Gas chromatographic trace analysis of water in ethanol and its application to a problem in paper chromatography

Weinberg, Betty Bell Woodward, 1938-

January 1962

No description available.

Chromatographic analysis.

Gas chromatography.

The measurement of air-fuel ratios and products of combustion by means of gas chromatography techniques

Day, Seth Sears, 1926-

January 1965

No description available.

Combustion -- Research.

Gas chromatography.

The use of gas-solid and gas-liquid chromatography in combustion gas analysis

Olvera, Jose Jesus, 1935-

January 1964

No description available.

Gas chromatography.

Gases -- Analysis.

Analysis of in situ methylated microbial fatty acids by pyrolysis gas chromatography - mass spectrometry

Bourne, Thomas Franklin

08 1900

No description available.

Gas chromatography

Mass spectrometry

The solubilities of benzene and other related hydrocarbons in H₂O and D₂O

Yang, Chia Chi

12 1900

No description available.

Gas chromatography

Hydrocarbons

Gas-phase characterization of the molecular electronic structure of metal clusters and metal cluster oxidation

Cobb, Stephen Hal

08 1900

No description available.

Metal crystals

Gas chromatography

Gas chromatography with open tubular columns in parallel

Salcedo, R.L.R. (Romualdo L.R.)

January 1977

No description available.

Gas chromatography.

Columns.

Surface effects in gas chromatographic investigations of polymeric stationary phases

Courval, Gregory J.

January 1976

No description available.

Gas chromatography.

Polymers.

A study of carbon fiber surfaces by inverse gas chromatogrphy /

Vukov, Aleksandar J.

January 1988

Surface properties of high-strength and high-modulus carbon fibers were studied by inverse gas chromatography. London components of the surface free energy were calculated from the increment per methylene group in the free energy of adsorption of n-alkanes at zero coverage. Values typical of low energy surfaces were obtained for both types of "as received" carbon fibers. Cleaning of the fibers at elevated temperatures under nitrogen caused a significant increase in the London component. This was attributed to the desorption of physically adsorbed species (CO$ sb2$, H$ sb2$O) that occupied the high energy sites on "as received" fibers. Similar results were obtained in the finite coverage region where London components were calculated from the spreading pressures of the hydrocarbons. Type II adsorption isotherms were measured for n-alkanes on carbon fibers. The fibers were pretreated by heating to various temperatures under nitrogen. The BET surface areas of the fibers increased with increasing pretreatment temperature, due to the presence of microporosity. From the spreading pressures of ethanol on carbon fibers, the polar interactions between ethanol and the fibers were estimated.

Gas chromatography

Carbon fibers

Surface adsorption on regenerated cellulose : an inverse gas chromatographic study

Katz, Shelley.

January 1979

No description available.

Gas chromatography.

Cellulose.