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Gas anions

In 1999, Schmidbaur reported that the reduction by potassium metal of the dinuclear Ga(II) compound (6), previously synthesized by Cowley, affords the two-coordinate Ga anion (7) as a K(18-crown-6)(THF)2+ (see Crown Ethers) salt (Scheme 2)P This anion is the first two-coordinate chelate group 13 complex and was X-ray characterized. The 4s lone pair of electrons on the Ga atom and the two-electron pairs donated by the nitrogen... [Pg.5763]

HeN , the only nitrogen-noble gas anion described, is predicted to be unbound. [Pg.1]

Drzaic P S, Marks J and Brauman J I 1984 Electron photodetachment from gas phase molecular anions Gas Phase Ion Chemistry Ions and Lighted M T Bowers (New York Academic)... [Pg.823]

STM has been used to study adsorption on surfaces as it relates to corrosion phenomena [6, 7]. Sulfiir is a well known corrosion agent and is often found in air (SO2, FI2S) and in aqueous solution as dissolved anions ( HSO7) or dissolved gas (FI2S). By studying the interaction of sulfur with surfaces, insights can be gained into... [Pg.924]

Whether an element is the source of the cation or anion in an ionic bond depends on several factors for which the periodic table can serve as a guide In forming ionic compounds elements at the left of the periodic table typically lose electrons giving a cation that has the same electron configuration as the nearest noble gas Loss of an elec tron from sodium for example yields Na which has the same electron configuration as neon... [Pg.11]

Elements at the right of the periodic table tend to gam electrons to reach the elec tron configuration of the next higher noble gas Adding an electron to chlorine for exam pie gives the anion Cl which has the same closed shell electron configuration as the noble gas argon... [Pg.11]

Transfer of an electron from a sodium atom to a chlorine atom yields a sodium cation and a chloride anion both of which have a noble gas electron configuration... [Pg.12]

The potassium combines with the sulfur to form potassium sulfate, which condenses as a soHd primarily in the electrostatic precipitator (ESP) or baghouse. The recovered potassium sulfate is then deUvered to a seed regeneration unit where the ash and sulfur are removed, and the potassium, in a sulfur-free form such as formate or carbonate, is recycled to the MHD combustor. It is necessary also to remove anions such as Cf and E which reduce the electrical conductivity of the generator gas flow. These are present in the coal ash in very small and therefore relatively harmless concentrations. As the seed is recycled, however, the concentrations, particularly of CF, tend to build up and to become a serious contaminant unless removed. [Pg.423]

The pentahalides of phosphorus, PX, in the gas phase exhibit varying tendencies to dissociate into trihaUde and halogen. InstabiUty increases with increasing ionic radius of the halogen. The pentafluoride appears to be thermally stable. Dissociation of the pentachloride, a few percent at 100°C and 101.3 kPa (1 atm), is essentially completed at 300°C (36). The pentabromide is partially dissociated in the Hquid state and totally dissociated above ca 35°C (39). Pentaiodide does not exist. The molecules of PF and PCl in the vapor phase are trigonal bipyramids. In the crystalline state, both pentachloride and pentabromide have ionic stmctures, ie, [PClJ IPClg] and [PBr4]" PBrJ , respectively. The PX" 4 cations are tetrahedral and the PX anion is octahedral (36,37). [Pg.366]

Microwave or radio frequencies above 1 MHz that are appHed to a gas under low pressure produce high energy electrons, which can interact with organic substrates in the vapor and soHd state to produce a wide variety of reactive intermediate species cations, anions, excited states, radicals, and ion radicals. These intermediates can combine or react with other substrates to form cross-linked polymer surfaces and cross-linked coatings or films (22,23,29). [Pg.424]

In earlier procedures, the ReO anion was precipitated from water as the relatively insoluble potassium salt. Reduction of KReO with hydrogen gas gives rhenium metal, but the metal is contaminated with ca 0.4 wt % potassium that cannot be separated easily. Although suitable for some purposes, rhenium formed from KReO is found to be unsatisfactory in appHcations such as those for use in filaments in mass spectrometer systems. The route involving NH ReO avoids this problem. [Pg.160]

Polymerization and depolymerization of sihcate anions and their interactions with other ions and complexing agents are of great interest in sol—gel and catalyst manufacture, detergency, oil and gas production, waste management, and limnology (45—50). The complex silanol condensation process may be represented empirically by... [Pg.6]

All lation. In alkylation, the dialkyl sulfates react much faster than do the alkyl haHdes, because the monoalkyl sulfate anion (ROSO ) is more effective as a leaving group than a haHde ion. The high rate is most apparent with small primary alkyl groups, eg, methyl and ethyl. Some leaving groups, such as the fluorinated sulfonate anion, eg, the triflate anion, CF SO, react even faster in ester form (4). Against phenoxide anion, the reaction rate is methyl triflate [333-27-7] dimethyl sulfate methyl toluenesulfonate [23373-38-8] (5). Dialkyl sulfates, as compared to alkyl chlorides, lack chloride ions in their products chloride corrodes and requires the use of a gas instead of a Hquid. The lower sulfates are much less expensive than lower bromides or iodides, and they also alkylate quickly. [Pg.198]


See other pages where Gas anions is mentioned: [Pg.185]    [Pg.124]    [Pg.5764]    [Pg.258]    [Pg.5763]    [Pg.94]    [Pg.185]    [Pg.124]    [Pg.5764]    [Pg.258]    [Pg.5763]    [Pg.94]    [Pg.82]    [Pg.185]    [Pg.246]    [Pg.257]    [Pg.28]    [Pg.188]    [Pg.354]    [Pg.628]    [Pg.18]    [Pg.338]    [Pg.1284]    [Pg.502]    [Pg.493]    [Pg.581]    [Pg.164]    [Pg.23]    [Pg.25]    [Pg.25]    [Pg.126]    [Pg.238]    [Pg.363]    [Pg.388]    [Pg.270]    [Pg.250]    [Pg.160]    [Pg.18]    [Pg.51]    [Pg.527]    [Pg.62]   
See also in sourсe #XX -- [ Pg.55 , Pg.108 ]




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Anions, organic, gas-phase reactions

Gas-phase anions

Gas-phase reactions of organic anions

Noble gases anions

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