Identification of Selected Persistent Organic Pollutants in Agricultural Land by Carbon Nitride (C3N5) Based Nano Sensors.

Abstract

Efficient detection of selected persistent organic pollutants(POPs)is extremely important for the safety of humans and for the moderation of agriculture.This calls for the design of versatile nanosensors capable of sensing toxicPOPs with high sensitivity and selectivity.Inspired bythis,the sensing characteristics of carbonnitride(C3N5) monolayers towards elected POPs are reported,such as Dichlorodi phenyltrichloroethane(DDT), Methoxychlor(DMDT),Fenthion(FT),Fenitrothion(FNT),andRennol(RL), employ in density functional theorycalculations.Analysis of results predicts adsorption energiesof−0.93,−1.55,−1.44,−0.98,and−1.15eVforDDT, DMDT,FT,FNT,andRM,respectively,onC3N5 monolayers.Significant charge transfers among organic pollutants andC3N5 lead to distinct electronic properties of the conjugated complexes,revealed by the density of states,electrostaticpotential,andworkfunctioncalculations.Todetectthe selected pollutants in high humidity,the effects due to aqueous medium are considered.Additionally,astatistical thermodynamic analysis utilizing the Langmuir adsorption model is utilized to explore the influence of temperature and pressure.