Novel CsPbI3 QDs glass with chemical stability and optical properties

Bright and tunable photoluminescence properties for cesium lead halide (CsPbX3) quantum dots (QDs) hinder its application due to their easy degradation in humid and high temperature conditions. Here, we present a simple approach to fabricate a novel CsPbI3 QDs in zinc borosilicate glass through a conventional melting-quenching technique. CsPbI3 QDs glass exhibits high luminescent intensity, tunable narrow-band emission, including the same bandgap energies and emission spectra as CsPbI3 QDs solution, but the quantum yield and decay time show a reduction for the structure defect and electron-hole consist in CsPbI3 QDs glass. Moreover, different heat treated temperature effect the luminescence of CsPbI3 QDs glass. Absorption and photoluminescence spectra demonstrate that 540 degrees C is the ideal heat-treated temperature for CsPbI3 QDs glass. Consequently, this novel and stable CsPbI3 QDs glass reveals the promising candidate for all-inorganic perovskite in display and solid-state warm lighting source.