PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 30747176-1 2019 Using first principles density functional theory, we have studied the interaction mechanism of NO2 and SO2 gas molecules on an MoB2 monolayer, for gas sensing applications. Nitrogen Dioxide 95-98 MOB kinase activator 2 Homo sapiens 127-131 30747176-6 2019 The chemisorptive nature for NO2, in contrast with the relatively weaker physisorption for SO2, additionally supports the fact that NO2 gas has a better perspective for MoB2 sensor application. Nitrogen Dioxide 29-32 MOB kinase activator 2 Homo sapiens 169-173 30747176-6 2019 The chemisorptive nature for NO2, in contrast with the relatively weaker physisorption for SO2, additionally supports the fact that NO2 gas has a better perspective for MoB2 sensor application. Nitrogen Dioxide 132-135 MOB kinase activator 2 Homo sapiens 169-173 30747176-8 2019 The faster recovery time attributes the MoB2 monolayer better as a sensor material for NO2 interaction. Nitrogen Dioxide 87-90 MOB kinase activator 2 Homo sapiens 40-44