Highly Stable CsPbX₃/PbSO₄ Core/Shell Nanocrystals Synthesized by a Simple Post‐Treatment Strategy

Abstract: All‐inorganic lead halide perovskite (CsPbX3, X = Cl, Br, I, or their mixture) nanocrystals (NCs) have recently emerged as a promising photoelectric material; however, developing highly stable CsPbX3 NCs still remains a challenge due to their intrinsic ionic nature. This work presents a simple and facile post‐treatment strategy to encapsulate CsPbX3 NC with PbSO4 nanoshell at single‐particle level. Compared to pristine CsPbX3 NCs, the as‐prepared CsPbX3/PbSO4 NCs exhibit significant enhancement in the optical … Show more

“…The results described here are apparently similar to those obtained by the post-treatment of Octam-SO 4 , except that our treatment time is much longer. In fact, by choosing a different source of SO 4 2– , and on purposely lowering the dosage, we managed to slow down the reaction rate, which brings at least two benefits.…”

“…Cao et al reported a quick post-treatment using octylammonium sulfate (Octam-SO 4 ) which helps to enhance the PLQE and the stability of CsPbX 3 (X = Cl, Br) QDs. 31 Later, we proposed a surface sacrificial reaction using octylammonium phosphate, which delivered CsPbBr 90% and superior overall stability. 32 We found that, on one hand, the bonding between oxysalt ions and the lowcoordinated Pb not only passivates surface defects but also provides a protecting shell on the surfaces.…”

“…Very recently, strategies of surface lead oxysalts emerged. Cao et al reported a quick post-treatment using octylammonium sulfate (Octam-SO 4 ) which helps to enhance the PLQE and the stability of CsPbX 3 (X = Cl, Br) QDs . Later, we proposed a surface sacrificial reaction using octylammonium phosphate, which delivered CsPbBr 3 QDs with a PLQE over 90% and superior overall stability .…”

Perovskite Quantum Dots with Ultrahigh Solid-State Photoluminescence Quantum Efficiency, Superior Stability, and Uncompromised Electrical Conductivity

“…The results described here are apparently similar to those obtained by the post-treatment of Octam-SO 4 , except that our treatment time is much longer. In fact, by choosing a different source of SO 4 2– , and on purposely lowering the dosage, we managed to slow down the reaction rate, which brings at least two benefits.…”

“…Cao et al reported a quick post-treatment using octylammonium sulfate (Octam-SO 4 ) which helps to enhance the PLQE and the stability of CsPbX 3 (X = Cl, Br) QDs. 31 Later, we proposed a surface sacrificial reaction using octylammonium phosphate, which delivered CsPbBr 90% and superior overall stability. 32 We found that, on one hand, the bonding between oxysalt ions and the lowcoordinated Pb not only passivates surface defects but also provides a protecting shell on the surfaces.…”

“…Very recently, strategies of surface lead oxysalts emerged. Cao et al reported a quick post-treatment using octylammonium sulfate (Octam-SO 4 ) which helps to enhance the PLQE and the stability of CsPbX 3 (X = Cl, Br) QDs . Later, we proposed a surface sacrificial reaction using octylammonium phosphate, which delivered CsPbBr 3 QDs with a PLQE over 90% and superior overall stability .…”

Perovskite Quantum Dots with Ultrahigh Solid-State Photoluminescence Quantum Efficiency, Superior Stability, and Uncompromised Electrical Conductivity

“…Strategies have been designed to prevent anion exchange and/or to stabilize MHP NCs against polar solvents, including encapsulation of NCs in matrixes made of metal oxides (e.g., PbSO 4 , SiO 2 , TiO 2 , Al 2 O 3 ), inorganic salts (SrBr 2 ), a mixture of metal oxides and inorganic salts, metal organic hybrids (e.g., metal organic frameworks), and polymers. ,,− Polymers are appealing as they can switch their chains from an extended coil state to a collapsed globule state when the characteristics of the solvent change. In its globule state, a polymer can act as a protecting layer that shields the NCs from their surroundings, making them unreactive.…”

Switchable Anion Exchange in Polymer-Encapsulated APbX₃ Nanocrystals Delivers Stable All-Perovskite White Emitters

“…For example, Zhang and coworkers reported a simple post-treatment strategy to encapsulate CsPbX 3 NCs with PbSO 4 nanoshell through mixing octylammonium sulfate (OctAm-SO 4 ) with CsPbX 3 NCs, demonstrating great stability against polar solvents and irradiation. [16] However, there was a lack of LED devices in this report, which may be ascribed to the poor dispersion of the as-treated CsPbX 3 NCs that cannot be applied in the emissive layers of LEDs.…”

Microemulsion‐Induced Stable CsPbBr₃/PbWO₄ Nanocrystals for Light‐Emitting Diodes