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Cationic coordination compounds

Cationic Coordination Compounds as Probes for Ionic Liquid Nucleophihcity. 306... [Pg.285]

It is this contrasting response of anions and cations that makes difficult the direct, simple interpretation of solvent changes in terms of mechanism in the reactions of cationic coordination compounds with anions. It is the counteraction of increased anion activity by decreased cation activity on transfer from protic to dipolar aprotic solvents that causes such reactions to be insensitive to solvent transfer. [Pg.690]

In this chapter, the use of certain cationic coordination compounds, also summarily called complex salts, was mentioned and some additional remarks on the pyrochemical behavior of such compounds may be in order. [Pg.61]

Acetylenes undergo exchange reactions or they may be displaced by other ligands which are present in excess in the reaction mixture or exhibit considerably stronger complex formation properties. For cationic coordination compounds of the type [PtMe(RCCR)L2] the ease of alkyne substitution by other ligands decreases as follows ... [Pg.405]

Carbon monoxide [630-08-0] (qv), CO, the most important 7T-acceptor ligand, forms a host of neutral, anionic, and cationic transition-metal complexes. There is at least one known type of carbonyl derivative for every transition metal, as well as evidence supporting the existence of the carbonyls of some lanthanides (qv) and actinides (1) (see AcTINIDES AND THANSACTINIDES COORDINATION COMPOUNDS). [Pg.62]

Despite the weak basicity of isoxazoles, complexes of the parent methyl and phenyl derivatives with numerous metal ions such as copper, zinc, cobalt, etc. have been described (79AHC(25) 147). Many transition metal cations form complexes with Imidazoles the coordination number is four to six (70AHC(12)103). The chemistry of pyrazole complexes has been especially well studied and coordination compounds are known with thlazoles and 1,2,4-triazoles. Tetrazole anions also form good ligands for heavy metals (77AHC(21)323). [Pg.51]

The N-coordinated compound [AuCljL] (L= l-ethyl-2-phenylimidazole) with silver tetrafluoroborate gives the cycloaurated species 102, which on further reaction with triphenylphosphine and sodium tetrafluoroborate or ammonium hexafluorophosphate forms the cationic complexes 103 (X = BF., PF,) (00JCS(D)271). [Pg.142]

Addition polymerization is employed primarily with substituted or unsuhstituted olefins and conjugated diolefins. Addition polymerization initiators are free radicals, anions, cations, and coordination compounds. In addition polymerization, a chain grows simply hy adding monomer molecules to a propagating chain. The first step is to add a free radical, a cationic or an anionic initiator (I ) to the monomer. For example, in ethylene polymerization (with a special catalyst), the chain grows hy attaching the ethylene units one after another until the polymer terminates. This type of addition produces a linear polymer ... [Pg.304]

A certain coordination compound has the simplest formula Pt HjC. It has a molar mass of about 600 g/mol and contains both a complex cation and a complex anion. What is its structure ... [Pg.428]

Coordination compounds are named in much the same way as simple ionic compounds. The cation is named first, followed by the anion. Examples include... [Pg.649]

The formulated principals correlating crystal structure features with the X Nb(Ta) ratio do not take into account the impact of the second cation. Nevertheless, substitution of a second cation in compounds of similar types can change the character of the bonds within complex ions. Specifically, the decrease in the ionic radius of the second (outer-sphere) cation leads not only to a decrease in its coordination number but also to a decrease in the ionic bond component of the complex [277]. [Pg.116]

Very recently, the coordination chemistry of low valent silicon ligands has been established as an independent, rapidly expanding research area. With the discovery of stable coordination compounds of silylenes [35-38], a major breakthrough was achieved. Within a short time a variety of stable complexes with a surprising diversity of structural elements was realized. Besides neutral coordination compounds (A, B) [35, 36, 38], and cationic compounds (C) [37], also cyclic bissilylene complexes (D) [39,40] exist. A common feature of the above-mentioned compounds is the coordination of an additional stabilizing base (solvent) to the silicon. However, base-free silylene complexes (A) are also accessible as reactive intermediates at low temperatures. [Pg.3]

The name of a coordination compound (as distinct from a complex cation or anion) is built in the same way as that of a simple compound, with the cation named before the anion ... [Pg.792]

Mildvan AS, Grisham CM (1974) The Role of Divalent Cations in the Mechanism of Enzyme Catalyzed Phosphoryl and Nucleotidyl. 20 1-21 Mingos DMP, Hawes JC (1985) Complementary Spherical Electron Density Model. 63 1-63 Mingos DMP, Johnston RL (1987) Theoretical Models of Cluster Bonding. 68 29-87 Mingos DMP, McGrady JE, Rohl AL (1992) Moments of Inertia in Cluster and Coordination Compounds. 79 1-54... [Pg.251]

The chloride ions that appear outside the brackets represent chloride anions that balance the positive charge on the coordination compound. When a coordination compound dissolves in water, the ligands (inside the brackets) remain bound to the metal cation, but the nonligands (outside the brackets) exist as individual ions. These chloride ions precipitate in the presence of silver ions. The chloride ions inside the brackets, which are ligands bonded to the cobalt center, do not precipitate as AgCl. [Pg.1447]

The ligand properties of a cyclic dithioether, 1,4-dithiane monosulphoxide (DTMSO), have been studied by physical measurements . The infrared spectra indicate that the metal cation coordinates to the oxygen lone pair electrons of DTMSO. Both infrared and ligand-field spectra show the presence of octahedral ions MfDTMSO) in the compounds M(DTMS0)g(C104) and M(DTMSO)g(BF4) . In the case of M = Cu these ions are distorted from the regular octahedral structure. [Pg.567]

Keywords Coordination compounds Cycloaddition reactions Diazaphosphenium cation Diazaphospholes Phosphaaromatics... [Pg.175]

The cationic dinuclear oxo-gold(m) complexes of substituted bipyridyls react with olefins to give the stable coordination compounds shown in Scheme 79. The reactions are often incomplete, produce many byproducts, and give low yields of the olefin complexes/... [Pg.300]

Organozinc cations are compounds of the type RZn+, but the true structure of these charged species is more complex than indicated by this simple formula. Thus, the zinc atom is never one coordinate, but it is always associated with additional ligands or solvent molecules. These cations are therefore more accurately represented as [RZn(L)]+. Truly... [Pg.339]

Novel anions stabilized by alkali-polyether cations The ability of a crown (such as 18-crown-6) or a cryptand (such as 2.2.2) to shield an alkali cation by complex formation has enabled the synthesis of a range of novel compounds containing an alkali metal cation coordinated to a crown or cryptand for which the anion is either a negatively charged alkali metal ion or a single electron (Dye Ellaboudy, 1984 Dye, 1984). Such unusual compounds are called alkalides and electrides , respectively. [Pg.134]

The purpose of this review is to provide the reader with a scenario of what can be accomplished with nickel complexes. It is useful to do this via a series of broad schemes, hypothetical in some cases, which show the main reaction patterns, without considering mechanistic details. Examples will illustrate the various processes, but extension to other substrates or to different conditions often requires use of alternative ligands or solvents, or a change from a neutral complex to a cationic or anionic species, as indicated above. For references to syntheses with nickel see Baker et al. (10). For criteria for the synthesis of coordination compounds and stability of organotransition metal complexes in general, see references (11. 12). Organometallic literature has been collected periodically by Bruce (13). [Pg.197]

Chain-reaction mechanisms differ according to the nature of the reactive intermediate in the propagation steps, such as free radicals, ions, or coordination compounds. These give rise to radical-addition polymerization, ionic-addition (cationic or anionic) polymerization, etc. In Example 7-4 below, we use a simple model for radical-addition polymerization. [Pg.166]

See other pages where Cationic coordination compounds is mentioned: [Pg.58]    [Pg.306]    [Pg.58]    [Pg.306]    [Pg.540]    [Pg.948]    [Pg.995]    [Pg.1193]    [Pg.179]    [Pg.410]    [Pg.420]    [Pg.145]    [Pg.567]    [Pg.14]    [Pg.355]    [Pg.98]    [Pg.17]    [Pg.18]    [Pg.51]    [Pg.59]    [Pg.98]    [Pg.231]    [Pg.92]    [Pg.690]    [Pg.319]    [Pg.840]    [Pg.208]    [Pg.251]    [Pg.314]   
See also in sourсe #XX -- [ Pg.306 ]



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