Bonding in Beryllium Clusters

Abstract: Beryllium clusters provide an ideal series for exploring the evolution from discrete molecules to the metallic state. The beryllium dimer has a formal bond order of zero, but the molecule is weakly bound. In contrast, bulk-phase beryllium is a hard metal with a high melting point. Theoretical calculations indicate that the bond energies increase dramatically for Be(n) clusters in the range n=2-6. A triplet ground state is found for n=6, indicating an early emergence of metallic properties. There is an extensiv… Show more

“…Analysis of the stability of Be complexes was performed several years ago by Lee et al [10]. Detailed decomposition of the total IE was performed more recently by Bondybey and coworkers [3,11,12]. Energy analysis of the hydrogen trapped in Be clusters was studied recently.…”

“…In fact, Be atom in a Be cluster is chemically quite different from the separated one. This is related to low 2s-2p excitation energy of Be that allows creation of s-p hybrid orbitals (see the analysis by Heaven et al [12]). Therefore, a beryllium cluster (Be n , n > 3) is more like a molecule with strong covalent bonds, rather than a noncovalent complex composed of 'individual' Be atoms.…”

Ab initio study of many-body decomposition of the interaction energy in small beryllium clusters

“…Analysis of the stability of Be complexes was performed several years ago by Lee et al [10]. Detailed decomposition of the total IE was performed more recently by Bondybey and coworkers [3,11,12]. Energy analysis of the hydrogen trapped in Be clusters was studied recently.…”

“…In fact, Be atom in a Be cluster is chemically quite different from the separated one. This is related to low 2s-2p excitation energy of Be that allows creation of s-p hybrid orbitals (see the analysis by Heaven et al [12]). Therefore, a beryllium cluster (Be n , n > 3) is more like a molecule with strong covalent bonds, rather than a noncovalent complex composed of 'individual' Be atoms.…”

Ab initio study of many-body decomposition of the interaction energy in small beryllium clusters

“…Another consequence of the small 2s-2p energy interval is that the ground state of simple beryllium compounds is often multi-reference in nature, which is very challenging in computational chemistry. Many beryllium aggregates have also been investigated, like the Be 3 trimer [16,17] or bigger Be n clusters, with n up to 9, some of them at the MP4 [16] or FCI levels [17], some other with DFT [18][19][20].…”

Adsorption of beryllium atoms and clusters both on graphene and in a bilayer of graphite investigated by DFT

“…33,34 Detailed information on the OH(X 2 P)-Ar PES has also been obtained from spectroscopic study of the bound states of the OH-Ar van der Waals complex. 35,36 Here we report the investigation of rotational energy transfer of fully state-selected OH (X 2 P 3/2 , J = 3/2, f) radicals in collisions with Ar atoms at collision energies between 80 and 800 cm…”

State-to-state inelastic scattering of Stark-decelerated OH radicals with Ar atoms