The observing of environmental contaminant of Nitrobenzene (NB), from effluent discharges is a critical component of the surveillance to be conducted by public authorities and private sectors. By the way, the present work examines the NB adsorption behaviour of recently synthesized two-dimensional (2D) material MoSi2N4 through density functional theory (DFT). We observed that when increasing the percentage of strain (2, 4, 6 and 10 %) the adsorption energy also increasing reasonably compared to the unstrained case. The bandgap reduction was observed when gas molecule interacts with the strained MoSi2N4 and also the Bader charge calculation claims that the quantity of charge transferred between orbitals of N 2p of MoSi2N4 and the O 2p of NB. 4 % strain shows reasonable binding energy of 1.0201 eV with recovery time of 3.15 min. Moreover, there is strong bonding between N of MoSi2N4 and O of NB as evidenced from wavefunction analysis. 10 % strained system is stable at 600 K, which is examined through ab initio molecular dynamics study. The present theoretical investigation validates the 4 % strained MoSi2N4 can be fabricated as a sensor to detect the NB gas molecule.
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