TiCT MXene/urchin-like PANI hollow nanosphere composite for high performance flexible ammonia gas sensor.

Ammonia (NH) has been used as a typical indicator to monitor food spoilage, human health, and air quality. However, the development of flexible NH sensors with high response, excellent selectivity and low cost remains a huge challenge. Herein, a high performance NH sensor based on TiCT MXene nanosheet/urchin-like PANI hollow nanosphere composite (MP) was fabricated through template method and in situ polymerization. The NH sensor is fabricated with no high cost electrodes through directly depositing this composite on flexible polyethylene terephthalate (PET) during polymerization. This optimized MP film sensor exhibits high response of 3.70 to 10 ppm NH at room temperature, which is 4.74-fold in comparison with urchin-like PANI hollow nanosphere (u-PANI). It also shows excellent selectivity, good repeatability, satisfactory flexibility, air stability and low detection limit of 30 ppb. The effective morphology control and heterojunction construction of MP composite are responsible for superior sensing performance. Moreover, the application of this film sensor in the monitoring of the spoilage process of fresh pork is demonstrated. This study offers a new strategy for fabricating high performance flexible room-temperature NH sensors, which may be scale fabrication and application in daily life.