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The surface frustrated Lewis pairs (SFLPs) open up new opportunities for
substituting noble metals in heterogeneous catalysis. However, its applications
are severely impeded by complex construction, low surface density, and
instability. Herein, we report that SFLPs exist naturally on wurtzite crystal
(e.g., GaN, ZnO, and AlP) surfaces. Taking GaN as an example, the surface
density of SFLPs on GaN surface is up to 7.26 * 10^14 cm^-2, which nearly
quintuples the highest theoretical value on regulated metal oxide surfaces. Ab
initio molecular dynamics simulations reveal that the natural SFLPs are very
stable under high temperatures and reactive atmospheres of CO and H2O.
Moreover, outstanding performance for activating important molecules is
demonstrated over these natural SFLPs, which originated from the unique orbital
orientation of SFLPs. These findings provide a simple method to obtain dense
and stable SFLPs and unfold the nature of SFLPs toward the facile activation of
small molecules.
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