Modeling the stability and growth of metalloid clusters for energetic materials

Abstract: Abstract. Metalloid clusters, defined as cluster systems with more metal/metal than metal/organic bonds, are currently under study as energetic materials that may retain the high energy density of bulk metals but offer substantially faster reaction kinetics. Considerable synthesis challenges remain, but these systems may in principle allow low-valence metals to oxidize within the reaction zone of a detonation. Here we present density functional theory and ab initio molecular dynamics simulations of ligated alu… Show more

“…The synthesis of these clusters is discussed by Schnöckel and coworkers. [8,9,10,11,12,13,14] In this process, a disproportionation reaction of AlCl solution mixed with other organic compounds, at elevated temperatures, forms a variety of organoaluminum complexes. In addition, Al(III)Cl trivalent centers found in the mixture were proposed to serve as an active nucleation site for additional AlCl species from the liquid via oxidative insertion.…”

The role of reducing agents in the nucleation and growth of Al metalloid clusters: Ab initio molecular dynamics study

“…The synthesis of these clusters is discussed by Schnöckel and coworkers. [8,9,10,11,12,13,14] In this process, a disproportionation reaction of AlCl solution mixed with other organic compounds, at elevated temperatures, forms a variety of organoaluminum complexes. In addition, Al(III)Cl trivalent centers found in the mixture were proposed to serve as an active nucleation site for additional AlCl species from the liquid via oxidative insertion.…”

The role of reducing agents in the nucleation and growth of Al metalloid clusters: Ab initio molecular dynamics study