 organic chemistry, General Medicine, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences

Abstract

Wir berichten uber Design und Synthese einer Serie von neuen kationischen stickstoffdotierten Nanographenen (CNDN) mit einer nichtplanaren Geometrie und axialer Chiralitat. Einkristall-Rontgendiffraktometrie beweist deren helikale und teils “Cove”-terminierte Struktur. Verglichen mit den reinen Kohlenstoffanalogen liegen die Grenzorbitale der CNDN energetisch tiefer, was zu einer verringerten optischen Energielucke und einer erhohten Elektronenaffinitat fuhrt. Alle Derivate zeigen in cyclovoltammetrischen Untersuchungen quasireversibles Reduktionsverhalten. Abhangig von der Zahl an Stickstoffdotanden ist es moglich, neutrale Radikale (bei einem Stickstoffdotanden) oder Radikalkationen (bei zwei Stickstoffdotanden) wahrend des Reduktionsprozesses uber In-situ-Spektroelektrochemie zu analysieren. Kationische Stickstoffdotierung kombiniert mit Helizitat erschliest neue Wege fur das Design und die Synthese von ausgedehnten Nanographenen und Nanographenstreifen.

Published

2017

9. Reductive Ring Opening of a Cyclo-Tri(phosphonio)methanide Dication to a Phosphanylcarbodiphosphorane: In Situ UV-Vis Spectroelectrochemistry and Gold Coordination

Author

Sivathmeehan Yogendra, Felix Hennersdorf, Jan J. Weigand, Stephen Schulz, Roland Fischer, and S R Sarath Kumar

Subjects

In situ, 010405 organic chemistry, Chemistry, Organic Chemistry, 010402 general chemistry, Ring (chemistry), Photochemistry, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, 3. Good health, Dication, Inorganic Chemistry, Ultraviolet visible spectroscopy, Yield (chemistry), Physical and Theoretical Chemistry, Lone pair, Bond cleavage

Abstract

The formal two-electron reduction of the cyclo-tri(phosphonio)methanide dication 12+ results in a ring-opening reaction via C–P bond cleavage to yield the unique phosphanyl-functionalized carbodiphosphorane 2. In situ spectroelectrochemical investigations of the reduction of dication 12+ and the oxidation of 2 give insights into the mechanism of this unusual and reversible bond cleavage reaction. Compound 2 features in total three lone pairs of electrons, facilitating the preparation of mono-, di-, and trigold complexes.

Published

2017

10. Selective Derivatization of a Hexaphosphane from Functionalization of White Phosphorus

Author

Felix Hennersdorf, Julia Frötschel, and Jan J. Weigand

Subjects

010405 organic chemistry, White Phosphorus, General Chemistry, 010402 general chemistry, HEXA, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Amide, Surface modification, Organic chemistry, Derivatization, Brønsted–Lowry acid–base theory

Abstract

The reaction of LGa (L = Dipp(4-(Dipp-imino)pent-2-en-2-yl)amide; Dipp: 2,6-diisopropylphenyl) and white phosphorus was revisited. A plethora of unprecedented polyphosphanes in addition to the known monoinserted product LGaP4 (1) are observed. An optimized synthesis of the hitherto unknown hexaphosphane (LGa)2P6 (3) is presented, and its subsequent selective derivatization with Bronsted acids, MeOTf, Ph2ECl (E = P, As), and NaOCP provides access to a wealth of functionalized hexa- and heptaphosphanes.

Published

2017

11. Selective and Reversible Fluoride Complexation from Water by a Cyclic Tri(phosphonio)methanide Dication

Author

Jan J. Weigand, Sivathmeehan Yogendra, Felix Hennersdorf, Antonio Bauzá, Roland Fischer, and Antonio Frontera

Subjects

Aqueous solution, 010405 organic chemistry, Inorganic chemistry, General Medicine, General Chemistry, Electrophilic aromatic substitution, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Dication, chemistry.chemical_compound, chemistry, Intramolecular force, Polymer chemistry, Anhydrous, Lewis acids and bases, Fluoride

Abstract

Tri(phosphonio)methanide dication 32+ , prepared from a trifluoromethylsulfanylphosphonium dication (12+ ) via an intramolecular electrophilic aromatic substitution reaction, is an unexpected P-based, water-resistant Lewis acid that is capable to selectively and reversibly bind fluoride ions from organic/aqueous biphasic solution. The formed complex is an unusual fluorophosphorane ([3-F]OTf). The multiple donor-acceptor interactions of 32+ that are crucial for the fluoride fixation have been elucidated by quantum chemical calculation. Compound [3-F]OTf can also be used as a convenient anhydrous fluoride ion source and was probed as a suitable catalyst of the silylotrifluoromethylation of various aldehydes.

Published

2017

12. π-Extended and Curved Antiaromatic Polycyclic Hydrocarbons

Author

Wojciech Pisula, Peter Machata, Klaus Müllen, Stanislav M. Avdoshenko, Felix Hennersdorf, Ke Zhang, Ji Ma, Xinliang Feng, Alexey A. Popov, Prince Ravat, Junzhi Liu, Hartmut Komber, Jan J. Weigand, and Reinhard Berger

Subjects

010405 organic chemistry, General Chemistry, Fluorene, 010402 general chemistry, Photochemistry, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Electron transfer, Antiaromatic Polycyclic Hydrocarbons, photovoltaics, HOMO−LUMO energy gap, Colloid and Surface Chemistry, chemistry, Picene, law, ddc:540, Molecule, Antiaromatische polyzyklische Kohlenwasserstoffe, Photovoltaik, HOMO − LUMO-Energielücke, Electron paramagnetic resonance, Acene, HOMO/LUMO, Antiaromaticity

Abstract

Synthesis of antiaromatic polycyclic hydrocarbons (PHs) is challenging because the high energy of their highest occupied molecular orbital and low energy of their lowest unoccupied molecular orbital cause them to be reactive and unstable. In this work, two large antiaromatic acene analogues, namely, cyclopenta[pqr]indeno[2,1,7-ijk]tetraphene (CIT, 1a) and cyclopenta[pqr]indeno[7,1,2-cde]picene (CIP, 1b), as well as a curved antiaromatic molecule with 48 π-electrons, dibenzo[a,c]diindeno[7,1,2-fgh:7',1',2'-mno]phenanthro[9,10-k]tetraphene (DPT, 1c), are synthesized on the basis of the corona of indeno[1,2-b]fluorene. These three antiaromatic PHs possess a narrow energy gap down to 1.55 eV and exhibit high kinetic stability under ambient conditions. Moreover, these compounds display reversible electron transfer processes in both the cathodic and anodic regimes. Their cation and anion radicals are characterized by in situ vis-NIR absorption and electron paramagnetic resonance spectroelectrochemistry. The X-ray crystallographic analysis confirms that while CIP and CIT manifest planar structures, DPT shows a curved π-conjugated carbon skeleton. The synthetic strategy starting from ortho-substituted benzene units to construct five-membered rings in this work provides a unique entry to novel pentagon-embedding or curved antiaromatic polycyclic hydrocarbons. In addition, besides the detailed chemical and physical investigations, microscale single-crystal fiber field-effect transistors were also fabricated.

Published

2017

13. Isolation of Azadiphosphiridines and Diphosphenimines by Cycloaddition of Azides and a Cationic Diphosphene

Author

Antonio Bauzá, Kai Schwedtmann, Felix Hennersdorf, Antonio Frontera, Roland Fischer, and Jan J. Weigand

Subjects

Reaction mechanism, Chemistry, Diphosphene, 010405 organic chemistry, Cationic polymerization, General Chemistry, General Medicine, Ring (chemistry), 010402 general chemistry, Medicinal chemistry, 01 natural sciences, Catalysis, Cycloaddition, 0104 chemical sciences, chemistry.chemical_compound, Organic chemistry, Moiety, Chemical stability, Trifluoromethanesulfonate

Abstract

The polarized, cationic diphosphene [(Cl ImDipp )P=P(Dipp)]+ as the triflate salt 7[OTf](Cl ImDipp =4,5-dichloro-1,3-bis(Dipp)-imidazol-2-yl; Dipp=2,6-diisopropylphenyl) reacts with azides of type RN3 (R=Dipp or Dmp; Dmp=2,5-dimethylphenyl) in a [2+3] cycloaddition reaction followed by the release of N2 and a subsequent electrocyclic ring-closing reaction to azadiphosphiridine salts [(Cl ImDipp )P-P(Dipp)-N(R)]10a,b[OTf] (R=Dipp or Dmp). The reaction of 7[X] (X=OTf, GaCl4 ) with the electron-rich azides Me3 SiN3 and NaN3 give the unusual diphosphenimine derivatives [(Cl ImDipp )P-P(Dipp)=N(SiMe3 )]+ (11[OTf]) and [(Cl ImDipp )P-P(Dipp)=N(GaCl3 )] (12), respectively, featuring an acyclic P2 N moiety. Theoretical calculations provide insights into the reaction mechanisms to the cyclic and acyclic forms, in which the thermodynamic stability of the latter prevents the electrocyclic ring closure.

Published

2017

14. Facile synthesis of potassium tetrathiooxalate – The 'true' monomer for the preparation of electron-conductive poly(nickel-ethylenetetrathiolate)

Author

Christoph Leyens, Felix Hennersdorf, Jan J. Weigand, Ingmar Bauer, Lukas Stepien, Anton Kiriy, Roman Tkachov, Aljoscha Roch, Hartmut Komber, and Publica

Subjects

Potassium methoxide, Potassium, Inorganic chemistry, chemistry.chemical_element, Decarbonylation, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, chemistry.chemical_compound, precursor chemistry, Drug Discovery, Polymer chemistry, Tetrathiooxalate-dianion, chemistry.chemical_classification, Organic Chemistry, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Dmid-ligand, Nickel, Monomer, chemistry, Polymerization, Methanol, 0210 nano-technology, ring disclosure

Abstract

Herein, aiming at optimization of the polymerization process leading to a family of hole- and electron-conducting 1,1,2,2-ethenetetrathiolate-based polymers, such as poly(nickel-1,1,2,2-ethenetetrathiolate), poly[Kx(Ni-ett)], we investigated transformations of the monomer precursor 1,3,4,6-tetrathiapentalene-2,5-dione (TPD) occurring under polymerization conditions. We found that only one ring of TPD opens upon its reaction with potassium methoxide under inert conditions at room temperature which leads to the formation of potassium 2-oxo-1,3-dithiol-4,5-dithiolate (K2[3]). Heating of K2[3] under reflux in methanol solution under inert conditions opens the second ring, however the resulting product is not potassium ethenetetrathiolate (K4[2]), the product of an exhaustive methanolysis of TPD, but potassium tetrathiooxalate (K2[4]), the product of the decarbonylation of K2[3]. Preliminary experiments reveal that the involvement of K2[4] in the polymerization process is beneficial for reproducible formation of high quality 1,1,2,2-ethenetetrathiolate-based polymers suitable for thermoelectric applications.

Published

2017

15. Iron-Gallium and Cobalt-Gallium Tetraphosphido Complexes

Author

Robert Wolf, Christoph Ziegler, Jan J. Weigand, and Felix Hennersdorf

Subjects

Short Communication, Iron, ddc:540, Short Communications, NacNac, chemistry.chemical_element, Gallium, 010402 general chemistry, 01 natural sciences, Inorganic Chemistry, chemistry.chemical_compound, Transition metal, Atom, Molecule, Anthracene, 010405 organic chemistry, Chemistry, Heterobimetalic complexes, Phosphorus, Cobalt, Heterobimetalic complexes, Phosphorus, Gallium, Cobalt, Iron, 0104 chemical sciences, Crystallography, 540 Chemie

Abstract

The synthesis and characterization of two heterobimetallic complexes [K([18]crown‐6){(η4‐C14H10)Fe(μ‐η4:η2‐P4)Ga(nacnac)}] (1) (C14H10 = anthracene) and [K(dme)2{(η4‐C14H10)Co(μ‐η4:η2‐P4)Ga(nacnac)}] (2) with strongly reduced P4 units is reported. Compounds 1 and 2 are prepared by reaction of the gallium(III) complex [(nacnac)Ga(η2‐P4)] (nacnac = CH[CMeN(2,6‐iPr2C6H3)]2) with bis(anthracene)ferrate(1–) and ‐cobaltate(1–) salts. The molecular structures of 1 and 2 were determined by X‐ray crystallography and feature a P4 chain which binds to the transition metal atom via all four P atoms and to the gallium atom via the terminal P atoms. Multinuclear NMR studies on 2 suggest that the molecular structure is preserved in solution., John Wiley & Sons, Ltd.

Published

2020

16. Donor–acceptor interactions in tri(phosphonio)methanide dications [(Ph3P)2CP(X)Ph2]2+(X = H, Me, CN, NCS, OH, Cl, OTf, F)

Author

Felix Hennersdorf, Antonio Frontera, Antonio Bauzá, Sivathmeehan Yogendra, Roland Fischer, and Jan J. Weigand

Subjects

Inorganic Chemistry, Crystallography, 010405 organic chemistry, Chemistry, Stereochemistry, Moiety, Nuclear magnetic resonance spectroscopy, 010402 general chemistry, Donor acceptor, 01 natural sciences, Trifluoromethanesulfonate, 0104 chemical sciences, Natural bond orbital

Abstract

The impact of the strongly electron donating carbodiphosphorane moiety in the series of tri(phosphonio)methanide dications as triflate salts [(Ph3P)2CP(X)Ph2][OTf]2 (X = H, Me, CN, NCS, OH, Cl, OTf, F) deriving from [(Ph3P)2CPPh2][OTf] (19[OTf]) is presented. The influence of the introduced substituents X on the electronic structures of these dications is investigated by means of detailed NBO analysis, NMR spectroscopy and X-ray analysis.

Published

2017

17. Self-assembly of [2+2] Co(II) metallomacrocycles and Ni(II) metallogels with novel bis(pyridylimine) ligands

Author

Uwe Schwarzenbolz, Jan J. Weigand, Juliane März, Felix Hennersdorf, Karsten Gloe, Kerstin Gloe, Thomas Doert, Norman Kelly, and Axel Heine

Subjects

Denticity, 010405 organic chemistry, Stereochemistry, Ligand, Organic Chemistry, Supramolecular chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Inorganic Chemistry, Solvent, chemistry.chemical_compound, chemistry, Octahedron, Polymer chemistry, Materials Chemistry, Molecule, Physical and Theoretical Chemistry, Tetrahydrofuran, Dichloromethane

Abstract

Two novel 46-membered Co(II) metallomacrocycles, [Co2Cl4(L1)2]·CH2Cl2 and [Co2(NO3)2(L1)2(H2O)2⊂(NO3)](NO3)·4H2O, with 1,4-bis[4-(2-pyridylmethylideneamino)phenyloxy]benzene (L1) have been synthesized and characterized. Both Co(II) centers in these dinuclear complexes possess an octahedral coordination environment formed by a N4 donor set of two L1 ligands and two chloride or one monodentate nitrate and one water molecule, respectively. Whereas in the first case disordered solvent molecules are present in the macrocycle's cavity in the second one a nitrate anion is embedded. Furthermore, the molecular structures of L1, L3 and L4 were determined and solution studies of the complex formation of these ligands with Co(II), Ni(II) and Cu(II) in dichloromethane/methanol (v/v = 1:1) using UV/Vis and ESI-MS spectroscopic measurements were performed. In contrast to the self-assembling behavior of the bis(2-pyridylimine) ligand L1 the bis(3-pyridylimine) ligand L4 was also demonstrated to form metallogels when reacted with NiCl2·6H2O in tetrahydrofuran under defined conditions.

Published

2016

18. Construction of alkyl-substituted pentaphosphido ligands in the coordination sphere of cobalt

Author

Christoph Ziegler, Stefan Pelties, Robert Wolf, Clemens Taube, Jan J. Weigand, Thomas M. Maier, Felix Hennersdorf, Andreas W. Ehlers, and Catalyst Characterisation (HIMS, FNWI)

Subjects

chemistry.chemical_classification, Coordination sphere, 010405 organic chemistry, ddc:540, Acenaphthene, chemistry.chemical_element, NacNac, General Chemistry, Nuclear magnetic resonance spectroscopy, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, Chemistry, chemistry.chemical_compound, chemistry, 540 Chemie, Yield (chemistry), Cobalt, Diimine, Alkyl

Abstract

P–P condensation reactions in the coordination sphere of cobalt give access to unique organyl-substituted pentaphosphido complexes., Rare mono- and diorganopentaphosphido cobalt complexes are accessible by P–P condensation using the unprecedented, reactive cobalt-gallium tetraphosphido complex [K(dme)2{(MesBIAN)Co(μ-η4:η2-P4)Ga(nacnac)}] (2). Compound 2 was prepared in good yield by reaction of [K(Et2O){(MesBIAN)Co(η4-1,5-cod)}] [1, BIAN = bis(mesitylimino)acenaphthene diimine, cod = 1,5-cyclooctadiene] with [Ga(nacnac)(η2-P4)] (nacnac = CH[CMeN(2,6-iPr2C6H3)]2). Reactions with R2PCl (R = iPr, tBu, and Cy) selectively afford [(MesBIAN)Co(cyclo-P5R2)] (3a–c), which feature η4-coordinated 1,1-diorganopentaphosphido ligands. The mechanism of formation of these species has been studied by 31P{1H} NMR spectroscopy and DFT calculations. In the case of 3a (R = iPr), it was possible to identify the intermediate [(MesBIAN)Co(μ-η4:η2-P5iPr2)Ga(nacnac)] (4) by single-crystal X-ray diffraction. A related, monosubstituted organopentaphosphido cobalt complex [(MesBIAN)Co(μ-η4:η1-P5tBu)GaCl(nacnac)] (5) was isolated by reacting dichloroalkylphosphane tBuPCl2 with 2. Heterobimetallic complexes such as 2 thus may enable the targeted construction of a range of new metal-coordinated polyphosphorus frameworks by P–P condensation.

Published

2019

19. Toward Full Zigzag-Edged Nanographenes: peri-Tetracene and Its Corresponding Circumanthracene

Author

Jan J. Weigand, Felix Hennersdorf, Xinliang Feng, M. R. Ajayakumar, Ji Ma, Junzhi Liu, Hartmut Komber, A. Alfonsov, Klaus Müllen, Reinhard Berger, Yubin Fu, and Alexey A. Popov

Subjects

Organic electronics, Steric effects, Spintronics, 010405 organic chemistry, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Electrochemical energy conversion, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, Tetracene, chemistry, Zigzag, Chemical physics, Chemical stability, Singlet state

Abstract

Zigzag-edged nanographene with two rows of fused linear acenes, called as n-peri-acene (n-PA), is considered as a potential building unit in the arena of organic electronics. n-PAs with four (peri-tetracene, 4-PA), five (peri-pentacene, 5-PA) or more benzene rings in a row have been predicted to show open-shell character, which would be attractive for the development of unprecedented molecular spintronics. However, solution-based synthesis of open-shell n-PA has thus far not been successful because of the poor chemical stability. Herein we demonstrated the synthesis and characterization of the hitherto unknown 4-PA by a rational strategy in which steric protection of the zigzag edges playing a pivotal role. The obtained 4-PA possesses a singlet biradical character (y0 = 72%) and exhibits remarkable persistent stability with a half-life time (t1/2) of ∼3 h under ambient conditions. UV–vis–NIR and electrochemical measurements reveal a narrow optical/electrochemical energy gap (1.11 eV) for 4-PA. Moreover, t...

Published

2018

20. Tetra-cationic imidazoliumyl-substituted phosphorus–sulfur heterocycles from a cationic organophosphorus sulfide

Author

Kai Schwedtmann, Jan J. Weigand, Felix Hennersdorf, Florian D. Henne, Malte Kokoschka, and Fabian A. Watt

Subjects

Sulfide, Inorganic chemistry, chemistry.chemical_element, 010402 general chemistry, Ring (chemistry), 01 natural sciences, Medicinal chemistry, Catalysis, Materials Chemistry, Lewis acids and bases, chemistry.chemical_classification, biology, 010405 organic chemistry, Chemistry, Phosphorus, Metals and Alloys, Cationic polymerization, Disulfide bond, General Chemistry, biology.organism_classification, Sulfur, 0104 chemical sciences, 3. Good health, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ceramics and Composites, Tetra

Abstract

The reaction of imidazoliumyl-substituted P((III)) cations of type [L((R,Me))PCl2](+) (3a,b(+); L(R,Me) = imidazolium-2-yl a: R = Me; b: R = iPr) with (Me3Si)2S leads to the formation of tetra-cationic, eight-membered phosphorus sulfur heterocycles [L((R,Me))PS]4(4+) (9a,b(4+)), which can be explained by the tetramerization of the intermediately formed cationic phosphorus monosulfide [L((R,Me))PS](+) (8a,b(+)). The P4S4 ring adopts a crown conformation as observed for cyclo-S8. The Lewis base DMAP (4-dimethylaminopyridine) initiates a deoligomerization- and dismutation reaction of 9a,b(4+) to give P((I)) centered cation [L((R,Me))2P](+) (12a,b(+)) and phosphorus disulfide [(DMAP)2PS2](+) (14(+)).

Published

2016

21. Exploration of Thiazolo[5,4- d ]thiazole Linkages in Conjugated Porous Organic Polymers for Chemoselective Molecular Sieving

Author

Daniel Becker, Reinhard Berger, Jensheer Shamsudeen Seenath, Naisa Chandrasekhar, Silvia Paasch, Susanne Machill, Jan J. Weigand, Felix Hennersdorf, Bishnu P. Biswal, Xinliang Feng, and Eike Brunner

Subjects

chemistry.chemical_classification, Aqueous solution, Organic Chemistry, 02 engineering and technology, General Chemistry, Polymer, Conjugated system, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Moiety, Organic chemistry, Chemical stability, Chemoselectivity, 0210 nano-technology, Thiazole, Porous medium

Abstract

Porous organic polymers (POPs) have attracted significant attention towards molecular adsorption in recent years due to their high porosity, diverse functionality and excellent chemical stability. In this work, we present a systematic case study on the formation of thiazolo[5,4-d]thiazole (TzTz) linkages through model compounds and its integration to synthesize a set of three novel, thermo-chemically stable TzTz-linked POPs, namely TzTz-POP-3, TzTz-POP-4, and TzTz-POP-5 with triphenylbenzene, tetraphenylpyrene and tetra(hydroxyphenyl)methane cores, respectively. Interestingly, the integrated TzTz moiety of the represented TzTz-POP-3 renders chemoselective removal of organic dye fluorescein (FL) from a mixture with parafuchsine (FU) in aqueous solution. The TzTz-POP-3 offered excellent chemoselectivity of ≈1:7 (FL:FU), compared to alike porous materials demonstrated for similar applications due to the presence of multiple active anchoring sites coupled with permanent porosity and appropriate pore window.

Published

2018

22. Exploration of pyrazine-embedded antiaromatic polycyclic hydrocarbons generated by solution and on-surface azomethine ylide homocoupling

Author

Yuanqin He, Reinhard Berger, Jan J. Weigand, Klaus Müllen, Alexander Riss, Carlos-Andres Palma, Manuela Garnica, Johannes V. Barth, Willi Auwärter, Jonas Björk, Marcus Richter, Xinliang Feng, Felix Hennersdorf, Xiao-Ye Wang, Raju Rajesh, and Akimitsu Narita

Subjects

Materials science, Pyrazine, Science, General Physics and Astronomy, Azomethine ylide, 02 engineering and technology, 010402 general chemistry, Ring (chemistry), Photochemistry, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, law.invention, chemistry.chemical_compound, law, Molecule, lcsh:Science, Multidisciplinary, Dopant, Graphene, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 3. Good health, 0104 chemical sciences, chemistry, Polycyclic Hydrocarbons, lcsh:Q, 0210 nano-technology, Den kondenserade materiens fysik, Antiaromaticity

Abstract

Nanographenes, namely polycyclic aromatic hydrocarbons (PAHs) with nanoscale dimensions (>1 nm), are atomically precise cutouts from graphene. They represent prime models to enhance the scope of chemical and physical properties of graphene through structural modulation and functionalization. Defined nitrogen doping in nanographenes is particularly attractive due to its potential for increasing the number of π-electrons, with the possibility of introducing localized antiaromatic ring elements. Herein we present azomethine ylide homocoupling as a strategy to afford internally nitrogen-doped, non-planar PAH in solution and planar nanographene on surfaces, with central pyrazine rings. Localized antiaromaticity of the central ring is indicated by optical absorption spectroscopy in conjunction with theoretical calculations. Our strategy opens up methods for chemically tailoring graphene and nanographenes, modified by antiaromatic dopants., Polyaromatic hydrocarbons can be precisely manipulated to yield ever more complex and discrete graphene analogs, such as nanographenes. Here, the authors use azomethine ylide homocoupling to insert an antiaromatic pyrazine ring into the core of a nanographene, and characterize the molecule’s unique electronic character.

Published

2017

23. Nitrogen-Phosphorus(III)-Chalcogen Macrocycles for the Synthesis of Polynuclear Silver(I) Sandwich Complexes

Author

Jan J. Weigand, Felix Hennersdorf, and Sivathmeehan Yogendra

Subjects

Denticity, 010405 organic chemistry, Phosphorus, Inorganic chemistry, chemistry.chemical_element, 010402 general chemistry, Ring (chemistry), 01 natural sciences, Nitrogen, Sulfur, 0104 chemical sciences, Inorganic Chemistry, Chalcogen, chemistry, Transition metal, Polymer chemistry, Physical and Theoretical Chemistry, Selenium

Abstract

The synthesis of inorganic N–P(III)-Ch-based macrocycles [−PhP–NMe–PPh–Ch−]2 (8Ch; Ch = S, Se) is presented by incorporating two nitrogen, two chalcogen, and four phosphorus atoms. The macrocycles are conveniently obtained via the cyclocondensation reaction of Na2Ch (Ch = S, Se) with the acyclic dichlorodiphosphazane ClPhP–NMe–PClPh (9). Treatment with elemental sulfur (S8) or gray selenium (Segray) results in an oxidative ring contraction to give 1,3,2,4-thiazadiphosphetidine 2,4-disulfide (10S) and 1,3,2,4-selenazadiphosphetidine 2,4-diselenide (10Se), respectively. Macrocycles 8Ch are excellent multidentate ligands for transition metal complexation, as demonstrated by the isolation of mono-, di- tri-, and tetranuclear silver sandwich complexes. The polynuclear silver complexes are comprehensively characterized, including detailed NMR and X-ray analysis.

Published

2017

24. Carbodiphosphorane mediated synthesis of a triflyloxyphosphonium dication and its reactivity towards nucleophiles

Author

Antonio Bauzá, Antonio Frontera, Sivathmeehan Yogendra, Roland Fischer, Jan J. Weigand, and Felix Hennersdorf

Subjects

Substitution reaction, 010405 organic chemistry, Chemistry, Metals and Alloys, Leaving group, chemistry.chemical_element, General Chemistry, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, Sulfur, Combinatorial chemistry, Catalysis, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Dication, Nucleophile, Electrophile, Materials Chemistry, Ceramics and Composites, Moiety, Reactivity (chemistry)

Abstract

Synthesis of the triflyloxyphosphonium dication is presented bearing two electrophilic sites which are selectively addressable by different nucleophiles., A carbodiphosphorane ((Ph3P)2C) mediated synthesis of the first triflyloxyphosphonium dication (12+) bearing two electrophilic sites is presented. Depending on the nucleophile, 12+ reacts selectively either at the sulfur atom of the triflyloxy moiety or at the directly attached phosphorus atom. In substitution reactions at the phosphorus atom the triflyloxy moiety serves as a leaving group and enables the synthesis of rare examples of pseudo-halophosphonium dications.

Published

2017

25. Condensation Reactions of Chlorophosphanes with Chalcogenides

Author

Saurabh S. Chitnis, Felix Hennersdorf, Michael Bodensteiner, Roland Fischer, Jan J. Weigand, Neil Burford, and Sivathmeehan Yogendra

Subjects

Steric effects, 010405 organic chemistry, Stereochemistry, Sodium, chemistry.chemical_element, 010402 general chemistry, Condensation reaction, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Transition metal, Structural isomer, Diphosphane, Physical and Theoretical Chemistry

Abstract

A high-yielding and facile synthesis for diphosphane monochalcogenides (1(Ch)((R))) and their constitutional isomers, diphosphanylchalcoganes (2(Ch)((R))), was developed, featuring a condensation reaction between chlorophosphanes (R2PCl) and sodium chalcogenides (Na2Ch, Ch = S, Se, (Te)). The optimized protocol selectively yields either 1(Ch)((R)) (R2(Ch)PPR2) or 2(Ch)((R)) (Ch(PR2)2) depending upon the steric demand of the substituents R. Reaction pathways consistent with the distinct reaction outcomes are proposed. The application of 1(Ch)((R)) and 2(Ch)((R)) as an interesting class of ligands is exemplarily demonstrated by the preparation of selected transition metal complexes.

Published

2016

26. Recent highlights in mixed-coordinate oligophosphorus chemistry

Author

Felix Hennersdorf, Jan J. Weigand, and Maximilian Donath

Subjects

oligophosphorus chemistry, synthetic approaches, phosphorus atoms, TU Dresden, Publishing Fund, chemistry, 010405 organic chemistry, Phosphorus, ddc:540, chemistry.chemical_element, Crystallographic data, Nanotechnology, Oligophosphorchemie, Syntheseansätze, Phosphoratome, TU Dresden, Publikationsfonds, General Chemistry, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences

Abstract

This review aims to highlight and comprehensively summarize recent developments in the field of mixed-coordinate phosphorus chemistry. Particular attention is focused on the synthetic approaches to compounds containing at least two directly bonded phosphorus atoms in different coordination environments and their unexpected properties that are derived from spectroscopic and crystallographic data. Novel substance classes are discussed in order to supplement previous reviews about mixed-coordinate phosphorus compounds.

Published

2016

27. Cationic 5-phosphonio-substituted N-heterocyclic carbenes

Author

Robin Schoemaker, Robert Weiss, Kai Schwedtmann, Jan J. Weigand, Felix Hennersdorf, Antonio Frontera, and Antonio Bauzá

Subjects

Olefin fiber, 010405 organic chemistry, Stereochemistry, Chemistry, Cationic polymerization, Naturwissenschaftliche Fakultät, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Dication, Inorganic Chemistry, N-heterocyclischen Carbenen (NHCs), elektrophile PIII-Verbindung, anorganische Chemie, Deprotonation, N-heterocyclic carbenes (NHCs), electrophilic PIII compounds, inorganic chemistry, Transition metal, Nucleophile, Reagent, ddc:540, SN2 reaction

Abstract

2-Phosphanyl-substituted imidazolium salts 2-PR2(4,5-Cl-Im)[OTf] (9a,b[OTf]) (4,5-Cl-Im = 4,5-dichloro-1,3-bis(2,6-di-isopropylphenyl)-imidazolium) (a: R = Cy, b: R = Ph) are prepared from the reaction of R2PCl (R = Cy, Ph) with NHC 8 (4,5-dichloro-1,3-bis(2,6-di-isopropylphenyl)-imidazolin-2-ylidene) in the presence of Me3SiOTf. 5-Phospanyl-substituted imidazolium salts 5-PR2(2,4-Cl-Im)[OTf] (10a,b[OTf]) are obtained in quantitative yield when a slight excess of the NHC 8 is used. 5-Phosphonio-substituted imidazolium salts 5-PR2Me(2,4-Cl-Im)[OTf]2 (14a,b[OTf]2) and 5-PR2F(2,4-Cl-Im)[OTf]2 (16a,b[OTf]2) result from methylation reaction or oxidation of 10a,b[OTf] with XeF2 and subsequent fluoride abstraction. According to our quantum chemical studies the Cl1 atom at the 2-position at the imidazolium ring of dication 14b(2+) carries a slightly positive charge and is therefore accessible for nucleophilic attack. Accordingly, the reaction of 14a,b[OTf]2 and 16a,b[OTf]2 with R3P (R = Cy, Ph) affords cationic 5-phosphonio-substituted NHCs 5-PR2Me(4-Cl-NHC)[OTf] (17a,b[OTf]) and 5-PR2F(4-Cl-NHC)[OTf] (18a,b[OTf]) via a SN2(Cl)-type reaction. A series of transition metal complexes such as [AuCl(5-PPh2Me(4-Cl-NHC))][OTf] (19[OTf]), [CuBr(5-PPh2Me(4-Cl-NHC))][OTf] (20[OTf]), [AuCl(5-PPh2F(4-Cl-NHC))[OTf] (21[OTf]) and [RhCl(cod)(5-PPh2Me(4-Cl-NHC))][OTf] (23[OTf]) are prepared to prove the coordination abilities of carbenes 17b[OTf] and 18b[OTf]. The isolation of a rare example of a tricationic bis-carbene silver complex [Ag(5-PPh2Me(4-Cl-NHC))2][OTf]3 (22[OTf]3) is achieved by reacting 14b[OTf] with Cy3P in the presence of AgOTf. NHC 17b[OTf] represents a very effective dehydrocoupling reagent for secondary (R2PH, R = Ph, Cy, (i)Bu) and primary (RPH2, R = Ph, Cy) phosphanes to give diphosphanes of type R4P2 (R = Ph, Cy, (i)Bu) and oligophosphanes R4P4, R5P5 (R = Ph, Cy), respectively. Methylation of 17b(+) and subsequent deprotonation reaction with LDA affords the cationic NHO (N-heterocyclic olefin) 35(+) of which the gold complex 36(+) is readily accessible via the reaction with AuCl(tht).

Published

2016

28. [((Cl)Im(Dipp))P=P(Dipp)][GaCl4]: a polarized, cationic diphosphene

Author

Kai Schwedtmann, Roland Fröhlich, Jan J. Weigand, Chris H. Sala, Felix Hennersdorf, and Michael H. Holthausen

Subjects

chemistry.chemical_classification, Double bond, 010405 organic chemistry, Diphosphene, Metals and Alloys, Cationic polymerization, Nanotechnology, General Chemistry, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, Bond-dissociation energy, Catalysis, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Nucleophile, Materials Chemistry, Ceramics and Composites, Diphosphane, Stereoselectivity, Lewis acids and bases

Abstract

The reaction of the neutral diphosphanide [((Cl)Im(Dipp))P-P(Cl)(Dipp)] (6) ((Cl)Im(Dipp) = 4,5-dichloro-1,3-bis(Dipp)-imidazol-2-yl; Dipp = 2,6-di-iso-propylphenyl) with methyl triflate (MeOTf) leads to the formation of cationic diphosphane [((Cl)Im(Dipp))(Me)P-P(Cl)(Dipp)](+) (8+) in a stereoselective methylation. In contrast, reacting with the Lewis acid GaCl3 yields cationic diphosphene [((Cl)Im(Dipp))P=P(Dipp)](+) (7+), which is explained by a low P-Cl bond dissociation energy. The significantly polarized P=P double bond in 7+ allows for its utilization as an acceptor for nucleophiles - the reaction with Cl(-) regenerates diphosphanide and the reaction with PMe3 gives cation [((Cl)Im(Dipp))P-P(PMe3)(Dipp)] (9+). In depth DFT investigation provides detailed insights into the bonding situation of the reported compounds.

Published

2015