Microstructural evolution and nanograin coherence in VO2 thin films grown by pulsed laser deposition

AI Insight

The article investigates the microstructural evolution and nanograin coherence in vanadium dioxide (VO2) thin films fabricated via pulsed laser deposition (PLD). The study examines how deposition parameters influence grain size, crystallinity, and structural coherence at the nanoscale, which directly govern the material's well-known metal-insulator transition (MIT). The findings provide insight into the relationship between thin film growth conditions and the resulting functional properties of VO2.

Why it matters

VO2 is a promising material for next-generation switching devices, smart windows, infrared sensors, and neuromorphic computing applications due to its sharp MIT near room temperature. Understanding and controlling its microstructure at the nanoscale is a critical step toward engineering reliable, high-performance devices based on this material.