Abstract
This study describes the in-silico design, synthesis, and evaluation of a cross-linked PVA hydrogel (CLPH) for the absorption of organophosphorus pesticide dimethoate from aqueous solutions. The crosslinking effectiveness of 14 dicarboxilic acids was evaluated through in-silico studies using semiempirical quantum mechanical calculations. According to the theoretical studies, the nanopore of PVA cross-linked with malic acid (CLPH-MA) showed the best interaction energy with dimethoate. Later, using all-atom molecular dynamics simulations, three hydrogels with different proportions of PVA:MA (10:2, 10:4, and 10:6) were used to evaluate their interactions with dimethoate. These results showed that the suitable crosslinking degree for improving the affinity for the pesticide was with 20% (W%) of the cross-linker. In the experimental absorption study, the synthesized CLPH-MA20 recovered 100% of dimethoate from aqueous solutions. Therefore, the theoretical data were correlated with the experimental studies. Surface morphology of CLPH-MA20 by Scanning Electron Microscopy (SEM) was analyzed. In conclusion, the ability of CLPH-MA20 to remove dimethoate could be used as a technological alternative for the treatment of contaminated water.
Highlights
IntroductionThe treatment of water that is contaminated with organophosphorus (OP) compounds remains until today as a problem worldwide, which needs to be solved with novel and innocuous technologies
The treatment of water that is contaminated with organophosphorus (OP) compounds remains until today as a problem worldwide, which needs to be solved with novel and innocuous technologies.The OP compounds are organic molecules containing phosphate groups that have the capacity to irreversibly inactivate the enzyme acetylcholinesterase (AChE) [1]
The results showed that malic acid (MA) was the best candidate to carry out the cross-linking of the Polyvinyl Alcohol (PVA) hydrogel
Summary
The treatment of water that is contaminated with organophosphorus (OP) compounds remains until today as a problem worldwide, which needs to be solved with novel and innocuous technologies. The OP compounds are organic molecules containing phosphate groups that have the capacity to irreversibly inactivate the enzyme acetylcholinesterase (AChE) [1]. Dimethoate (O,O-dimethyl-S-methylcarbamoyl methylphosphorothioate), or DMT, is one of the most widely used OP compounds [4] (Table 1). This widely as an insecticide cropsused (e.g.,aswheat, alfalfa, corn, and(e.g., cotton), used. This compound is on widely an insecticide on crops orchards, in forestry, and for residential purposes
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