Jack Fischer, James Bingle, Richard C. Vogel. J. Am. Chem. Soc. , 1956, 78 (5), pp 902â904 ... Howard C. Clark. Chemical Reviews 1958 58 (5), 869-89...
windows were very slowly etched a t a rate generally less than ... The 75 and 100" isotherms of the system bromiiie-broniine trifluoride have been determined.
BY JACK FISCHER, ROBERT K. STEUNENBERG. AND RICHARD C. VOGEL. RECEIVED NOVEMBER 6, 1953. Investigation of the system bromine-bromine ...
Phase Equilibria inthe Condensed System Bromine-Bromine Trifluoride. By Jack Fischer, Robert K. Steunenberg and. Richard C. Vogel. Received November 6 ...
The solid-liquid and liquid-vapor hase equilibria of the s stem chlorine trifluoride-hydrogen fluoride have been inyesti- gated over the composition range of0 to ...
Phase Equilibria of the System Chlorine TrifluorideâHydrogen Fluoride. R. M. McGill, W. S. Wendolkowski, and E. J. Barber. J. Phys. Chem. , 1957, 61 (8), ...
The Sodium Fluoride-Scandium Trifluoride. System 1933 is shown in projection in Figure 5. Qualitative com- parison of X-ray powder intensities suggests that ...
ported by theBureau of Naval Weapons, Department of the Navy, through the ... good thermal and hydrolytic stabilities and frequently having volatilities greater than that of the parent hexacarbonyl. ... earlier,2 but somewhat simplifiedby the use.
Investigation of the system bromine trifluoride-antimony pentafluoride has shown the presence of two incongruently melting compounds,SBrFs-SbFe and 3BrF.
The Condensed System Bromine Trifluoride-Antimony Pentafluoride. J. Fischer, R. Liimatainen, and J. Bingle. J. Am. Chem. Soc. , 1955, 77 (22), pp 5848â5849.
The Condensed System Bromine Trifluoride-Antimony Pentafluoride. J. Fischer, R. Liimatainen, J. Bingle. J. Am. Chem. Soc. , 1955, 77 (22), pp 5848â5849.
90%
J. FISCIIER, J. UINCLE
an over-all purity of 99.370 for the fluorine used in these measurements. All the data have been corrected by this factor. The addition of nitrogen to the fluorine caused no observable effect on the absorption spectrum. In one case 600 mm. of nitrogen was added to 100 mm. of fluorine, and in a second experiment an equal pressure of nitrogen was added to 300 mm. of fluorine. In both cases a decrease of only 0.01 1. mole-l cm.-' was found, which is well within the experimental uncertainty. In order to determine the extent of the reaction between the fluorine and the cell, measurements were made over time periods much longer than the
