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Thermally unstable

Reaction (11.4) is really a disproportionation reaction of the halate(I) anion 3XO 2X -E XO. ) Reaction (11.3) is favoured by the use of dilute alkali and low temperature, since the halate(I) anions, XO are thermally unstable and readily disproportionate (i.e. reaction (11.4)). The stability of the halate(I) anion, XO , decreases from chlorine to iodine and the iodate(I) ion disproportionates very rapidly even at room temperature. [Pg.324]

Unexpectedly we find that the bromate(V) ion in acid solution (i.e. effectively bromic(V) acid) is a more powerful oxidising agent than the chlorate(V) ion, CIO3. The halates(V) are thermally unstable and can evolve oxygen as one of the decomposition products. Potassium chlorate(V), when heated, first melts, then resolidifies due to the formation of potassium chlorate(VII) (perchlorate) ... [Pg.340]

The direct injection of thermally unstable samples onto a capillary column. [Pg.568]

Ohm s law the statement that the current moving through a circuit is proportional to the applied potential and inversely proportional to the circuit s resistance (E = iR). (p. 463) on-column injection the direct injection of thermally unstable samples onto a capillary column, (p. 568) one-taUed significance test significance test in which the null hypothesis is rejected for values at only one end of the normal distribution, (p. 84)... [Pg.776]

Apart from ES and APCI being excellent ion sources/inlet systems for polar, thermally unstable, high-molecular-mass substances eluting from an LC or a CE column, they can also be used for stand-alone solutions of substances of high to low molecular mass. In these cases, a solution of the sample substance is placed in a short length of capillary tubing and is then sprayed from there into the mass spectrometer. [Pg.284]

The ablated vapors constitute an aerosol that can be examined using a secondary ionization source. Thus, passing the aerosol into a plasma torch provides an excellent means of ionization, and by such methods isotope patterns or ratios are readily measurable from otherwise intractable materials such as bone or ceramics. If the sample examined is dissolved as a solid solution in a matrix, the rapid expansion of the matrix, often an organic acid, covolatilizes the entrained sample. Proton transfer from the matrix occurs to give protonated molecular ions of the sample. Normally thermally unstable, polar biomolecules such as proteins give good yields of protonated ions. This is the basis of matrix-assisted laser desorption ionization (MALDI). [Pg.399]

An ion beam can be produced from a number of different sources, but for this instmment — used for biochemical examination of thermally unstable, large molecules — an atmospheric-pressure inlet such as APCl or ES would generally be used. These can be operated with liquid inlets from chromatographic columns or simply from static solutions. [Pg.402]

The XeF+ cation forms Lewis acid—base adduct cations containing N—Xe—F linkages with nitrogen bases that are resistant to oxidation by the strongly oxidizing XeF+ cation having an estimated electron affinity of the XeF+ cation of 10.9 eV (12). The thermally unstable colorless salt,... [Pg.24]

Iron hahdes react with haHde salts to afford anionic haHde complexes. Because kon(III) is a hard acid, the complexes that it forms are most stable with F and decrease ki both coordination number and stabiHty with heavier haHdes. No stable F complexes are known. [FeF (H20)] is the predominant kon fluoride species ki aqueous solution. The [FeF ] ion can be prepared ki fused salts. Whereas six-coordinate [FeCy is known, four-coordinate complexes are favored for chloride. Salts of tetrahedral [FeCfy] can be isolated if large cations such as tetraphenfyarsonium or tetra alkylammonium are used. [FeBrJ is known but is thermally unstable and disproportionates to kon(II) and bromine. Complex anions of kon(II) hahdes are less common. [FeCfy] has been obtained from FeCfy by reaction with alkaH metal chlorides ki the melt or with tetraethyl ammonium chloride ki deoxygenated ethanol. [Pg.436]

The physical piopeities of the coimneicially available nitio alcohols aie given in Table 1. Except for nitiobutanol, these nitio alcohols are white ciystalline sohds when pure. They are thermally unstable above 100°C and purification by distillation is a hazardous procedure. [Pg.60]

Thermally unstable cycHc trioxides, 1,2,3-trioxolanes or primary o2onides are prepared by reaction of olefins with o2one (64) (see Ozone). Dialkyl trioxides, ROOOR, have been obtained by coupling of alkoxy radicals, RO , with alkylperoxy radicals, ROO , at low temperatures. DiaLkyl trioxides are unstable above —30° C (63). Dialkyl tetraoxides, ROOOOR, have been similarly produced by coupling of two alkylperoxy radicals, ROO , at low temperatures. Dialkyl tetraoxides are unstable above —80°C (63). [Pg.111]

Catalytic hydrogenations can be carried out ia the vapor phase or ia the Hquid phase, either with or without the use of a solvent. The vapor phase reaction is limited to compounds which are thermally stable and relatively volatile. High boiling compounds and those which are thermally unstable must be hydrogenated ia the Hquid phase. [Pg.258]

C3H3Ti3(OOCCH3)3 [1282424] acetate 115-117 hydrolytically and thermally unstable... [Pg.156]

Tungsten tribromide [15163-24-3] WBr, prepared by the action of bromine on WBr2, in a sealed tube at 50°C (17), is a thermally unstable black powder that is insoluble in water. [Pg.288]

Hydrocarbyl Complexes. Stable homoleptic and heteroleptic uranium hydrocarbyl complexes have been synthesized. Unlike the thorium analogues, uranium alkyl complexes are generally thermally unstable due to P-hydride elimination or reductive elimination processes. A rare example of a homoleptic uranium complex is U(CH(Si(CH2)3)2)3, the first stable U(I11) homoleptic complex to have been isolated. A stmctural study indicated a triganol... [Pg.335]

Bismuth trichloride shows considerable tendency to form addition compounds. Reaction with ammonia yields the colodess, easily volatili2ed bismuth trichloride triammine [66172-89-2] BiCl ANH, as well as the red, thermally unstable bismuth trichloride hemiammine [66172-90-5] 2BiCl2 NH. Compounds of formula BiCl NO, BiCl 2N02, and BiCl NOCl may be isolated these are stable in dry air but are decomposed by moisture. Bismuth... [Pg.128]

Dibismuthines tend to be thermally unstable. Thus tetramethyldibismuthine [82783-70-8] C4H22Bi2, decomposes at 25°C to yield trimethylbismuthine and metallic bismuth (66) ... [Pg.132]

Representative pentacarbonyls are restricted to the iron, mthenium, and osmium group. AH three pentacarbonyls possess trigonal bipyramidal stmctures as shown in stmcture (2). The pentacarbonyls of mthenium and osmium are thermally unstable. Osmium pentacarbonyl [16406-49-8] rapidly polymerizes at room temperature to form polynuclear species. The transient species Cr(CO) (1 )> Mo(CO) (1 )> W(CO) (19) have been investigated. [Pg.63]

See other pages where Thermally unstable is mentioned: [Pg.276]    [Pg.284]    [Pg.263]    [Pg.166]    [Pg.397]    [Pg.25]    [Pg.9]    [Pg.151]    [Pg.440]    [Pg.453]    [Pg.264]    [Pg.27]    [Pg.490]    [Pg.492]    [Pg.123]    [Pg.175]    [Pg.333]    [Pg.229]    [Pg.514]    [Pg.518]    [Pg.95]    [Pg.338]    [Pg.131]    [Pg.220]    [Pg.437]    [Pg.206]    [Pg.334]    [Pg.224]    [Pg.293]    [Pg.265]   
See also in sourсe #XX -- [ Pg.99 , Pg.135 , Pg.241 , Pg.321 , Pg.329 , Pg.345 , Pg.363 , Pg.370 , Pg.454 , Pg.606 , Pg.684 ]

See also in sourсe #XX -- [ Pg.163 , Pg.183 ]



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Unstability

Unstable

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