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Krypton fluoride compounds

Naturally occurring krypton contains six stable isotopes. Seventeen other unstable isotopes are now recognized. The spectral lines of krypton are easily produced and some are very sharp. While krypton is generally thought of as a rare gas that normally does not combine with other elements to form compounds, it now appears that the existence of some krypton compounds is established. Krypton difluoride has been prepared in gram quantities and can be made by several methods. A higher fluoride of krypton and a salt of an oxyacid of krypton also have been... [Pg.100]

Since the discovery of the first noble gas compound, Xe PtF (Bartlett, 1962), a number of compounds of krypton, xenon, and radon have been prepared. Xenon has been shown to have a very rich chemistry, encompassing simple fluorides, XeF2> XeF, and XeF oxides, XeO and XeO oxyf luorides, XeOF2> XeOF, and Xe02 2 perxenates perchlorates fluorosulfates and many adducts with Lewis acids and bases (Bartlett and Sladky, 1973). Krypton compounds are less stable than xenon compounds, hence only about a dozen have been prepared KrF and derivatives of KrF2> such as KrF+SbF, KrF+VF, and KrF+Ta2F11. The chemistry of radon has been studied by radioactive tracer methods, since there are no stable isotopes of this element, and it has been deduced that radon also forms a difluoride and several complex salts. In this paper, some of the methods of preparation and properties of radon compounds are described. For further information concerning the chemistry, the reader is referred to a recent review (Stein, 1983). [Pg.243]

Kala-Azar, 278 Keggin anions, 1034 electrochemistry, 1050 Keggin structures, 1035 heteropolyanions, 1037 Klebsiella pneumoniae nitrogenases, 1425 Kroll process, 325 Krypton compounds difluorides, 313 fluoride, 313... [Pg.3298]

KrF2 is the only known binary krypton compound. Unlike the xenon fluorides, it is unstable with respect to its elements. It is therefore a more powerful fluorinating agent than fluorine, and is made by passing an electric discharge through a Kr/F2 mixture. [Pg.98]

Following Bartlett s discovery of xenon hexafluoroplatinate(VI), xenon and fluorine were found to combine to give several volatile, essentially covalent fluorides, and at least one fluoride of krypton has been obtained. From the xenon fluorides, compounds containing xenon-oxygen bonds have been made much of the known chemistry of xenon is set out in Figure 12.1. [Pg.355]

One hypothesis says that fluorine can be substituted for hydrogen wherever it occurs in organic compounds, which could lead to an astronomical number of new fluorine compounds. Compounds of fluorine with rare gases have now been confirmed in fluorides of xenon, radon, and krypton. [Pg.24]

Krypton difluoride is a fluorinating agent some 50 kJ/mol more powerful than fluorine itself. It forms adducts, salts of FKr+, with high valency fluorides such as AsF5 and SbF5, these react explosively with organic compounds. [Pg.1522]

Laser Flash Photolysis at 248 nm of TDI-PU. MDI-PUE. and Model Compounds. Figures 1 and 2 show the transient absorption spectra of MDI-PUE (5.5 X lO-3 g/dL) and TDI-PU (2.3 X 10 3 g/dL) in THF at a 2.0 ns delay after pulsing with a krypton fluoride excimer laser (Xex=248 nm) in air and nitrogen saturated samples. Both spectra have common peaks in nitrogen saturated solutions (shown by arrows) at 310 nm, 330-360 nm (broad), and above 400 nm (broad, diffuse absorbance).. The MDI-PUE sample has an additional and quite distinctive peak at 370 nm. In the presence of air, the peak at 370 nm for MDI-PUE is completely extinguished, while the sharp peaks at 310 nm for TDI-PU and MDI-PUE and the broad band above 400 nm are only marginally quenched by oxygen. [Pg.46]

In the 1960s, scientists first produced compounds of xenon and some other noble gases at the Argonne National Laboratory located near Chicago. Xenon and krypton are the only noble gases that readily form compounds with oxygen and fluorine. For instance, when xenon combines with fluorine, it can form a series of compounds, such as xenon difluoride PCeF ), xenon tetra-fluoride (XeF ), and xenon hexafluoride pCeF ). These and other compounds of xenon are formed within metal containers at high temperatures and pressures. They are not stable. [Pg.272]

British chemist Sir William Ramsay Noble gas that gives off a bluish light when subjected to electrical charge often used for airport runway lighting forms only one known compound, krypton fluoride. [Pg.235]

Krypton difluoride reacts with Tc02F3 in anhydrous HF at room temperature to yield the last member of the TcVI1 oxide fluoride series, TcOF5 [343], The compound is yellow-orange in color and highly volatile. Fluorine-19 and "Tc NMR and Raman spectroscopic studies are in agreement with a psewdo-octahedral C4l. geometry. [Pg.160]

See other pages where Krypton fluoride compounds is mentioned: [Pg.25]    [Pg.153]    [Pg.565]    [Pg.628]    [Pg.76]    [Pg.669]    [Pg.661]    [Pg.713]    [Pg.68]    [Pg.349]    [Pg.649]    [Pg.743]    [Pg.719]    [Pg.707]    [Pg.741]    [Pg.661]    [Pg.232]    [Pg.123]    [Pg.124]    [Pg.26]    [Pg.7]    [Pg.915]    [Pg.21]    [Pg.225]    [Pg.166]    [Pg.225]    [Pg.313]    [Pg.914]    [Pg.229]    [Pg.201]    [Pg.110]    [Pg.549]    [Pg.80]    [Pg.89]    [Pg.401]   
See also in sourсe #XX -- [ Pg.313 ]

See also in sourсe #XX -- [ Pg.3 , Pg.313 ]



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Krypton compounds

Krypton fluorides

Kryptonates

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