Synergistic Sensing: Application of SiNWs-PANI:MOx Heterostructures for Human Respiratory Monitoring

Abstract

In this study we investigate novel hybrid structure of silicon nanowires (SiNWs) coated with PANI:metaloxide(MOx) nanoparticles i.e., WO3 and TiO2. The SiNWs were fabricated using MACE, whereas PANI:MOx were deposited using chemical oxidative polymerization method on SiNWs. To this date little attempts has been done to utilize such hybrid structures for respiratory sensing. The structures were characterized using RAMAN spectroscopy, X-ray diffraction, Electron disperssive spectroscopy, and Scanning electron microscopy. The electrical characterization to obtain respiratory sensing reveals excellent response compared to those obtained for SiNWs:MOx and SiNWs:PANI. Such enhancement in sensitivity is attributed to formation p-n heterojunction along side with wider conduction channel provided of PANI, increased porosity in SiNWs/PANI:WO3 hybrid structures, providing active sites, increased oxygen vacancies and large surface area compared to that of pure MOx nanoparticles. Further, an improved drift in base line and sensor stability was established for the structure with PANI:WO3 as compared to the PANI:TiO2.