Nickel dithiolate

A nickel disulfonato complex obtained by oxidation of a mononuclear nickel dithiolate complex... 

The use of six equivalents of dihydrogen peroxide leads to a clean conversion of the dithiolate complex to the disulfonate compound. Earlier studies on oxidation of nickel thiolates showed that oxidations with dioxygen stop at monosulfinates. Our observation and the characterization of the first chelating bis-sulfonato nickel complex formed from the direct oxidation of a mononuclear nickel dithiolate, may also provide new insight into the chemistry of sulfur-rich nickel-containing enzymes in the presence of oxygen. 

Henderson, R. K., Bouwman, E., Spek, A. L. and Reedijk, J. (1997) A unique mononuclear nickel disulfonato complex obtained by oxidation of a mononuclear nickel dithiolate complex. Inorg. Chem., 36, 4616-17. 

The complex [perylene]2[Ni(mnt)2] showed the largest electrical conductivity among the nickel dithiolate complexes (a = 50 Q-1 cm-1 at room temperature on single crystals) but it has not yet been structurally characterized.2218,3219... 

Relevant to the conflicting reports of copper versns nickel reqnirements for enzyme activity,biochemical stndies demonstrated the existence of a labile nickel associated with the a snbnnit of ACS/CODH. Very recently, model stndies on a metal-ion captnre of a peptide-backbone, nonlabile [MN2S2] (26) nnit have established the capability of snch a nickel dithiolate to bind exogeneons metals. A qualitative ranking of the binding ability of complex (26) with Zn +, Cn+, and Ni + was established by a metal-ion displacement experiment (Zn + < < Cn+), as shown in Scheme 9. ... 

The monomeric nickel dithiolates, structures 8h-81, have yielded electrochemical data relating to the three-oxidation-state hypothesis expressed in the Introduction. Complexes 8h-8k show S-based reactivity, including the S-based uptake and binding of gaseous molecules, SO2, O2, and I2 in complex 8k. " Complex 8h " was used in an intensive analysis of requirements to achieve the... 

Figure 7 Decomposition of CHP (1 x 10 M) in chlorobenzene at 110°C in the presence of nickel dithiolates (2 X lO"" M). Inset shows product yields after complete reaction of NiDBP with CHP at 110 °C in chlorobenzene at various...

Many heavy metals react with dithiol to give coloured precipitates, e.g. bismuth, iron(III), copper, nickel, cobalt, silver, mercury, lead, cadmium, arsenic, etc. molybdate and tungstate also react. Of the various interfering elements, only arsenic distils over with the tin when a mixture is distilled from a medium of concentrated sulphuric acid and concentrated hydrobromic acid in a current of carbon dioxide. If arsenic is present in quantities larger than that of the tin it should be removed. 

The palladium-catalyzed formation of sulfides can generate polyphenylene sulfide from a dithiol and a dibromoarene, or from 4-bromobenzenethiol (Equation (38)).17 In 1984 Asahi Glass obtained patents for the formation of this polymer in the presence of palladium and nickel catalysts.125,126 In addition, Gingras reported palladium-catalyzed couplings of aryl halides and thiols to form discrete phenylene sulfide oligomers.127,128 A number of polyphenylene sulfide wires, ranging from dimeric to pentameric structures, were prepared by the palladium coupling, albeit in modest yields ... 

M[pz(A4)] A = S2ML2. The octakis(.V-R)porphyra/,ines reported by Schramm and Hoffman (2), M[pz(S-R)8 (M = Ni, Cu), (60), can be converted to the octathiolate M[pz(S )g] (Scheme 11) via reductive cleavage of the sulfur-carbon bond when R = benzyl (Bn), and this tetra-bis(dithiolate) can then be peripherally capped with metal-ligand systems to yield peripherally tetrametalated star porphyrazines. The benzyl dinitrile 57 can be macrocyclized around magnesium butoxide to form [Mg[pz(S-Bn)8] (58) (35-40%), which can then be demetalated with trifluoroacetic acid to form 59 (90%), which is subsequently remetalated with nickel or copper acetate to form 60a (95%) and 60b (70%) (Scheme 11) (3, 23, 24). Deprotection of 60a or 60b with sodium in ammonia yields the Ni or Cu tetra-enedithiolates, 61a or 61b to which addition of di-ferf-butyl or n-butyl tin dinitrate produces the peripherally metalated star porphyrazines 62a (37%), 62b (80%), and 62c (41%). 

Synthesis. The trimetalic nickel binary pz (75) was prepared from 69a (Scheme 14) (22). Porphyrazine 69b was reductively deprotected with sodium in ammonia then reprotected forming 74, which allowed for purification of the molecule. The pivolyl protecting group was cleaved by saponification with sodium methoxide and the dithiolate, in situ, was reacted with NiCl2-6H20 to yield the binary pz complex 75. 

Synthesis. These macrocycles are prepared from seven-membered ring dinitrile complexes, 84a-84c (Scheme 17), which contain either methylene, sulfur or oxygen in the five position (129). These cyclic dinitriles are synthesized by alkylating maleonitrile dithiolate or derivatives thereof with the corresponding dihalide. The dinitriles 84a-84c can be cyclized in magnesium propoxide to form porphyrazines 85a (33%), 85b (19%), and 85c (27%) (Scheme 17), which can be demetalated with trifluoroacetic to form 86a-86c. Additionally, 86a has been remetalated with nickel (87a, 92%), copper (88a, 95%), and zinc (89a, 94%). The sulfur and oxygen derivatives 85b, 85c, 86b, and 86c are of low solubility and are not suitable for further manipulation. 

Mesylation of alcohol 14 and hydrolysis of the acetal with oxalic acid leads to the key decalone 16 which cyclises in the presence of NaH in dioxane to afford twistanone 17 in quantitative yields. The elimination of the carbonyl group was carried out by an alternative method to the Wolff-Kishner reduction, which involves the thioacetalisation of the twistanone (18) with ethane-1,2-dithiol and removal of the resulting thioacetal by Raney nickel in boiling ethanol (62% yield). 

Ethylenediaminetetraacetic acid, analogs, complexes of, 3 277 chelation by, 3 276-277 cobalt complex of, 3 281 complexes, 3 277-278 formation constant of, 3 273-274 -nickel, 3 17-18 stability of, 3 266-267 reaction with metal ions, 3 62 Ethylene dibromide, irradiation of, 5 196 4,5-Ethylenedithio-1,3-dithiole-2-thione based supramolecular complexes, 46 200-204 Ethylene glycol, 32 4... 

Several transition metal ions form stable complexes with aliphatic 1,2-dithiols, which absorb in the near-lR. Known as dithiolenes, their nickel complexes in particular have been found to have valuable properties. The physical properties of dithiolenes can be readily tailored by variations on the substituents attached to the dithiols, see (4.13). Although they have low molar absorption coefQcients, when compared to cyanines etc., they do have one big advantage in that they show very little absorption in the visible region." Stracturally analogous dyes can be made from aromatic dithiols and oxothiols (4.14), and the much more bathochromic naphthalene derivatives (4.15), but they are much weaker absorbers. 

Le Narvor N, Robertson N, Weyland T, Kilbum JD, Underhill AE, Webster M, Svenstrup N, Becher J (1996) Synthesis, structure and properties of nickel complexes of 4,5-tetrathia-fulvalene dithiolates high conductivity in neutral dithiolate complexes. Chem Commun 1363-1364... 

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