Abstract
It has been found that the gas chromatography of ammonia
on certain fixed phases containing salts yields chromatograms
consisting of a peak followed by a plateau or a succession of
'plateaux of progressively decreasing height. Such chromatograms
have been interpreted in terms of aromine formation in the column,, ~
and methods have been theoretically elaborated.for using
measurements on the chromatograms to find the dissociation pressures
of the ammines and the ratios of amnonia taken up to silver in the
fixed phase. These methods require the calibration of the ~etector,
so that arrnnonia partial pressures can be found from chromatogram
heights,, and this has been done by a chromatographic ~method. In
I
most cases,, the ratio of ammonia to silver. in the fixed phase does
not yield conclusive information on azmnine composition,, because there
is usually evidence that the salt is present in different forms or
is only partially converted to ammine.
Most attention has been devoted.to packings containing
silver salts 4issolved in organic liquids. Solutions of silver
nitrate in benzyl cyanide and benzonitrile, and of silver perchlorate
in benzyl cyanide,, benzonitrile,, fenchone and tetralin
have been found to yield chromatograms with plateaux, and a study
of these has shown that both the anion and the solvent influence
ammine formation. All these solutions react with amnonia to
form a white precipitate and therefore act a.s heterogeneous
fixed phases. New packings absorb some ammonia,, but this is
slowly removed by a current of carrier gas; the absorption is
ascribed to the formation of lower ammines having dissociation
pressures too low to be registered by the detector. The
apparent compositions of the lower amrnines have beeri determined by
measuring the initial absorption, and th~ir dissociation pressures
have been found for some packings by measuring the rate of removal
of ammonia by a current of carrier gas. Complicated ageing
processes take place in columns containing silver nitrate and
silver perchlorate in benzyl cyanide.
A survey of all the dissociation pressures deternrl.ned
shows that these fal;I. into three groups, at roughly 10- 4 , 10- 2
-1 and 10 atm~ The highest and lowest groups are shown by all
the systems studied, but the middle group only by solutions in
benzyl cyanide. A more detailed comparison of pressures in the
highest group shows that silver nitrate in a given solvent forms an
amm:ine with a dissociation pressure higher than that of the a.nunine
f?rmed by silver perchlorate in the sane solvent. .Al though the
stoichiometric data obtained are very rough, there is some indication
that ammines of similar composition a.re formed in
different solutions.
In contrast to the solutions enumerated above, silver
nitrate and silver perchlorate in m-toluidine form no precipitate
with ~ do not absorb ammonia initially and do not give
plateau chromatograms. On these solutidns, amnonia has a final
retention volume that is independent of sample size.
Experiments with silver perchlorate in mixtures of
fenchone and benzyl cyanide, silver nitrate in mixtures of
benzonitrile and m-toluidine, and silver nitrate and silver
perchlorate together in benzonitrile have shown that these threecomponent
systems produce ohromatograms having some plateaux. in
common with the chromatograms of the corresponding two-component
systems, but also showing plateaux not occurring in the latter.
A few tensimetric experiments have been performed with.
ammonia and solutions of silve::r; nitrate in benzonitrile1 and have
produced results in rough agreement with the gas-chromatographic
results.
Plateau chromatograms have also been obtained with granular
lead bromide and lead chloride; it appears that ammine formation
is confined to the surface of these salts.
Some packings containing salts have been found to give
ammonia chromatograms showing two peaks~ of which the first
increases in size with increasing humidity of the carrier gas,
and is ascribed to moisture taken up by the packing from the
ca.ITier and later displaced by the ammonia sample.
DU, L (2021). Studies In The Gas Chromatography Of Amionia With Special Reference To Packings Containing Solutions Of: Silver Salts In Some.Organic Solvents. Afribary. Retrieved from https://tracking.afribary.com/works/studies-in-the-gas-chromatography-of-amionia-with-special-reference-to-packings-containing-solutions-of-silver-salts-in-some-organic-solvents
DU, LOUIS "Studies In The Gas Chromatography Of Amionia With Special Reference To Packings Containing Solutions Of: Silver Salts In Some.Organic Solvents" Afribary. Afribary, 15 May. 2021, https://tracking.afribary.com/works/studies-in-the-gas-chromatography-of-amionia-with-special-reference-to-packings-containing-solutions-of-silver-salts-in-some-organic-solvents. Accessed 18 Dec. 2024.
DU, LOUIS . "Studies In The Gas Chromatography Of Amionia With Special Reference To Packings Containing Solutions Of: Silver Salts In Some.Organic Solvents". Afribary, Afribary, 15 May. 2021. Web. 18 Dec. 2024. < https://tracking.afribary.com/works/studies-in-the-gas-chromatography-of-amionia-with-special-reference-to-packings-containing-solutions-of-silver-salts-in-some-organic-solvents >.
DU, LOUIS . "Studies In The Gas Chromatography Of Amionia With Special Reference To Packings Containing Solutions Of: Silver Salts In Some.Organic Solvents" Afribary (2021). Accessed December 18, 2024. https://tracking.afribary.com/works/studies-in-the-gas-chromatography-of-amionia-with-special-reference-to-packings-containing-solutions-of-silver-salts-in-some-organic-solvents