A microcube-like hierarchical heterostructure of α-Fe<sub>2</sub>O<sub>3</sub>@α-MoO<sub>3</sub> for trimethylamine sensing
Jing Yang, Jiaqiang Liu, Baihan Li, Le Han, Yan Xu
Abstract
A rational design and directional synthesis of well-defined porous metal oxide heterostructures remains a challenge for the fabrication of new gas sensors with enhanced sensing properties. Herein, a novel hierarchical heterostructure of α-Fe2O3@α-MoO3 microcubes was prepared by applying a self-sacrifice template strategy, in which a porous metal-organic framework (MOF) was used as the precursor with the partial insertion of OH- and MoO42- and extraction of [Fe(CN)6]34- followed by heating treatment. Benefiting from the porous microcubic structural characteristic, the α-Fe2O3@α-MoO3 heterostructures exhibited excellent selectivity and high sensitivity for triethylamine gas with the highest response value (Ra/Rg) of 18.64 under the operating temperature of 240 °C. The experimental results also revealed that the material showed a fast response and recovery time (12 s/106 s) and excellent repeatability for at least 20 days. This feasible synthetic strategy may provide a versatile and controlled way to prepare other polymetal oxide-based heterostructures with improved sensing performance.