Studies on ultra-clean carbon surfaces—IV. Decomposition of carbon-oxygen surface complexes

Graphon, a highly graphitized carbon black, was first oxidized to 14.4% weight loss in 0, at 625°C to introduce significant active surface area. Following the cleaning of the activated Graphon surface by heating at 975°C in a vacuum of lo-\* torr, chemisorption of oxygen between 25-4Oo"C was studied

Pore structure changes have been determined for a number of commercial nuclear graphites radiolytically oxidised in carbon dioxide. Measurements have included open and closed porosity, pore size distribution, B.E.T. surface area and gas transport. The implications of pore structure changes on radiol

A preliminary investigation has been made into the behaviour of the surface oxygen complex during its formation and thermal desorption from the cleaned surface of a non-graphitic carbon (a rapidly pyrolised 720°C polyvinylidene chloride carbon). Using a direct sampling mass spectrometric technique a

The energetics of oxygen surface complex groups bound to a carbon surface were investigated using Iin~-tem~rature pr~mrn~ thermal desorption. 'I&e rate of CO pr~uction from the decomposition of surface complex formed by the low temperature oxygen chemisorption on an activated Graphon surface indicat