Sensing properties of BN nanotube toward carcinogenic 4-Chloroaniline (cas 106-47-8): A computational study
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Add time:08/23/2019 Source:sciencedirect.com
The viability of using a BN nanotube for detection of para-chloroaniline molecule was studied by means of density functional theory calculations. The results indicate that the molecule prefers to be adsorbed on the intrinsic BN nanotube from its N atom, releasing energy of 0.65 eV without significant effect on the electrical conductivity of the tube. Thus, para-chloroaniline cannot be detected using this intrinsic nanotube. To overcome this problem, a nitrogen atom of the tube wall was replaced by a Si atom. It was shown that the Si-doped tube not only can adsorb the molecule strongly, but also may detect its presence because of the drastic increase of the electrical conductivity of the tube.
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