Calorimetric Studies on Chemisorption of Nitrogen on Tantalum

Abstract

Behaviors of chemisorption of wires and ribbons are studied with Roberts' type adsorption calorimeter. The total saturation coverages are 3.8×10¹⁴ molecules/cm² for both wires and ribbons. Initial values of average sticking probabilities are 0.2₂ for the wire and 0.2₀ for the ribbon at room temperature, and average sticking probabilities abruptly decrease at about 1.7×10¹⁴ molecules/cm². Average calorimetric heats also vary with the increase of coverage as 6_.7, 6_.0 and 5_.2 eV for the wire, and 7_.3 and 5_.4 eV for the ribbon. Properties of the chemisorption states of B₁, B₂ and B₃ are made clear by the multiplex state theory using the above average values. In the B₁-state, the sticking probability is very small such as 0.01 and the heat of chemisorption is also small such as 5_.3 eV. These values for the B₂-state are 0.3₇ and 6_.0 eV. The B₃-state has the largest values of 0.5 and 7_.3 eV. The heat of chemisorption of 6.1 eV calorimetrically obtained on an evaporated film is identical with that of the B₃-state.