Nucleophilic Neutralization of Organophosphates: Lack of Selectivity or Plenty of Versatility?

Neutralization of organophosphates is an issue of public health and safety, involving agrochemicals and chemical warfare. A promising approach is the nucleophilic neutralization, scope of this review, which focuses on the molecular nucleophiles: hydroxide, imidazole derivatives, alpha nucleophiles, amines and other nucleophiles. A reactivity mapping is given correlating the pathways and reaction efficiency with structural dependence of the nucleophile (basicity) and the organophosphate (electrophilic centers, P=O/P=S shift, leaving and non-leaving group). Reactions extremely unfavorable (>20 years) can be reduced to seconds with various nucleophiles, some which are catalytic. Although there is no universal nucleophile, a lack of selectivity in some cases accounts for plenty of versatility in other reactions. The ideal neutralization requires a solid mechanistic understanding, together with balancing factors such as milder conditions, fast process, selectivity and less toxic products.

Automated summary

The neutralization of organophosphates is a significant public health and safety issue related to agrochemicals and chemical warfare. Nucleophilic neutralization is a promising approach that focuses on molecular nucleophiles, with reactivity mapping helping to understand the structural dependence of these nucleophiles and organophosphates. Ideal neutralization requires a solid mechanistic understanding and balancing factors such as milder conditions, fast process, selectivity, and less toxic products.