Highly sensitive and selective detection against specific target gases, especially at low-ppb (part per bil- lion) level, remain a great number of challenges in gas sensor applications. In this paper, we first prese...Highly sensitive and selective detection against specific target gases, especially at low-ppb (part per bil- lion) level, remain a great number of challenges in gas sensor applications. In this paper, we first present an ordered mesoporous NiFe204 for highly sensitive and selective detection against low-ppb toluene. A series of mesoporous NiFe204 materials were synthesized by templating from mesoporous silica KIT-6 and its framework thickness was reduced from 8.5 to 5 nm by varying the pore size of KIT-6 from 9.4 to 5.6 nm, accompanied with the increase of the specific surface area from 134 to 216 m^2 g^-1. The ordered mesoporous NiFe2O4 with both ultrathin framework of 5 nm and large specific surface area of up to 216 m^2 g^-1 exhibits a highest response (Rgas/Ralr-1 = 77.3) toward 1,000 ppb toluene at 230℃ and is nearly 7.3 and 76.7 times higher than those for the NiFe204 replica with thick framework and its bulk counter- part respectively, which also possesses a quite low limit of detection (〈2 ppb), and good selectivity.展开更多
基金supported by the National First-Rate Discipline Construction Project of Ningxia(NXYLXK2017A04,2017CET02KY03,and 2017CET04KY05)the National Natural Science Foundation of China(51362024,21006116,and 51672138)+2 种基金the Foundation of State Key Laboratory of High-Efficiency Utilization of Coal and Green Chemical Engineering(2016–19)National Science Fund for Distinguished Young Scholars(21325105)the West Light Foundation of the Chinese Academy of Science
文摘Highly sensitive and selective detection against specific target gases, especially at low-ppb (part per bil- lion) level, remain a great number of challenges in gas sensor applications. In this paper, we first present an ordered mesoporous NiFe204 for highly sensitive and selective detection against low-ppb toluene. A series of mesoporous NiFe204 materials were synthesized by templating from mesoporous silica KIT-6 and its framework thickness was reduced from 8.5 to 5 nm by varying the pore size of KIT-6 from 9.4 to 5.6 nm, accompanied with the increase of the specific surface area from 134 to 216 m^2 g^-1. The ordered mesoporous NiFe2O4 with both ultrathin framework of 5 nm and large specific surface area of up to 216 m^2 g^-1 exhibits a highest response (Rgas/Ralr-1 = 77.3) toward 1,000 ppb toluene at 230℃ and is nearly 7.3 and 76.7 times higher than those for the NiFe204 replica with thick framework and its bulk counter- part respectively, which also possesses a quite low limit of detection (〈2 ppb), and good selectivity.
