Spincrossover

Spin crossover is a class of molecular and solid-state phenomena in which a transition metal ion can reversibly switch between two electronic spin states, typically a low-spin (LS) and a high-spin (HS) configuration, in response to external stimuli. It is most commonly observed in octahedral coordination complexes of iron(II) and cobalt(II) and in related materials. The transition arises from a competition between crystal-field splitting, Δ_oct, and the pairing energy, P. When Δ_oct is larger than P, electrons pair in the lower-energy t2g set (LS). If Δ_oct is comparable to or smaller than P, electrons occupy higher-energy eg orbitals to maximize spin (HS). The HS state often has a larger ionic radius, leading to measurable changes in structure, color, and magnetic properties.

In solids, cooperativity among neighboring metal centers can produce abrupt transitions and hysteresis, enabling memory-like behavior.

Applications are exploratory and include molecular switches, sensors, displays, and memory devices. Spin crossover materials span