In this work, lead-free zero-dimensional (0D) all-inorganic perovskite Mn 2+ -doped Cs 2 InCl 5 •H 2 O microcrystals (MCs) with introduced Bi 3+ ion were synthesized by supersaturation recrystallization at room temperature. The electronic bandgap of the MCs is tuned from ∼5.1 to ∼3.1 eV, and the electronic absorption is enhanced in the 200−400 nm region by Bi 3+ incorporation. Upon excitation at 365 nm, the MCs with introduced Bi 3+ exhibit strong red emission peaking at 640 nm, which is attributed to the Mn 2+ transition ( 4 T 1g → 6 A 1g ). Simultaneous Mn 2+ and Bi 3+ incorporation into Cs 2 InCl 5 •H 2 O shows 60 times enhancement of the 640 nm emission band compared to Mn 2+ alone. This PL enhancement is attributed to the energy transfer (ET) from the [BiCl 6 ] 3− octahedron, which acts as a UV light absorber and exciton donor, to [MnCl 6 ] 4− . In addition, a yellow-lightemitting diode (LED) device based on the Cs 2 In 0.45 Bi 0.55 Cl 5 •H 2 O:17%Mn MCs was fabricated and evaluated, showing high color saturation at a drive current of 420 mA and good stability. This study demonstrates a new method for achieving efficient red emission by incorporating ns 2 metal ions and Mn ions in 0D lead-free metal halides.
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