9:35 AM - 9:50 AM
△ [12a-S201-3] Precise control of emission wavelength and high photoluminescence quantum yield of perovskite quantum dots by crystal lattice distortion
Keywords:Perovskite quantum dots, Crystal lattice distortion, Energy band gap
ABX3 perovskite quantum dots (PeQDs) have attracted attention as a next-generation light emitting diode (LED). However, compatibility of precise control of emission wavelength (λPL) and high photoluminescence quantum yield (PLQY) of PeQDs could not be achieved and resulting in issues that are still difficult to apply to LED devices for BT.2020.
In this work, A site mixed PeQDs (= FAxMA1-xPbBr3, FA: NH=CH2NH3+, MA: CH3NH3+) with 1 nm order control of λPL and high PLQY were successfully prepared by the unification of mixture of A site which is not directly affected to emission. In detail, due to the (100)-phase lattice distance of FAxMA1-xPbBr3 was a little shorter as increasing the ratio of MA, precise control of the energy band gap of FAxMA1-xPbBr3 was succeeded. As a result, the controlling λPL of 1 nm order was succeeded. Furthermore, FAxMA1-xPbBr3 were successfully kept the high PLQY due to the no occurrence of different σ-σ* transitions.
In this work, A site mixed PeQDs (= FAxMA1-xPbBr3, FA: NH=CH2NH3+, MA: CH3NH3+) with 1 nm order control of λPL and high PLQY were successfully prepared by the unification of mixture of A site which is not directly affected to emission. In detail, due to the (100)-phase lattice distance of FAxMA1-xPbBr3 was a little shorter as increasing the ratio of MA, precise control of the energy band gap of FAxMA1-xPbBr3 was succeeded. As a result, the controlling λPL of 1 nm order was succeeded. Furthermore, FAxMA1-xPbBr3 were successfully kept the high PLQY due to the no occurrence of different σ-σ* transitions.