Lower coordination Co3O4 mesoporous hierarchical microspheres for comprehensive sensitization of triethylamine vapor sensor

“…It is mainly related to the adsorption of oxygen on the surface, as explained in previous articles of our research group. 37,49 When the gas sensor is placed in a triethylamine atmosphere, triethylamine reacts with the adsorbed oxygen of the material to generate CO 2 , NO 2 , and H 2 O, 16 as shown in the following formulas 1−4:…”

“…9,10 Metal oxide semiconductor (MOS) gas sensor has a wide range of application prospects due to its high response value, low price, and simple fabrication process. The MOS materials including ZnO, 5 WO 3 , 11 SnO 2 , 12 In 2 O 3 , 13 MoO 3 , 14 Fe 3 O 4 , 15 Co 3 O 4 , 16 NiO 17 have been widely reported to detect TEA.…”

“…19 Kong et al prepared Co 3 O 4 nanosheets with a response of 34.1 to 100 ppm triethylamine, and the response value of the gas sensor gradually declined as the humidity increased. 16 A novel WO 3 nanoflake-coupled h-BN nanosheets was prepared by Tian et al The sensor detected 500 ppm triethylamine at 260 °C. When humidity rose from 25% RH to 68% RH, the sensor response was reduced by 37%.…”

Highly Selective and Humidity-Resistant Triethylamine Sensors Based on Pt and Cr₂O₃ Nanoparticles

“…It is mainly related to the adsorption of oxygen on the surface, as explained in previous articles of our research group. 37,49 When the gas sensor is placed in a triethylamine atmosphere, triethylamine reacts with the adsorbed oxygen of the material to generate CO 2 , NO 2 , and H 2 O, 16 as shown in the following formulas 1−4:…”

“…9,10 Metal oxide semiconductor (MOS) gas sensor has a wide range of application prospects due to its high response value, low price, and simple fabrication process. The MOS materials including ZnO, 5 WO 3 , 11 SnO 2 , 12 In 2 O 3 , 13 MoO 3 , 14 Fe 3 O 4 , 15 Co 3 O 4 , 16 NiO 17 have been widely reported to detect TEA.…”

“…19 Kong et al prepared Co 3 O 4 nanosheets with a response of 34.1 to 100 ppm triethylamine, and the response value of the gas sensor gradually declined as the humidity increased. 16 A novel WO 3 nanoflake-coupled h-BN nanosheets was prepared by Tian et al The sensor detected 500 ppm triethylamine at 260 °C. When humidity rose from 25% RH to 68% RH, the sensor response was reduced by 37%.…”

Highly Selective and Humidity-Resistant Triethylamine Sensors Based on Pt and Cr₂O₃ Nanoparticles

“…Transition metal oxide Co 3 O 4 plays an important role in data storage, sensing, and especially catalysis due to the rich surface structures. However, the low carrier mobility and high resistivity (ρ > 1 × 10 6 Ω cm) of Co 3 O 4 severely limit the related applications. , Crystal facet and cation/anion vacancy engineering have been proven to be effective in performance improvement. − Adjusting the exposed surface dramatically promotes the electrochemical properties of Co 3 O 4 by modifying the number of active sites and the atomic oxidation state of Co species. , The catalytic activity of {111}- and {112}-enclosed Co 3 O 4 nanocrystals is better than those enclosed by {100} and {110} facets. ,, The corrosion rate of different Co 3 O 4 planes increases in the order of (001) < (111) < (011) .…”

“…Transition metal oxide Co 3 O 4 plays an important role in data storage, 1 sensing, 2 and especially catalysis 3 due to the rich surface structures. However, the low carrier mobility and high resistivity (ρ > 1 × 10 6 Ω cm) of Co 3 O 4 severely limit the related applications.…”

Tuning the Semiconducting Properties in Co₃O₄/PMN–PT Heterostructures by Oxygen Vacancies and Domain Structure

Single‐Atom Cu Stabilized on Ultrathin WO_2.72 Nanowire for Highly Selective and Ultrasensitive ppb‐Level Toluene Detection