Kathryn E. Holmes scite author profile

Pt(IV)-mediated addition of the sulfimide Ph2S = NH and the mixed sulfide/sulfimides o- and p-[PhS(=NH)](PhS)-C6H4 by the S=NH group to the metal-bound nitriles in the platinum(IV) complexes [PtCl4(RCN)2] proceeds smoothly at room temperature in CH2Cl2 and results in the formation of the heterodiazadiene compounds [PtCl4[NH=C(R)N=SR'Ph]2] (R' = Ph, R = Me, Et, CH2Ph, Ph; R' = o- and p-(PhS)C6H4; R = Et). While trans-[PtCl4(RCN)2] (R = Et, CH2Ph, Ph) reacting with Ph2S=NH leads exclusively to trans-[PtCl4[NH=C(R)N=SPh2]2], cis/trans-[PtCl4(MeCN)2] leads to cis/trans mixtures of [PtCl4[NH=C(Me)N=SPh2]2] and the latter have been separated by column chromatography. Theoretical calculations at both HF/HF and MP2//HF levels for the cis and trans isomers of [PtCl4[NH=C(Me)N=SMe2]2] indicate a higher stability for the latter. Compounds trans-[PtCl4[E-NH=C(R)N=SPh2]2] (R = Me, Et) and cis-[PtCl4[E-NH=C(Me)N=SPh2][Z-NH=C(Me)N=SPh2]] have been characterized by X-ray crystallography. The complexes [PtCl4[NH=C(R)N=SPh2]2] undergo hydrolysis when treated with HCl in nondried CH2Cl2 to achieve the amidines [PtCl4[NH=C(NH2)R]2] the compound with R = Et has been structurally characterized) and Ph2SO. The heterodiazadiene ligands, formed upon Pt(IV)-mediated RCN/sulfimide coupling, can be liberated from their platinum(IV) complexes [PtCl4[NH=C(R)N=SR'Ph]2] by reaction with Ph2PCH2CH2PPh2 (dppe) giving free NH=C(R)=SR'Ph and the dppe oxides, which constitutes a novel route for such rare types of heterodiazadienes whose number has also been extended. The hybrid sulfide/sulfimide species o- and p-[PhS(=NH)](PhS)C6H4 also react with the Pt(II) nitrile complex [PtCl2(MeCN)2] but the coupling--in contrast to the Pt(IV) species--gives the chelates [PtCl2[M-I=C(Me)N=S(Ph)C6H4SPh]]. The X-ray crystal structure of [PtCl2[M-I=C(Me)N=S(Ph)C6H4SPh-o]] reveals the bond parameters within the metallacycle and shows an unusual close interaction of the sulfide sulfur atom with the platinum.

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Honeycombs, herringbones and brick-walls; three-fold guest-dependent variation in copper trimesate complexes bearing sulfimide ligands

Holmes

Kelly

Elsegood

2004

Dalton Trans.

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Reaction of a solution of CuSO(4) and S,S'-diphenylsulfimide, Ph(2)SNH 1, with sodium salts of trimesic acid (H(3)tma) in MeOH gives the 2-D coordination network [Cu(3)(Ph(2)SNH)(6)(tma)(2)] in which each trimesate is bound to three copper centres. Addition of other solvents to the reaction mixture causes a change in the shape of the network. By this route, three forms have been prepared and characterised by X-ray crystallography. These include the known honeycomb, 2, and brick-wall, 3, motifs and a herringbone, 4, arrangement which is novel for transition metal-containing trimesate complexes. Key to the supramolecular isomerism observed is the ability of 1 to facilitate structural isomerism at copper(II) centres. In contrast to 2 in which the copper centres are square planar, 4 is analogous to an inter-allogon, with both planar and tetrahedral copper centres. Also prepared is a related complex which is composed of discrete units of three copper centres. These are further linked into a 2-D network by hydrogen bonds.

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Structural diversity within the products of the reaction of Ph₂SNH with copper(ii) tetrafluoroborate

2002

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S,S'-diphenylsulfimide Ph 2 SNH (1) reacts with copper tetrafluoroborate to give a number of different products including two concomitant polymorphs of [Cu(Ph 2 -SNH) 4 ][BF 4 ] 2 , the interallogon [Cu(Ph 2 SNH) 4 ] 2 [BF 4 ] 4 and [Cu(Ph 2 SNH) 4 ][Cu(Ph 2 SNH) 5 ][BF 4 ] 4 , an extremely rare example of a homoleptic system exhibiting four-and five-coordinate metal centres in the same unit cell.

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Mannich and O‐Alkylation Reactions of Tetraalkoxyresorcin[4]arenes – The Use of Some Products in Ligand‐Assisted Reactions

et al. 2006

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The measurement of the pKa of racemic tetramethoxyresorcin[4]arenes explains the failure to obtain good yields in attempted Mannich reactions of these substrates under classical reaction conditions. The failure is related to the lack of adequate concentrations of the iminium ions that results from the reduced acid strength of tetraalkoxyresorcin[4]arenes compared with that of the parent octahydroxyresorcin[4]arenes. However, the preparation of a series of Mannich bases derived from racemic tetraalkoxyresorcin[4]arenes was accomplished under microwave‐assisted aprotic reaction conditions and the use of preformed iminium ion intermediates. When the reactions were carried out with the use of chiral bis(aminol) ethers, mixtures of diastereomers were obtained that could be separated by flash chromatography. The absolute configurations of the enantiomerically pure tetrabenzoxazine derivatives were established in some cases by X‐ray crystallographic analysis and by a comparison of the nuclear magnetic resonance spectroscopic data. The alkylation of racemic tetramethoxyresorcin[4]arenes was achieved with the use of an excess of 2‐bromo‐N‐[(R)‐(+)‐(α‐methylbenzyl)]acetamide in acetonitrile containing potassium carbonate. Enantioselective ligand‐assisted reactions of aromatic aldehydes are also reported with the use of dialkylzinc reagents both in the absence and in the presence of terminal alkynes.(© Wiley‐VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2006)

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The preparation and structure of novel sulfimide systems; X-ray crystal structures of 1,4-(PhS{NH})2C6H4 (and dihydrate), 1,2-(PhS{NH})(PhS)C6H4·H2O and of [Ph2SNH] and its hydrate

et al. 2002

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Kathryn E. Holmes

Platinum(IV)-Mediated Nitrile−Sulfimide Coupling: A Route to Heterodiazadienes

Honeycombs, herringbones and brick-walls; three-fold guest-dependent variation in copper trimesate complexes bearing sulfimide ligands

Structural diversity within the products of the reaction of Ph₂SNH with copper(ii) tetrafluoroborate

Mannich and O‐Alkylation Reactions of Tetraalkoxyresorcin[4]arenes – The Use of Some Products in Ligand‐Assisted Reactions

The preparation and structure of novel sulfimide systems; X-ray crystal structures of 1,4-(PhS{NH})2C6H4 (and dihydrate), 1,2-(PhS{NH})(PhS)C6H4·H2O and of [Ph2SNH] and its hydrate

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Kathryn E. Holmes

Platinum(IV)-Mediated Nitrile−Sulfimide Coupling: A Route to Heterodiazadienes

Honeycombs, herringbones and brick-walls; three-fold guest-dependent variation in copper trimesate complexes bearing sulfimide ligands

Structural diversity within the products of the reaction of Ph2SNH with copper(ii) tetrafluoroborate

Mannich and O‐Alkylation Reactions of Tetraalkoxyresorcin[4]arenes – The Use of Some Products in Ligand‐Assisted Reactions

The preparation and structure of novel sulfimide systems; X-ray crystal structures of 1,4-(PhS{NH})2C6H4 (and dihydrate), 1,2-(PhS{NH})(PhS)C6H4·H2O and of [Ph2SNH] and its hydrate

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Structural diversity within the products of the reaction of Ph₂SNH with copper(ii) tetrafluoroborate