Detection and removal of metal ion contaminants have attracted great interest due to the health risks that they represent for humans and wildlife. Among the proposed compounds developed for these purposes, thiourea derivatives have been shown as quite efficient chelating agents of metal cations and have been proposed for heavy metal ion removal and for components of high-selectivity sensors. Understanding the nature of metal−ionophore activity for these compounds is thus of high relevance.We present a theoretical study on the interaction between substituted thioureas and metal cations, namely, Cd 2+ , Hg 2+ , and Pb 2+ . Two substituent groups have been chosen: 2-furoyl and mtrifluoromethylphenyl. Combining density functional theory simulations with wave function analysis techniques, we study the nature of the metal−thiourea interaction and characterize the bonding properties. Here, it is shown how the N,N′-disubstituted derivative has a strong affinity for Hg 2+ , through cation−hydrogen interactions, due to its greater oxidizing capacity.
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