Scalable Melt Polymerization Synthesis of Covalent Organic Framework Films for Room Temperature Low-Concentration SO 2 Detection

The development of highly efficient sensors for low-concentration SO at room temperature is important for human health and fine chemistry, but it still faces critical challenges. Herein, a scalable olefin-linked covalent organic framework (COF) with an ultramicroporous structure and abundant binding sites is first developed as the SO sensing material. The COF can adsorb SO of 220 cm /g at 1 bar and 40 cm /g at 0.01 bar and 298 K, surpassing all reported COFs. The computational and kinetic adsorption studies deeply unveil the selective adsorption mechanism for low-concentration SO . Furthermore, the multicomponent gas mixture breakthrough experiments confirm that the COF can specifically capture low-concentration (2000 ppm) SO . We innovated a melt polymerization technology to fabricate COF films with adjustable substrates and film thicknesses. COF films are directly grown on the interdigital electrodes to prepare the SO sensor device, which possesses a low detection limit (86 ppb) and excellent selectivity for SO in the presence of 10 other potentially interfering gases. Compared to other reported SO sensors, its overall performance is among the top. Prominently, the sensor maintains a stable output signal for more than two months, and recovery can be easily achieved by simply purifying nitrogen at room temperature without heating. This study marks the first use of COFs for SO sensing, opening new possibilities for COFs in the detection of low-concentration toxic gases and manufacturing gas sensor devices.