D. Brennan scite author profile

A Beeck-type calorimeter has been used to measure the integral heat of adsorption of oxygen on evaporated films of titanium, chromium, manganese, iron, cobalt, nickel, niobium, molybdenum, rhodium, palladium, tantalum, tungsten, platinum and aluminium. The variation of the heat with the extent of the adsorption has also been determined, except with palladium, platinum and aluminium, for which the amounts of oxygen adsorption were too small to allow this to be done. The heats of adsorption reported are based on a careful determination of the heat capacity of the calorimeter and the overall error is not more than ± 5 kcal/mole. Some investigations of calorimetric behaviour have been made. The surface areas of the films have been measured before and after an adsorption by the B.E.T. method; krypton isotherms at — 196 °C were used for this purpose. From these data, it has been possible to estimate the number of atoms of oxygen adsorbed per surface metal atom. In most cases, this quantity, together with the heat of adsorption, can be related to the oxygen/metal ratios and the heats of formation of certain oxides; this observation is remarkable in view of the limited extent of the adsorption. In the cases of rhodium, palladium and platinum the adsorption stops short of a monolayer and is probably true chemisorption rather than oxide formation. For those metals on which oxide formation occurs, the decrease in heat of adsorption with increasing coverage has been interpreted, in general, in terms of an increase in the oxidation number of surface metal ions by electron transfer within the adsorbed layer. Some theoretical correlations between the heat of adsorption and the atomic and the bulk properties of the species concerned have been examined and found of little value; an empirical relation with the metallic radius is given.

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Heat of adsorption of hydrogen on evaporated films of tungsten and of nickel

Brennan¹,

Hayes²

1964

Trans. Faraday Soc.

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Heats of adsorption of hydrogen on evaporated metal films have been determined at 273, 195 and 90°K with a Beeck-type calorimeter of greatly increased sensitivity, the heat capacity of which has been determined independently at each temperature. For both tungsten and nickel, the heat of adsorption falls with increasing coverage at 273"K, but is constant at 90°K. The integral heat of adsorption is independent of temperature for both metals. The present results are compared with those already in the literature.

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Calorimetric determination of the heat of adsorption of oxygen on evaporated films of germanium and silicon

Brennan

Hayward

Trapnell

1960

Journal of Physics and Chemistry of Solids

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Redox properties of small metallocarborane clusters: electrochemistry of cobalt triple-decker sandwich compounds

Brennan¹,

Geiger²

1979

J. Am. Chem. Soc.

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The computer modeling of lanthanum in the framework of faujasite: Part 1. Anhydrous lanthanum zeolite

et al. 1994

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D. Brennan

The calorimetric determination of the heats of adsorption of oxygen on evaporated metal films

Heat of adsorption of hydrogen on evaporated films of tungsten and of nickel

Calorimetric determination of the heat of adsorption of oxygen on evaporated films of germanium and silicon

Redox properties of small metallocarborane clusters: electrochemistry of cobalt triple-decker sandwich compounds

The computer modeling of lanthanum in the framework of faujasite: Part 1. Anhydrous lanthanum zeolite

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