Systematic cluster growth: a structure search method for transition metal clusters

The systematic cluster growth (SCG) method is a biased structure search strategy based on a seeding process for investigating the structural evolution and growth pattern of transition metal clusters. In SCG, a set of initial structures with sizenare constructed based on the equilibrium structures of the precedingn− 1 cluster isomers by adding a single atom at all inequivalent binding sites. This strategy requires a relatively low number of evaluations for global minima localization on the potential energy surface, allowing its application in first-principles calculations. The performance of SCG is tested by using the Lennard Jones (LJ) potential energy surface. The 93.7%25 of the best-known solutions for Lennard Jones clusters were found forn≤ 80 by using a relatively low number of local optimizations. Most importantly, by using SCG combined with DFT calculations (SCG-DFT), we revisit and provide the ground state structures and growth pattern for transition metal clusters TMn(where TM = Ti, Ni, Cu, Ag, Pt; andn= 6-14). The application of the code for doped clusters is also discussed. A detailed description of the present method for generating the structures of the clusters is provided. © the Owner Societies 2021.

Binding sites; Calculations; Global optimization; Ground state; Isomers; Molecular physics; Potential energy; Potential energy surfaces; Quantum chemistry; Equilibrium structures; First-principles calculation; Ground-state structures; Initial structures; Lennard-Jones cluster; Local optimizations; Structural evolution; Transition-metal clusters; Transition metals

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