Materials
containing planar hypercoordinate motifs greatly enriched
the fundamental understanding of chemical bonding. Herein, by means
of first-principles calculations combined with global minimum search,
we discovered the two-dimensional (2D) SrB8 monolayer,
which has the highest planar coordination number (12) reported so
far in extended periodic materials. In the SrB8 monolayer,
bridged B8 units are forming the boron monolayer consisting
of B12 rings, and the Sr atoms are embedded at the center
of these B12 rings, leading to the Sr@B12 motifs.
The SrB8 monolayer has good thermodynamic, kinetic, and
thermal stabilities, which is attributed to the geometry fit between
the size of the Sr atom and cavity of the B12 rings, as
well as the electron transfer from Sr atoms to electron-deficient
boron network. Placing the SrB8 monolayer on the Ag(001)
surface shows good commensurability of the lattices and small vertical
structure undulations, suggesting the feasibility of its experimental
realization by epitaxial growth. Potential applications of the SrB8 monolayer on metal ions storage (for Li, Na, and K) are explored.