Silver trivalent

Tetrasilver tetroxide is a powerful oxidizer for sanitizing swimming pools, hot tubs, and industrial cooling system waters (see Water, treatment of SWIMMINGPOOLS, SPAS, AND HOT tubs). This oxide is slightly soluble and its dissociation into silver ions is enhanced by the addition of the oxidizer KgSgOg. Bivalent and trivalent silver disinfectants have been shown to be from 50 to 200 times more effective as sanitizers than monovalent silver compounds. 

Trivalent complexes of biguanide and periodate are also prepared commercially for water sanitation. The trivalent silver periodate, for example, is prepared by the action of potassium periodate and potassium hydroxide on Ag O ... 

Unlike boron, aluminum, gallium, and indium, thallium exists in both stable univalent (thaHous) and trivalent (thaUic) forms. There are numerous thaHous compounds, which are usually more stable than the corresponding thaUic compounds. The thaUium(I) ion resembles the alkaU metal ions and the silver ion in properties. In this respect, it forms a soluble, strongly basic hydroxide and a soluble carbonate, oxide, and cyanide like the alkaU metal ions. However, like the silver ion, it forms a very soluble fluoride, but the other haUdes are insoluble. Thallium (ITT) ion resembles aluminum, gallium, and indium ions in properties. 

The use of silver (II) salts, particularly argentic picolinate, as reagents for hydroxyl oxidation has also been disclosed recently. The reaction may be run in acid, neutral or basic media in aqueous or polar organic solvents at room or slightly elevated temperatures. Primary alcohols may be oxidized to aldehydes or acids depending on the conditions used. Amines and trivalent phosphorous compounds are more sensitive to oxidation with this reagent than are hydroxyl groups. 

The ligand group can be introduced either on the meso or on the /5-pyrrole position of the porphyrin ring, but the synthesis of the meso-functionalized derivatives is easier and has been more widely exploited. Balch (50-53) reported that the insertion of trivalent ions such as Fe(III) (32) and Mn(III) (33) into octaethyl porphyrins functionalized at one meso position with a hydroxy group (oxophlorins) leads to the formation of a dimeric head-to-tail complex in solution (Fig. 11a) (50,51). An X-ray crystal structure was obtained for the analogous In(III) complex (34), and this confirmed the head-to-tail geometry that the authors inferred for the other dimers in solution (53) (Fig. lib). The dimers are stable in chloroform but open on addition of protic acids or pyridine (52). The Fe(III) octaethyloxophlorin dimer (52) is easily oxidized by silver salts. The one-electron oxidation is more favorable than for the corresponding monomer or p-oxo dimer, presumably because of the close interaction of the 7r-systems in the self-assembled dimer. 

The interatomic distances for such an intermediate were calculated,288 and, using the resulting data in conjunction with certain steric and oxidizing-potential considerations, it was successfully predicted that sodium bis-muthate and trivalent silver ion would also specifically oxidize 1,2-glycols. These reactions have since been studied.287 288... 

Braman et al. [34] used sodium borohydride to reduce arsenic and antimony in their trivalent and pentavalent states to the corresponding hydrides. Total arsenic and antimony are then measured by their spectral emissions, respectively, at 228.8 nm and 242.5 nm. Limits of detection are 0.5 ng for antimony and 1 ng for arsenic, copper, and silver. Oxidants interfere in this procedure. 

The elements in the lanthanide series are soft, silver-like metals that mosdy form trivalent compounds. As metals, they are reactive, they tarnish when exposed to the atmosphere, and they react with most nonmetals when heated. Europium QgEr) is the most reactive. The sizes of the elements do not increase much when moving from left to right, but the hardness of the elements does increase. 

As an element, neodymium is a soft silver-yellow metal. It is malleable and ductile. It can be cut with a knife, machined, and formed into rods, sheets, powder, or ingots. Neodymium can form trivalent compounds (salts) that exhibit reddish or violet-like colors. 

A C.N. of 4 must also be assumed in the diamagnetic compounds AMeF4 for trivalent silver and gold. There is probably a square arrangement of the fluoride ions, as was postulated for the KBrF4-structure by Sly and Marsh 289) 155, 165, 254). 

The most important activators for sulfide phosphors are copper and silver, followed by manganese, gold, rare earths, and zinc. The charge compensation of the host lattice is effected by coupled substitution with mono- or trivalent ions (e.g., Cl or Al3+). In addition, disorders, such as unoccupied sulfur positions, can also contribute to charge compensation. 

Rhodium, incorporated in the silver halide grains, decreases sensitivity and increases contrast. This action has been attributed to depression of latent image formation because of deep electron trapping by the trivalent rhodium ion (183-185). Eachus and Graves (184) showed that rhodium, probably as a complex, acts as a deep trap for electrons at room temperature. Weiss and associates (186) concluded that the rhodium salts introduce deep traps for both electrons and holes. Monte Carlo simulation showed that the photographic properties could be accounted for in this way over a wide range of exposure times. 

Class I and/or II MTs have been described in all animals examined. Mammalian MTs have been some of the most extensively studied of the 61 or 62 amino acids, 20 are cysteine residues. Metal ions are bound to the MT exclusively through thiolate bonds involving all 20 cysteines (see Hamer, 1986). They associate with a wide range of metals in vitro, 18 different metals in the case of rat liver MT (Nielson etal., 1985). Divalent and trivalent metals exhibit saturation binding at 7 mole equivalents forming M7-MT, whereas copper (Cu(I)) and silver (Ag(I)) bind as monovalent ions forming M12-MT. The structure of these molecules is such that two metal-binding domains are formed an a-cluster from the carboxy-terminal portion of the protein, contains 11 cysteines which bind either 4 divalent or 6 monovalent ions the (3-cluster, the amino-terminal... 

The bivalent metals, as usual, combine with two molecules of biguanide to form 4-coordinated planar complexes, while the trivalent cobalt and chromium combine with three molecules of the ligand to produce a 6-coordinated octahedral configuration. The only exception is the trivalent silver which yields, however, a 4-coordinated planar complex. The preparation of the free tris(biguanidato) chromium, Cr(C2N5H6)s, in the anhydrous state,6 as well as of the corresponding anhydrous cobalt(III),8 copper(II), cobalt(II), palladium(II), and nickel(II) compounds, provides indisputable evidence for the structure proposed. Similar anhydrous metallic complexes with numerous substituted biguanides also have been included in the above-mentioned studies. 

The stabilities of the oxidation states within this series are disturbingly free from trends. For copper, the +2 state predominates for silver, the + 1 state is most important finally, of the known gold compounds for which a valence state of the metal may be easily assigned, most contain trivalent gold. At higher temperatures, the cuprous state of copper becomes more important than the cupric. 

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