posted on 2024-10-01, 16:08authored byNathan D. Yoshino, Lee-Ping Wang
Phosphorus is critical to humans on many fronts, yet
we do not
have a mechanistic understanding of some of its most basic transformations
and reactionsnamely the oligomerization of white phosphorus
to red. With heat or under ultraviolet (UV) exposure, it has been
experimentally demonstrated that white phosphorus dissociates into
diphosphorus units which readily form red phosphorus. However, the
mechanism of this process is unknown. The ab initio nanoreactor approach
was used to explore the potential energy surface of phosphorus clusters.
Density functional theory and metadynamics simulations were used to
characterize potential reaction pathways. A mechanism for oligomerization
is proposed to take place via diphosphorus additions at π-bonds
and weak σ-bonds through three membered ring intermediates.
Downhill paths through P6 and P8 clusters eventually
result in P10 clusters that can oligomerize into red phosphorus
chains. The initial, rate limiting step for this process has an energy
barrier of 24.2 kcal/mol.