Nitrogen adsorption and dissociation on Fe(111)

Nitrogen adsorption and dissociation on Fe(111)

by J. J. Mortensen, L. B. Hansen, B. Hammer, and J. K. Nørskov.

  1. Catal. 182, 479 (1999).

Abstract

We report extensive density functional calculations of the energetics of N2 adsorption and dissociation on a Fe(111) surface. From the calculations we can present a detailed picture of the rate limiting step in the ammonia synthesis which is consistent with available experimental observations. Four different molecularly adsorbed states are identified, including a new state not seen by experiment. The new state is a true precursor to dissociation. We find that there are two dissociation channels, one going through all the molecular states sequentially with a low energy barrier, but a high entropy barrier, and the other a direct channel into the new precursor, which is highly activated. In this way we can explain both the measured sticking probability for a thermal gas of N2 above a Fe(111) surface and the molecular beam scattering experiments. During ammonia synthesis conditions the low barrier channel is expected to dominate, but at the highest synthesis temperatures, the high barrier channels may become the most effective. The origin of the alkali promotion of the N2 dissociation process is also discussed.