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Compounds with Non-Buttressed Metal-Metal Bond between Platinum and Thallium. Model Systems for Photoinduced Two-Electron-Transfer.Maliarik, Mikhail January 2001 (has links)
<p>A new family of oligonuclear cyano compounds incorporatingtransition (Pt) and main group (Tl) metals bound with anon-buttressed Pt-Tl bond was synthesised in aqueous solution.The metal-metal linkage is formed in the reaction betweenplatinum and thallium in their stable oxidation forms, Pt(II)and Tl(III), or<i>vice versa</i>: Pt(IV) and Tl(I). Four binuclear complexeswith a general composition [(CN)<sub>5</sub>Pt-Tl(CN)<sub>n</sub>(aq)]<sup>n-</sup>(n = 0-3) and a trinuclear species [(NC)<sub>5</sub>Pt-Tl-Pt(CN)<sub>5</sub>]<sup>3-</sup>were identified and structurally characterised insolution by multinuclear NMR, EXAFS and vibrationalspectroscopy. In aqueous solution the complexes exist inequilibrium. The distribution between the species can bealtered by varying the molar ratio Pt/Tl, cyanide concentrationand pH. Stability constants of the compounds weredetermined.</p><p>A new compound (NC)<sub>5</sub>PtTl was also prepared in solid and its crystalstructure solved by a combination of X-ray powder diffractionand EXAFS. Altogether the values of<sup>195</sup>Pt-<sup>205</sup>Tl spin-spin coupling constants (25-71 kHz),interatomic Pt-Tl distances (2.598-2.638 Å), and vibrationstretching frequencies v (Pt-Tl) (159-164 cm<sup>-1</sup>) are fully indicative of a direct and unsupportedPt-Tl bond. The calculated values of Pt-Tl force constants(1.56-1.74 N· cm<sup>-1</sup>) are characteristic for single metal-metal bond.The oxidation status in the compounds can be viewed asintermediate between II and IV for platinum, and between I andIII for thallium, as reflected by the chemical shifts of<sup>195</sup>Pt and<sup>205</sup>Tl nuclei, C≡ N stretching frequencies andelectron binding energies.</p><p>The compounds are capable to undergo a photoinducedtwo-electron transfer between the coupled hetero-metal ions.Upon irradiation into the metal-to-metal charge transferabsorption band, effective photoredox reaction takes place. Itresults in scission of the Pt-Tl bond and formation of variouscomplexes of oxidised platinum (Pt(III, IV)) and reducedthallium (Tl(I)). The values of photodecomposition quantumyields were determined from a stationary photolysis study ofthe heterometallic complexes. Nanosecond laser flash photolysisof the heteronuclear Pt-Tl cyano compounds was performed in thetimescale range 1· 10<sup>-6</sup>- 5· 10<sup>-2</sup>s and several intermediate species were detectedand characterised by optical spectroscopy.</p><p>The heteronuclear Pt-Tl cyano compounds can be furthermodified in terms of their stability, solubility, and lightabsorption characteristics. It has been found that the platinumpentacyano unit of the [(NC)<sub>5</sub>Pt-Tl(CN)<sub>n</sub>(aq)]<sup>n-</sup>species is inert towards the tested ligands,whereas the thallium "part" of the complexes can be tunedsignificantly. A number of complexes [(NC)<sub>5</sub>Pt-Tl(L)<sub>m</sub>]<sup>x-</sup>(L-ligand) were prepared and characterised insolution. Compounds [(NC)<sub>5</sub>Pt-Tl(nta)(H<sub>2</sub>O)]<sup>3-</sup>, [(NC)<sub>5</sub>Pt-Tl(bipy)(DMSO)<sub>3</sub>], and [(NC)<sub>5</sub>Pt-Tl(bipy)<sub>2</sub>]have been prepared in solid and their structuresdetermined by single-crystal X-ray diffraction.</p><p><b>Keywords:</b>thallium, platinum, cyanide, metal-metal bond,non-buttressed, heterobimetallic, photoinduced, electrontransfer, redox reaction, NMR, chemical shift, spin-spincoupling constant, Raman, EXAFS, X-ray diffraction,equilibrium, oxidation state, oxidative addition,photolysis</p>
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Formation and Decomposition of Platinum–Thallium Bond, Kinetics and Mechanism. Structural Characterization of Some Metal Cyanides in the Solid StateNagy, Péter January 2004 (has links)
<p>The kinetic and mechanistic features of a new series ofplatinum-thallium cyano compounds containing a direct andunsupported by ligands metal-metal bond have been studied insolution, using standard mixandmeasurespectrophotometric technique and stoppedflow method.These reactions are interpreted as oxidative addition of the cspecies to the square planar Pt(CN)<sub>4</sub><sup>2-</sup>complex. Each of these processes was found to befirst-order in Pt(CN)<sub>4</sub><sup>2-</sup>, the corresponding TI<sup>III</sup>complex and a cyanide ion donating species whichacts as a catalyst. Both di- and trinuclear complexes werestudied, and the kinetically significant thallium complexes intheir formation and the catalytically active cyanide sourcesare as follows: [(CN)<sub>5</sub>PtTl(CN)<sub>3</sub>]<sup>3-</sup>: Tl(CN)<sub>4</sub><sup></sup>(alkaline region), Tl(CN)<sub>3</sub>(slightly acidic region) and CN<sup></sup>; [(CN)<sub>5</sub>PtTl(CN)]: Tl(CN)<sub>2</sub><sup>+</sup>and Tl(CN)<sub>2</sub><sup>+</sup>; [(CN)<sub>5</sub>PtTlPt(CN)<sub>5</sub>]<sup>3-</sup>: [(CN)<sub>5</sub>PtTl(CN)]and HCN. Appropriatemechanisms were postulated for the overall reactions in allcases, which include i) metalmetal bond formation stepand ii) coordination of an axial cyanide ion to the platinumcenter. Two experimentally indistinguishable kinetic modelswere proposed for the formation of the dinuclear complexeswhich are different in the sequence of the two steps. In thecase of the trinuclear complex, experimental evidence isavailable to exclude one of the alternative reaction paths, andit was proven that the metalmetal bond formation precedesthe axial cyanide coordination.</p><p>The cyanide ligands coordinated to TI<sup>III</sup>in the PtTl complexes could be replacedsuccessfully with aminopolycarboxylates e.g.: mimda<sup>2-</sup>, nta<sup>3-</sup>, edta<sup>4-</sup>. The [(CN)<sub>5</sub>PtTl(edta)]<sup>4-</sup>complex, with a direct metalmetal bond hasbeen prepared in solution by two different reactions: a)dissolution of [(CN)<sub>5</sub>PtTl](s) in an aqueous solution of edta, b)directly from Pt(CN)<sub>4</sub><sup>2-</sup>and Tl(edta)(CN)<sup>2-</sup>. The decomposition reaction is greatlyaccelerated by cyanide and significantly inhibited by edta. Itproceeds through the [(CN)<sub>5</sub>PtTl(CN)<sub>3</sub>]<sup>3-</sup>intermediate. The formation of [(CN)<sub>5</sub>PtTl(edta)]<sup>4-</sup>can proceed via two different pathways dependingon the ratio of the cyanide to the edta ligand concentrations.Thedirect pathat excess of edta means theformation of intermediate[(CN)4Pt···Tl(CN)(edta)]<sup>4-</sup>, followed by a release of the cyanide from theTlcentre followed by coordination of a cyanide from thebulk to the Ptcentre of the intermediate. Theindirect pathdominates in the absence of extraedta and the formation of the PtTl bond occours betweenPt(CN)<sub>4</sub><sup>2-</sup>and Tl(CN)4<sup></sup>.</p><p>Homoligand MTl(CN)<sub>4</sub>(M = Tl<sup>I</sup>, K, Na) and, for the first time, Tl(CN)<sub>3</sub>species have been synthesized in the solid stateand their structures solved by single crystal Xraydiffraction method. Interesting redox processes have been foundbetween TI<sup>III</sup>and CN<sup></sup>in nonaqueous solution and in Tl<sub>2</sub>O<sub>3</sub>-CN<sup></sup>aqueous suspension. In the crystal structureof Tl(CN)<sub>3</sub>·H<sub>2</sub>O, the thallium(III) ion has a trigonal bypiramidalcoordination geometry with three cyanides in the trigonalplane, while an oxygen atom of the water molecule and anitrogen atom from a cyanide ligand attached to a neighboringthallium complex, form a linear OTlN fragment.Cyanide ligand bridges thallium units forming an infinitezigzag chain structure. Among the thallium(III) tetracyanocompounds, the isostructural M[Tl(CN)<sub>4</sub>](M = Tl and K) and Na[Tl(CN)<sub>4</sub>]·3H<sub>2</sub>O crystallize in different crystal systems, but thethallium(III) ion has in all cases the same tetrahedralgeometry in the [Tl(CN)<sub>4</sub>]<sup></sup>unit.</p><p>Three adducts of mercury(II) (isoelectronic with TI<sup>III</sup>) (K<sub>2</sub>PtHg(CN)<sub>6</sub>·2H<sub>2</sub>O, Na<sub>2</sub>PdHg(CN)<sub>6</sub>·2H<sub>2</sub>O and K<sub>2</sub>NiHg(CN)<sub>6</sub>·2H<sub>2</sub>O) have been prepared from Hg(CN)<sub>2</sub>and square planar transition metal cyanides M<sup>II</sup>(CN)<sub>4</sub><sup>2-</sup>and their structure have been studied by singlecrystal Xray diffraction, XPS and Raman spectroscopy inthe solid state. The structure of (K<sub>2</sub>PtHg(CN)<sub>6</sub>·2H<sub>2</sub>O consists of strictly linear one dimensional wireswith Pt<sup>II</sup>and Hg<sup>II</sup>centers located alternately, d<sub>HgPt</sub>= 3.460 Å. The structure of Na<sub>2</sub>PdHg(CN)<sub>6</sub>·2H<sub>2</sub>O and K<sub>2</sub>NiHg(CN)<sub>6</sub>·2H<sub>2</sub>O can be considered as double salts, the lack ofheterometallophilic interaction between both the Hg<sup>II</sup>and Pd<sup>II</sup>atoms, d<sub>HgPd</sub>= 4.92 Å, and Hg<sup>II</sup>and Ni<sup>II</sup>atoms, d<sub>NiPd</sub>= 4.60 Å, seems obvious. Electronbinding energy values of the metallic centers measured by XPSshow that there is no electron transfer between the metal ionsin all three adducts. In solution, experimental findingsclearly indicate the lack of metalmetal bond formation inall studied Hg<sup>II</sup>CN<sup>-</sup>M<sup>II</sup>(CN)4<sup>2-</sup>systems (M = Pt, Pd and Ni). It is in contrary tothe platinumthallium bonded cyanides.</p><p><b>KEYWORDS:</b>metalmetal bond, platinum, thallium,kinetics, mechanism, stopped flow, oxidative addition, cyanocomplexes, edta, redox reaction, metal cyanides, Xraydiffraction, Raman, NMR, mercury, palladium, nickel, onedimensional wire</p>
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Synthesis and study of magnetic molecular materials based on Co(II) and Cr(II) trinuclear clusters containing M-M bonds / La synthèse et l'étude des matériaux moléculaires magnétiques à base de Co (II) et Cr (II), les clusters trinucléaires contenant des liaisons M-MBulicanu, Vladimir 05 December 2016 (has links)
Dans cette thèse est décrite la synthèse et les propriétés magnétiques des composés de coordination contenant des liaisons Co-Co ou Cr-Cr. Le contexte général sera discuté dans la première partie de ce travail en considérant l'évolution historique de ce type de chimie de coordination. Dans le deuxième chapitre, la possibilité d'intégrer un cluster {Co3} avec des ligands dipyridylamide et liaisons intermétalliques, dans des polymères de coordination unidimensionnels est discutée. Les interactions entre les porteurs de spin et l'effet du ligand pontant sont étudiés. Les changements des propriétés de transition de spin sont contrôlés en comparant par rapport au précurseur. Dans le troisième chapitre, les propriétés de molécule aimant d'un cluster de {Cr3} analogue à celui du {Co3}, sont étudiées. L'influence du ligand axial et la symétrie de la molécule sont également considérés et corrélées avec les propriétés de la molécule. Dans le quatrième chapitre, l'effet de la transition de spin induite par la coordination est étudié sur un exemple de cluster de {Co3} avec des ligands dipyridylformamidinate. La rupture et le rétablissement d'une liaison Co-Co est contrôlée par le biais de la température et de la lumière. L'effet de la rupture de la liaison intermétallique sur les propriétés magnétiques et structurales est aussi étudié. / In this thesis is described the synthesis, structures and magnetic properties of coordination compounds containing Co-Co or Cr-Cr bonds. In the first part of this work a general background is given on the historical evolution of this type of coordination chemistry. In the second chapter the possibility of incorporating a {Co3} cluster with dipyridylamide ligands and intermetallic bonds into one-dimentional coordination polymers is discussed. The interactions between spin centers and the effect of the bridging ligand were studied, and changes in the spin crossover properties were monitored and compared to the precursor. In the third chapter the Single-Molecule Magnet properties of a series of {Cr3} clusters are presented. The influence of the axial ligand and the symmetry of the molecule was considered and correlated to the magnetic properties. In the fourth chapter the phenomenon of coordination induced spin transition in a {Co3} cluster with dipyridylformamidinate ligands is discussed. Changes in magnetism and optical properties as a result of the breaking and restoring of a Co-Co bond were monitored as a function of temperature and light irradiation.
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