Über Reaktionen oxygenierter Kobalt(II)-Chelate. VI. Präparative Darstellung von diastereoisomeren Tetrakis(äthylendiamin)-μ-peroxo-μ-hydroxodikobalt(III)-perchloraten

On Reactions of oxygenated Cobalt(II) Chelates. VI. Preparation of diastereoisomeric tetrakis(ethylenediamine)-μ-peroxo-μl-hydroxo-dicobalt(III) Perchlorates Oxygenation of Co(en)₂²⁺ leads to a mixture of two isomeric forms of [(en)₂Co(O₂, OH)-Co(en)₂] (ClO₄)₃ · H₂O from which the less soluble meso form can be readily crystallized. Further crystallization from the mother liquor yields the racemate ΔΔ/ΔΔ. The pure racemate may be obtained by either of the following methods: (a) By ligand exchange starting from mono bridged [(NH₃)₅CoO₂Co(NH₃)₅] (NO₃)₄ or from doubly bridged [(SCN) (NH₃)₃Co(O₂, OH)Co(NH₃)₃(SCN)] SCN · 2H₂O. (b) By reaction of cis-[Co(en)₂(OH₂)₂]³⁺ with H₂O₂. Reaction (b) proceeds via an intermediate cis-[Co(en)₂(OOH) (OH₂)] (ClO₄)₂ · H₂O which at higher pH reacts with [Co(en)₂(OH) (OH₂)]²⁺ to yield the desired doubly bridged ΔΔ/ΔΔ tetrakis(ethylenediamine)-μ-peroxo-μ-hydroxodikobalt(III)-perchlorate.     

Über Reaktionen oxygenierter Kobalt(II)-Komplexe. IX. Oxydative Eigenschaften von Tetrakis(äthylendiamin)-μ-peroxo-μ-hydroxo-dikobalt(III)

Reactions of oxygenated cobalt(II) complexes. IX. Oxidative properties of tetrakis(ethylenediamine)-μ-peroxo-μ-hydroxo-dicobalt(III)

1 VIII s. [1].

[(en)₂Co(O₂, OH)Co(en)₂]³⁺ ( a ) reacts with I^? in acidic aqueous solution according to: Co^III(O₂, OH)Co^III + 21^? + 5H⁺ ? 2Co^III + 3H₂O + I₂. Using I^? in excess first order rate constants are obtained which, to a first approximation, are independent of [I^?]. Comparison with kinetic data of deoxygenation of [(en)₂Co(O₂, OH)Co(en)₂]³⁺ under analogous conditions suggests that both reactions have the same rate determining step. The singly bridged species [(en)₂(H₂O)CoO₂Co(H₂O) (en)₂]⁴⁺ is shown to be the reactive intermediate in the iodide oxidation (Schema 2).     

Kobalt-Komplexe mit O2-Brücken: Die Struktur der Kationen μ-Hydroxo-μ-peroxo-bis[bis(äthylendiamin) kobalt(III)]3+ und μ-Hydroxo-μ-superoxo-bis[bis (äthylendiamin)kobalt(III)]4+

Cobalt Complexes with O₂ Bridges: The Structure of the Cations μ-Hydroxo-μ-peroxo-bis[bis(ethylenediamine) cobalt (III)]³⁺and μ-Hydroxo-μ-superoxo-bis [bis (ethylenediamine) cobalt (III)]⁴⁺ X-ray structure determinations of one salt of each of the two chemically and structurally closely related dinuclear cobalt cations [(en)₂Co · μ(OH, O₂) · Co(en)₂]³⁺ 1a and [(en)₂Co · μ(OH, O₂) · Co(en)₂]⁴⁺ 1b have been performed. In both cases the cations exist as racemic mixtures of ΔΔ and ΔΔ isomers. The O–O distance in the μ-peroxo cation 1a is 1.465 Å and the Co–O–O–Co torsion angle is 60.7°. The corresponding values for the μ-superoxo cation 1b are 1.339 Å and 22.0°.     

Die Kristall- und Molekülstruktur von μ-5-Pyrimidincarboxylato (O,O′)-di-μ-hydroxo-bis[triamminkobalt(III)]perchlorat

Crystal and Molecular Structure of μ-5-Pyrimidinecarboxylato(O,O′)-di-μ-hydroxo-bis-[triamminecobalt(III)]perchlorate μ-5-Pyrimidinecarboxylato(O,O′)-di-[μ-hydroxo-bis(triamminecobalt)(III)]perchlorate, [(NH₃)₃Co-μ(OH, OH, C₅H₄N₂O₂)Co(NH₃)₃](ClO₄)₄, crystallizes in the orthorhombic space group Ibca with a = 12.686, b = 13.079, c = 31.785 Å and Z = 8 formula units. The complex cation adopts C₂ symmetry, but no mirror plane is present. The Co? Co separation in the binuclear complex is 2.794 Å. The four-membered ring defined by the two Co atoms and the bridging oxygens is folded along the O? O axis, the interplanar angle being 154°. One of the ClO₄ tetrahedra is disordered over two sites in the crystal.     

Über Reaktionen oxygenierter Kobalt(II)-Komplexe. V. Reaktivität diastereoisomerer μ-Peroxo-μ-hydroxo-dikobalt(III)-Ionen

On Reactions of oxygenated Cobalt(II) Complexes. V. Reactivity of diastereoisomeric μ-peroxo-μ-hydroxo-dicobalt(III) Ions The kinetics of dissociation of μ-peroxo-μ-hydroxo-dicobalt(III) chelates have been reinvestigated using a stopped flow technique. The binuclear cations [(trien)Co(O₂, OH) Co(trien)]³⁺, [(tren)Co(O₂, OH)Co(tren)]³⁺ and [(en)₂Co(O₂, OH)Co(en)₂]³⁺ dissociate on acidifying to Co²⁺ and the protonated ligand and up to 100% of the bound O₂ is evolved. The dissociation is H⁺-catalyzed and first order in complex. The observed rate constants at pH 2 are in the range of 10^?3 to 10^?1 s^?1 (20°). They depend not only on the nature of the ligand and on ligand configuration but also on the diastereoisomeric structure of the binuclear cation. In the case of trien there are 8 possible chemically different isomers. On oxygenation of Co(trien)²⁺ in dilute solution 3 of those isomers seem to be formed preferentially. Their rate constants are separated over a factor of 50. For [(en)₂ Co(O₂, OH)Co(en)₂]³⁺ there exist a meso form and a chiral structure. On oxygenation of Co(en)₂²⁺ in dilute solution the meso form and the racemate are formed to about equal amounts. The racemate dissociates about 5 times slower. Of the 3 possible achiral isomers of [(tren)Co(O₂, OH)Co(tren)]³⁺ one is formed stereoselectively by oxygenation in solution.     

Mehrkernige Kobaltkomplexe: Die Struktur von Bis(tri-μ-hydroxo-bis{triamminkobalt(III)}) trisdithionat

Polynuclear Cobalt Complexes: The Structure of Bis(tri-μ-hydroxo-bis{triammine-cobalt(III)})trisdithionate The binuclear complex [(NH₃)₃Co · μ(OH, OH, OH) · Co(NH₃)₃]₂(S₂O₆)₃ crystallizes in the monoclinic space group P2₁/c with lattice constants a = 10.970, b = 9.412, c = 16.069 Å and β = 117.10°. The unit cell contains four cations and six anions. The structure has been determined by an X-ray crystallographic analysis and was refined to R = 0.052.     

Reactions of oxygenated cobalt (II) complexes. XIII. Diastereoisomeric forms of μ-peroxo-μ-hydroxo-bis[bis(ethylenediamine) cobalt(III)]. Preparation,X-ray structure determination and reactivity

Oxygenation of solutions containing bis(ethylenediamine) cobalt(II) ions leads to a mixture of diastereomeric forms of μ-peroxo-μ-hydroxo-bis[bis(ethylenediamine) cobalt(III)] cations. The existence of a meso-isomer has now been proved by its isolation as perchlorate and by an X-ray structure determination. The crystals are monoclinic with space group P2₁/n and lattice constants: a = 19.280, b = 11.984, c = 11.654 Å, β = 99.190°. The UV./VIS. spectra of the isomers are practically identical but show different kinetic behaviour. In acidic solution the meso-isomer decomposes 4 times faster than the racemic form. In alkaline solution the meso-isomer isomerizes to the racemic form. A mechanism which explains all the kinetic observations has been devised.     

Über die Ammonolyse des Hexamminkobalt(III)-Ions in flüssigem Ammoniak

[Co(NH₃)₆](NO₃)₃ (I) dissolved in liquid NH₃ reacts with 1 equivalent of KNH₂ forming the trinuclear complex [(H₃N)₄Co(NH₂)₂Co(NH₃)₃NH₂Co(NH₃)₅](NO₃)₅ (II) and the binuclear complex [(H₃N)₄Co(NH₂)₂Co(NH₃)₄](NO₃)₄ (III). The cleavage of II with diluted acetic acid + Na₂SO₄ results in the formation of [(H₃N)₄Co(NH₂)₂Co(NH₃)₃ OH₂](SO₄)₂ · 2 H₂O (IV) and [Co(NH₃)₆]³⁺ isolated as the nitrate I. IV could be transformed to III, which gives trans-[Co(NH₃)₄Cl₂]Cl when reacting with a mixture of conc. HCl and H₂SO₄. From the obtained results one may infer that the ammonolysis of I corresponds to the hydrolysis of hexaquoxomplexes of trivalent cations in the course of which polynuclear complexes are also formed.     

Cobalt-Komplexe mit O2-Brücken: Die Struktur von μ-Peroxo-bis[pentaammincobalt(III)]-tetranitrat-dihydrat

Cobalt Complexes with 0₂ Bridges: Structure of μ-Peroxo-bis[pentaamminecobalt(III)] Tetranitrate Dihydrate An X-ray structure determination of the binuclear complex [(NH₃)₅CoO₂Co(NH₃)₅] (NO₃)₄ · 2 H₂O A has been performed; R = 0.051. A crystallizes in the space group P2₁/n with Z = 2 and with lattice constants a = 11.657(5), b = 11.977(6), c = 8.082(4) Å, and β = 91.58(4)°. The complex cation has crystallographic 1 -symmetry. The Co? O? O? Co unit is planar with an O? O distance of 1.472(6) Å. Two of the three crystallographically independent NO₃ groups show disorder.     

Synthesis and Crystal Structure of meso-Δ,Λ-μ-Peroxo-μ-hydroxobis[bis(ethylenediamine)rhodium(III)]trifluoromethane Sulfonate

The reaction of the meso-diol, Δ,Λ-[(en)₂Rh(OH)₂Rh(en)₂]⁴⁺, with aqueous H₂O₂ and 1 equiv. of NaOH at 90° forms the μ-peroxo-μ-hydroxo-bridged species Δ,Λ-[(en)₂Rh(O₂,OH)Rh(en)₂]³⁺ in a yield of ca. 50%. The compound was crystallized as perchlorate and trifluoromethanesulfonate salts. The structure of the latter salt was determined by single-crystal X-ray diffraction. The crystals are triclinic with space group P1 and lattice constants a = 11.895(5), b = 12.491(4), c = 13.053(5) Å, α = 103.98(3), β = 92.59(3), γ = 119.52(6)°. The distances of the metal centres to the bridging peroxo ligand are 1.999(8) and 1.983(6) Å. The O? O distance in the peroxo group is 1.521(14) Å, and the dihedral angle of the Rh? O? O? Rh unit deviates 65° from planarity. The peroxo complex reacts reversibly with acid, and spectrophotometric studies suggest that the reaction involves protonation of the peroxo bridge, with pK_a = 2.70(2) at 25° in 1M NaClO₄.     

Darstellung und Kristallstruktur von Tris(äthylendiamin)kobalt(III)-trichlorostannat(II)-dichlorid, [Co(en)3][SnCl3]Cl2

Preparation and Crystal Structure of Tris(ethylenediamine) cobalt(III)-trichlorostannate(II)-dichloride, [Co(en)₃] [SnCl₃]Cl₂ The title compound has been prepared from [Co(en)₃]Cl₃ and SnCl₂ · 2H₂O in aqueous HCl solution. It crystallizes in the orthorhombic space group Pbca, with a = 21.906(7), b = 10.607(3), c = 15.356(7) Å. The crystal structure has been determined from 1606 independent reflections by Patterson snd Fourier syntheses, and has been refined by least squares methods to R = 0.074. The [Co(en)₃]³⁺ ion is found to have the conformation of Λ(δδλ) resp. Δ(λλδ). The structure of the [SnCl₃]^? ion corresponds to a distorted tetrahedron, in which one site is occupied by the stereochemically active 5s electron pair. The following Sn? Cl distances have been found 2.493(7), 2.492(5), 2.479(7) Å, the distances of the two anionic Cl atoms from Sn are >4 Å.     

Komplexchemie des Gallium(III) mit makrozyklischen Liganden Darstellung und Kristallstruktur von Di-μ-hydroxo-μ-acetato-bis[(1,4,7-triazacyclononan)gallium(III)]triiodid · Monohydrat

Coordination Chemistry of Gallium(III) with Macrocyclic Ligands. Synthesis and Crystal Structure of Di-μ-hydroxo-μ-acetato-bis[(1,4,7-triazacyclononane)gallium(III)] Triiodide · Monohydrate The coordination chemistry of 1,4,7-triazacyclononane (L) and N,N′,N″-trimethyl-1,4,7-triazacyclononane (L′) with gallium(III) has been investigated. Monomeric species LGaCl₃ and L′GaCl₃ have been isolated from nonaqueous solutions of GaCl₃ and the respective amine. From alkaline, aqueous solutions of Ga(NO₃)₃, and the respective amine binuclear complexes have been isolated; [L₂Ga₂(OH)₂(μ-OH)₂](ClO₄)₂ · 5 H₂O, [L₂Ga₂(μ-CH₃CO₂)(μ-OH)₂]I₃ · H₂O. [L′₂Ga₂(μ-OH₂CH₃CO₂)₂](ClO₄)₄ · H₂O was obtained from a methanolic solution of Ga(NO₃)₃ and NaCH₃CO₂. [L₂Ga₂(μ-OH)₂(μ-CH₃CO₂)]I₃ · H₂O crystallizes in the monoclinic space group P2₁/a (Z = 4); two Ga^III-centers are connected via two OH- and one acetato-bridge.     

Zur Kenntnis der Sulfito-kobalt(III)-Ammine. III. Hydrogensulfitokobalt(III)-Ammine

Sulphito Cobalt(III) Ammines. III. Hydrogensulphito Cobalt(III) Ammines Concentrated acids react with [CoSO₃(NH₃)₅]⁺ salts hydrogen- sulphitopentaamminecobalt(III) complexes. [Co(HSO₃)(NH₃)₅]Cl₂, [Co(HSO₃)(NH₃)₅]Br₂ and [Co(HSO₃)(NH₃)₅](HSO₄)₂·H₂O have been isolated. These substances are yellow coloured in contrast to an earlier work which reported red colour. Furthermore, the hydrogensulphitoacidotetreaammine complexes [Co(HSO₃)Cl(NH₃)₄]Cl, [Co(HSO₃)Cl(NH₃)₄]ClO₄·H₂O, [Co(HSO₃)Br(NH₃)₄]Br and [Co(HSO₃) CN(NH₃)₄]Cl habe been prepared. [Co(HSO₃)Br(NH₃)₄]Br is losing spontaneously HBr forming [CoSO₃Br(NH₃)₄]. The neutral complex [Co(HSO₃)SO₃(NH₃)₄]·1/2H₂O has been obtained from cis- NH₄[Co(SO₃)₂(NH₃)₄] and HCl. The absorption spectra in the IR, visible and UV region are reported and discussed. The HSO₃ group is coordinated to Co through the S atom. The Co? S bond is weaker than in the sulphito complexes as concluded from the RAMAN spectrum. In the new complexes, the hydrogensulphito ligand causes a minor trans effect than the sulphito ligand.     

Zur Kenntnis der Sulfito-kobalt(III)-Ammine. II. [CoSO3NCS(NH3)4] und [CoSO3SCN(NH3)4]

Sulphito Cobalt(III) Ammines. II. [CoSO₃NCS(NH₃)₄] and [CoSO₃SCN(NH₃)₄] The brown complex [CoSO₃NCS(NH₃)₄] · 2 H₂O formed from aqueous solutions contains N-bonded thiocyanate as concluded from his IR spectrum. After dehydration the red complex [CoSO₃SCN(NH₃)₄] containing S-bonded thiocyanate has been formed. The conversion of the two isomers is favoured by the trans effect of the sulphito group.     

Thermal Analysis Studies on Hydroxobridged Homo and Hetero Trinuclear Cobalt(III) Complexes

The synthesis and thermal analysis studies of several hydroxobridged homo and hetero trinuclear cobalt(III) complexes are reported. The complexes are of the type [M(H₂O)_x{(OH)₂Co(en)₂}₂](SO₄)₂ nH₂O and [M(H₂O)_x{(OH)₂Co(NH₃)₄}₂](SO₄)₂nH₂O where en denotes ethylenediamine and M =Co(II), Ni(II), Cu(II) and Zn(II) with x=0 for Cu(II), and 2 for other metal ions, and n =3, 4 or 5. The TG and DTA studies of these compounds show that one or more intermediate compounds are formed in each case before the metal oxides are produced.     

Präparative Darstellung von μ-Disauerstoff-bis-kobalt(II)-Chelaten

Binuclear cobalt chelates with O₂ as bridging ligand have been prepared, using ethylenediamine, triethylenetetramine, tetraethylenepentamine and tris-(2-aminoethyl)-amine as chelating agents and SCN^? and ClO₄^? as anions. They form well characterized crystals which give off molecular oxygen spontaneously in acid solution and, except in the case of the cobalt tetra-ethylenepentamine chelate, reveal the general composition [(Z)Co · μ(O₂, OH) · Co(Z)]X₃, where Z represents the polydentate complexing agents and X the anion. In the presence of ammonia different complexes are produced, in which NH₃ occupies one coordination site of each cobalt, replacing the hydroxo bridge.     

Reaktion oxygenierter Kobalt (II)-Komplexe. XII. Über einen binuclearen μ-Peroxodikobalt (III)-Komplex mit makrocyclischem Brückenring

Reactions of oxygenated cobalt(II) complexes. XII. A binuclear μ-peroxodicobalt(III) complex with a macrocyclic bridging ring

1 XI: siehe [1].

Singly bridged [(tren) (NH₃) CoO₂(NH₃) (tren)]⁴⁺ reacts with excess tren by replacement of NH₃ in cis-position to the peroxo group and formation of a new type of doubly bridged μ-peroxo complex. An X-ray structure determination of [(tren)-Co(O₂, tren)Co(tren)] (ClO₄)₄ · 2 H₂O showed that the additional tren forms a macrocyclic bridging ring. The conformation of the CoOOCo group is transoid with a dihedral angle of 20°. The crystals are monoclinic with space group P2₁/c. The lattice constants are a = 9,798, b = 26,385, c = 16,385 Å, β = 110,2° with four formula units in the cell. The final R value is 0,124. ClO anions are disordered. The reactions of [(tren)Co(O₂, tren)Co(tren)]⁴⁺ in aqueous solution are compared with those of [(tren) (NH₃) CoO₂Co (NH₃tren)]⁴⁺. In acidic solution the new complex mainly decomposes to Co^II and O₂. In alcaline medium the bridging tren is replaced by an OH bridge, forming the well characterized doubly bridged [(tren)-Co(O₂, OH)Co(tren)]³⁺. Differing from the singly bridged bis (ammino) complex, the reactions of which show no pH dependency at all, the decomposition of the tren bridged complex is H⁺-catalyzed. The kinetic data have been interpreted as (i) preceding fast protonation step which is followed by a conformational change of the bridging ring, (ii) acid hydrolysis of a Co-μ-tren bond and (iii) fast cleavage of the Co-OO bond which is labilized by coordinated H₂O.     

μ-Nitro-μ-hydroxo-bis(tetramminkobalt(III))-Komplexe

The preparation and the properties of 7 salts containing the complex cation [Co₂{NO₂, OH}(NH₃)₈]⁴⁺ are described. Furthermore, a di-μ-hydroxo complex of the composition [Co₂{OH}₂NO₂(NH₃)₇](ClO₄)₃ · H₂O has been prepared.     

Tetraazidodiammincobaltate(III): Cis-[Co(N3)4(NH3)2]− und [Co(N3)4en]−

Tetra-azidodiamminecobaltates(III): cis-[Co(N₃)₄(NH₃)₂]^? and [Co(N₃)₄en]^? The preparation and the properties of complexes containing the anions cis-[Co(N₃)₄(NH₃)₂]^? and [Co(N₃)₄en]^? are described. The compounds [Co(NH₃)₆][Co(N₃)₄(NH₃)₂ · H₂O], [Co(N₃)₂(NH₃)₄][Co(N₃)₄(NH₃)₂], [As(C₆H₅)₄][Co(N₃)₄en], cis- and trans-[Co(N₃)₂en₂][Co(N₃)₄en] have been isolated.     

Activity and Osmotic Coefficients from the Emf of Liquid Membrane Cells. X. Tris(Ethylenediamine) Cobalt(III) Nitrate, Perchlorate, and Chloride

Activity coefficients of [Co(en)₃](NO₃)₃ and [Co(en)₃](ClO₄)₃, to be compared with [Co(en)₃]Cl₃ and the corresponding lanthanum salts previously studied, are determined. [Co(en)₃]Cl₃ data are revised. Ion interaction strengths vary in the same order found for La³⁺, i.e., as if nitrate and perchlorate ions were of smaller and larger size, respectively, than chloride ions; however, the differences are much smaller than in lanthanum salts. Tris(ethylenediamine)cobalt III and lanthanum nitrate, chloride, and perchlorate—like the corresponding hexacyanoferrate(III) and hexacyanocobaltate(III) salts, but contrary to sulfate salts—behave as if [Co(en)₃]³⁺ were smaller in size than La³⁺. In the dilute regions, [Co(en)₃](NO₃)₃ displays negative deviations from the limiting slope, a kind of behavior typical for 2:2, 2:3, 3:2, and 3:3 electrolytes, but unnoticed earlier for 3:1 or 1:3 electrolytes. Pitzer's equation parameters able to provide accurate activity and osmotic coefficients for [Co(en)₃](NO₃)₃, [Co(en)₃](ClO₄)₃, and, revised, [Co(en)₃]Cl₃ are reported.