Presentation Information
[9p-E206-11]Unlocking High Performance Formaldehyde Sensing in PdS2 via Sulfur Vacancy Defects
〇(DC)ROHIT KUMAR RAI1, Mandeep Singh Rawat1, Neetu Raj Bharti1, Neeraj Goel1 (1.NSUT, Delhi)
Keywords:
PdS2,DFT,TMD
Sulfur-vacancy engineering unlocks enhanced formaldehyde sensing in PdS2 monolayers by modulating adsorption strength and electronic properties. Density functional theory reveals stronger HCHO interaction, improved conductivity, and adsorption-induced charge redistribution in defected PdS2. These findings highlight defect-tailored PdS2 as a promising platform for next-generation, high sensitivity gas sensors.
