Spatial distribution of N2, N2O, and NO desorbing from a Pd(211) surface

Abstract

The spatial distributions of NO, N 2 , and N 2 O desorbing from Pd(211), Pd(S) -[3(111)×(100)], in temperature programmed desorption(TPD) and that of N 2 produced in the temperature programmed reaction (TPR) of NO+H 2 have been studied. The spatial distribution of N 2 desorbing at 510 K in the TPD had a maximum intensity at θ=−25–−30 deg (down the steps) in the [1 1̄ 1̄] direction, which is almost normal to the (100) steps, and is described by 2.4 cos 12 (θ+26 deg ). Taking account of the fact that NO molecules are preferentially adsorbed on the (111) terraces of a Pd(211) surface at low coverage, it is deduced that the NO adsorbed on the (111) terraces undergoes migration to the (100) steps, where N 2 is produced. An isotopically labeled angle-resolved TPD experiment showed that N 2 was produced by the NO+N reaction. On the other hand, the desorption of NO is normal to the crystal surface. This phenomenon indicates that NO desorbs via a predesorption state, where NO molecules forget their memory of the previous adsorption sites. In contrast, the spatial distribution of N 2 given by the catalyticreaction in a flow of NO+H 2 at 650 K, was completely different from that of N 2 produced by NO+N reaction at around 500 K. It is concluded that the spatial distribution reflects the reaction or desorption mechanisms, especially the reaction coordinate on the surface.