| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5368613 | Applied Surface Science | 2010 | 6 Pages |
The diamond (1Â 0Â 0) surface with amino terminations is investigated based on density function theory within the generalized gradient approximation. Our calculated negative electron affinity of diamond (1Â 0Â 0) surface with hydrogen termination provides a necessary condition for initiating radical reaction. The results display that the ammonia molecule can form stable C-N covalent bonds on the diamond surface. In addition, due to the lower adsorption energy of one amino group binding on diamond surface, single amino group (SAG) model is easy to be realized in experiment with the comparison of double amino group (DAG) model. The adsorbed ammonia molecule will induce acceptor-like gap states with little change of the valence and conduction band of diamond in SAG model. The adsorption mechanism in the formation of ammonia monolayer on H-terminated diamond (1Â 0Â 0) surface, and two possible adsorption structures (SAG and DAG) were especially studied.
