From Aromatic Motifs to Cluster-Assembled Materials: Silicon–Lithium Nanoclusters for Hydrogen Storage Applications
Williams García-Argote, Erika Medel, Diego Inostroza, Alejandro Vásquez-Espinal, José Solar-Encinas, Luis Leyva-Parra, Lina María Ruiz, Osvaldo Yañez, William Tiznado

TL;DR
Silicon-lithium clusters are studied for hydrogen storage, showing high capacity and stability due to unique structural motifs.
Contribution
The study identifies novel Si–Li cluster structures with superior hydrogen storage capabilities and clarifies their stability mechanisms.
Findings
Li12Si5 achieves a gravimetric hydrogen density of 23.45 wt% by adsorbing 34 H2 molecules.
Si4–Td motifs and σ-aromatic structures enhance stability and hydrogen uptake in Li–Si clusters.
BOMD simulations confirm dynamic stability and reversible hydrogen storage at elevated temperatures.
Abstract
Silicon–lithium clusters are promising candidates for hydrogen storage due to their lightweight composition, high gravimetric capacities, and favorable non-covalent binding characteristics. In this study, we employ density functional theory (DFT), global optimization (AUTOMATON and Kick–MEP), and Born–Oppenheimer molecular dynamics (BOMD) simulations to evaluate the structural stability and hydrogen storage performance of key Li–Si systems. The exploration of their potential energy surface (PES) reveals that the true global minima of Li6Si6 and Li10Si10 differ markedly from those of the earlier Si–Li structures proposed as structural analogs of aromatic hydrocarbons such as benzene and naphthalene. Instead, these clusters adopt compact geometries composed of one or two Si4 (Td) units and a Si2 dimer, all stabilized by surrounding Li atoms. Motivated by the recurrence of the Si4–Td…
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Taxonomy
TopicsHydrogen Storage and Materials · Boron and Carbon Nanomaterials Research · Advancements in Battery Materials
