Single stranded 1D-helical Cu coordination polymer for ultra-sensitive ammonia sensing at room temperature

With the increasing demand for ammonia applications, there is a significant focus on improving NH 3 detection performance at room temperature. In this study, we introduce a groundbreaking NH 3 gas sensor based on Cu( i )-based coordination polymers, featuring semiconducting, single stranded 1D-helical nanowires constructed from Cu-Cl and N -methylthiourea (MTCP). The MTCP demonstrates an exceptional response to NH 3 gas (>900% at 100 ppm) and superior selectivity at room temperature compared to current materials. The interaction mechanism between NH 3 and the MTCP sensor is elucidated through a combination of empirical results and computational calculations, leveraging a crystal-determined structure. This reveals the formation of NH 3 -Cu and NH 3 -H 3 C complexes, indicative of a thermodynamically favorable reaction. Additionally, Ag-doped MTCP exhibits higher selectivity and a response over two times greater than the original MTCP, establishing it as a prominent NH 3 detection system at room temperature. In this study, we introduce a groundbreaking NH 3 gas sensor based on semiconducting, single-stranded Cu( i )-based coordination polymers (MTCP). The sensor demonstrates an exceptional response to NH 3 gas and superior selectivity at room temperature.