C2N monolayer as NH3 and NO sensors: A DFT study

“…As a comparison, the recovery time has been reported to be about ∼10 −6 to ∼10 −9 seconds for different gas molecules (NH 3 , NO, CO, CO 2 , CH 4 ) adsorbed on C2N. 65 …”

In-plane graphene/boron nitride heterostructures and their potential application as toxic gas sensors

“…As a comparison, the recovery time has been reported to be about ∼10 −6 to ∼10 −9 seconds for different gas molecules (NH 3 , NO, CO, CO 2 , CH 4 ) adsorbed on C2N. 65 …”

In-plane graphene/boron nitride heterostructures and their potential application as toxic gas sensors

“…The adsorbed system is frequently heated to high temperatures to accomplish recovery. A theoretical prediction of the recovery time can be made based on transition-state theory [206]:…”

Recent Developments and Future Perspective on Electrochemical Glucose Sensors Based on 2D Materials

“…In addition, we analyzed the conductivity changes in the Si 2 BN-ML in the presence of adsorbed gas molecules. Based on the sensing theory, it is clear that there occurred an enhancement in conductivity via the electron exchange mechanism 77,78 between the Si 2 BN-ML surface and COCl 2 and CO 2 Besides, it should be noticed that the enhanced DOS at and around the Fermi level effectively improves the conductivity by enhancing the electron transition probability. As stated, the conductance of the Si 2 BN-ML significantly improved in the presence of gas molecules and the enhanced conductance is also favorable for the fabrication of highly sensitive COCl 2 and CO 2 sensors.…”

From fundamental to CO₂ and COCl₂ gas sensing properties of pristine and defective Si₂BN monolayers