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Metal cation specific

Donors present in appended groups may also cause gradations in stability and selectivity, for example in systems based on (115), 6a 474 there is an enhanced Na+ stability shown, and this is also seen when pyridinyl, furanyl and thiophenyl units are introduced.475" 77 Careful manipulation of the donors, in conjunction with the properties discussed below, can lead to reasonably discrete metal cation specificities. [Pg.50]

In acid solutions, by contrast, the variable order of dependence on aH+ of dissolution rate of different silicates (0.3 reaction orders exhibited by aluminum and magnesium silicates). [Pg.345]

PhI(OAc)2. As a result of the central oxygens, the electron-rich cavity of macrocycle 180 is suitable for complexation of metal cations. Specifically, ESI-MS data indicate that macrocycles 178-181 can selectively form complexes with sodium cations in the presence of K+, Li+, Ag+, or Pb + [241], The self-assembly of monomeric benziodazoles 177 into macrocyclic molecules 178-181 was studied using molecular orbital calculations [331]. The driving force for the self-assembly is the formation of secondary bonding interactions between molecules and a rearrangement of primary and secondary bonding around iodine to place the least electronegative substituent in the equatorial position for each iodine in the trimer. [Pg.64]

Computer-Aided Design of Metal Cation-Specific Carriers... [Pg.143]

Thus effective combinations of carrier chemistry with computer chemistry have established a useful guideline for the design of new, metal cation-specific carriers. We have many options in the selection of carrier structures from a variety of acyclic podands, cyclic crown ethers, bicyclic cryptands and related derivatives. When we adjust a carrier structure for a target guest, we can consult the computer and decide on the proper carrier structure in a non-empirical fashion. Although there are still many problems to be resolved, computer chemistry can be a good partner with carrier chemistry. [Pg.149]

Simplest examples are prepared by the cyclic oligomerization of ethylene oxide. They act as complexing agents which solubilize alkali metal ions in non-polar solvents, complex alkaline earth cations, transition metal cations and ammonium cations, e.g. 12—crown —4 is specific for the lithium cation. Used in phase-transfer chemistry. ... [Pg.116]

Metal cation CAS Registry Number Formula % Metal Specific gravity, g/cm 1992 price, /kg... [Pg.168]

Fig. 10. Unpolarized Raman spectra (T = 300 K) for solid Ceo, KaCeo, RbsCeo, NaeCeo, KaCco, RbeCeo and CseCeo [92, 93], The tangential and radial modes of Ag symmetry are identified, as are the features associated with the Si substrates. From the insensitivity of these spectra to crystal structure and specific alkali metal dopant, it is concluded that the interactions between the Cao molecules are weak, as are also the interactions between the Cao anions and the alkali metal cations. Fig. 10. Unpolarized Raman spectra (T = 300 K) for solid Ceo, KaCeo, RbsCeo, NaeCeo, KaCco, RbeCeo and CseCeo [92, 93], The tangential and radial modes of Ag symmetry are identified, as are the features associated with the Si substrates. From the insensitivity of these spectra to crystal structure and specific alkali metal dopant, it is concluded that the interactions between the Cao molecules are weak, as are also the interactions between the Cao anions and the alkali metal cations.
Thus in all corrosion reactions one (or more) of the reaction products will be an oxidised form of the metal, aquo cations (e.g. Fe (aq.), Fe (aq.)), aquo anions (e.g. HFeO aq.), Fe04"(aq.)), or solid compounds (e.g. Fe(OH)2, Fej04, Fe3 04-H2 0, Fe203-H20), while the other reaction product (or products) will be the reduced form of the non-metal. Corrosion may be regarded, therefore, as a heterogeneous redox reaction at a metal/non-metal interface in which the metal is oxidised and the non-metal is reduced. In the interaction of a metal with a specific non-metal (or non-metals) under specific environmental conditions, the chemical nature of the non-metal, the chemical and physical properties of the reaction products, and the environmental conditions (temperature, pressure, velocity, viscosity, etc.) will clearly be important in determining the form, extent and rate of the reaction. [Pg.8]

Heterogeneities associated with a metal have been classified in Table 1.1 as atomic see Fig. 1.1), microscopic (visible under an optical microscope), and macroscopic, and their effects are considered in various sections of the present work. It is relevant to observe, however, that the detailed mechanism of all aspects of corrosion, e.g. the passage of a metallic cation from the lattice to the solution, specific effects of ions and species in solution in accelerating or inhibiting corrosion or causing stress-corrosion cracking, etc. must involve a consideration of the detailed atomic structure of the metal or alloy. [Pg.9]

Fig. 1.41 Schematic anodic polarisation curves for a passivatable metal showing the effect of a passivating agent that has no specific cathodic action, but forms a sparingly soluble salt with the metal cation, a without the passivating agent, b with the passivating agent. The passive current density, the active/passive transition and the critical current density are all lowered in b. The effect of the cathodic reaction c, is to render the metal active in case a, and passive... Fig. 1.41 Schematic anodic polarisation curves for a passivatable metal showing the effect of a passivating agent that has no specific cathodic action, but forms a sparingly soluble salt with the metal cation, a without the passivating agent, b with the passivating agent. The passive current density, the active/passive transition and the critical current density are all lowered in b. The effect of the cathodic reaction c, is to render the metal active in case a, and passive...
In mimicking this type of function, noncyclic artificial carboxylic ionophores having two terminal groups of hydroxyl and carboxylic acid moieties were synthesized and the selective transport of alkali metal cations were examined by Yamazaki et al. 9 10). Noncyclic polyethers take on a pseudo-cyclic structure when coordinating cations and so it is possible to achieve the desired selectivity for specific cations by adjusting the length of the polyether chain 2). However, they were not able to observe any relationship between the selectivity and the structure of the host molecules in an active transport system using ionophores 1-3 10). (Table 1)... [Pg.39]

Chai and Zhong [602] investigated the melting properties of molten systems containing K2TaF7 and different alkali metal cations with respect to the optimization of the sodium reduction process. It was shown that the specific... [Pg.335]

Dyestuffs which form complexes with specific metal cations can serve as indicators of pM values 1 1-complexes (metal dyestuff = 1 1) are common, but l 2-complexes and 2 1-complexes also occur. The metal ion indicators, like EDTA itself, are chelating agents this implies that the dyestuff molecule possesses several ligand atoms suitably disposed for coordination with a metal atom. They can, of course, equally take up protons, which also produces a colour change metal ion indicators are therefore not only pM but also pH indicators. [Pg.315]

The general, selective and specific formation of complexes by metallic cations. G. Schwarzenbaeh, Adv. Inorg. Chem. Radiochem., 1961, 3, 257-285 (70). [Pg.29]

The Fur protein from E. coli was isolated in one step due to its high affinity for metal-chelate columns loaded with zinc. In DNase footprinting experiments, the Fur protein was shown to bind DNA in the promoter region of several iron-regulated genes. The consensus sequence, called the Fur box, is GATAATGATAATCATT ATC. In vitro binding is dependent on the divalent cations Co2+ Mn2+ /s Cd2+ Cu2+ at 150 iM, while Fe2+ seemed to be less active at this concentration, probably due to oxidation to Fe3+ (De Lorenzo et al., 1987). The unspecificity for divalent metals observed in vitro shows that the cells have to select the ions transported carefully and have to balance their active concentrations. In addition, it is a caveat for the experimenter to test a hypothesis on metal-ion specificity not only in vitro, but also in vivo. [Pg.108]

When not complexed, lanthanide ions have a high affinity for bone in vivo because they act as calcium ion mimics. Because the lanthanides undergo hydrolysis above a pH of 4, they readily form radiocolloids when not complexed, and are then taken up by the liver. This bone and liver uptake results in non-specific radiation doses to non-target (normal) tissues and organs and is undesirable.91 The polyaminocarboxylate class of ligands are considered to be the optimal choice for the basis of BFCAs for the+3 metal cations, including the lanthanides. It is essential that the... [Pg.897]

Molecular simulation methods can be a complement to surface complexation modeling on metal-bacteria adsorption reactions, which provides a more detailed and atomistic information of how metal cations interact with specific functional groups within bacterial cell wall. Johnson et al., (2006) applied molecular dynamics (MD) simulations to analyze equilibrium structures, coordination bond distances of metal-ligand complexes. [Pg.86]

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