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Highly Sensitive Sensing of NO and NO 2 Gases by Monolayer C 3 N
Author(s) -
Babar Vasudeo,
Sharma Sitansh,
Schwingenschlögl Udo
Publication year - 2018
Publication title -
advanced theory and simulations
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.068
H-Index - 17
ISSN - 2513-0390
DOI - 10.1002/adts.201700008
Subject(s) - monolayer , adsorption , van der waals force , molecule , chemistry , density functional theory , non equilibrium thermodynamics , analytical chemistry (journal) , chemisorption , chemical physics , molecular physics , computational chemistry , atomic physics , materials science , nanotechnology , organic chemistry , physics , thermodynamics
Using density functional theory with van der Waals dispersion correction, the adsorption behavior of common gaseous pollutants (CO, NO, NO 2 , and NH 3 ) on monolayer C 3 N is investigated. The adsorption sites and energies, binding distances, charge transfers, and electronic band structures are calculated to understand the influence of the adsorbed molecules on the transport properties of monolayer C 3 N. The current–voltage characteristics are calculated using the nonequilibrium Green's function formalism. It turns out that all investigated molecules are physisorbed on monolayer C 3 N and that NO and NO 2 gases can be sensed with high sensitivity. The recovery time of the sensor is found to be outstanding in the case of NO sensing (2.4 μs at room temperature) and competitive to other materials in the case of NO 2 sensing.