High Luminescence in Layered Double Perovskite via Formation of Terbium Intercalation Complex

Abstract: As the field of perovskite emerges, doping presents an optimistic way to upgrade the functionalities of these materials and improve the photoluminescence quantum yield (PLQY). While doping is well‐explored in perovskites, it has received less attention in layered double perovskites (LDPs). Doping with lanthanides is particularly interesting for these wide bandgap materials because of their narrow and intense luminescence spectra. Here, the doping of (PEA)4NaInCl8 LDP (PEA = Phenylethylammonium) with Tb3+ and c… Show more

“…Doping strategy has emerged as a crucial method for fine-tuning of the optical, electronic, thermal, and magnetic properties of these metal halides, thereby circumventing their previous limitations. In this regard, various n s 2 metal ions Sb 3+ , Te 4+ , Bi 3+ , and d-, f-electron ions Cr 3+ , Yb 3+ , Tb 3+ , Sm 3+ , and Er 3+ have been established as effective dopants for various metal halide perovskites, which produces a series of highly efficient green-, blue-, yellow- and red-light emitting materials. ,− In these materials, achieving efficient NIR luminescence and dual emission in a single crystal is still challenging due to the lack of luminescent centers that can harvest the excitation light efficiently and emit photons in the NIR region. ,, Phosphors with broad dual band emission that improve color-rendering performance are needed to fabricate lighting devices like LEDs . However, dopant-induced transitions mainly dominate the emission in most of the doped material due to host lattice and dopant interaction, so 0D perovskite material can be potential candidate for tunable dual emission in the single crystal due to its electronically decoupled structure.…”

Broad Dual Emission from Cs₂Zr_1–xMo_xCl₆: Enhancing the NIR Emission in Lead-free Vacancy Ordered Double Perovskites

“…Doping strategy has emerged as a crucial method for fine-tuning of the optical, electronic, thermal, and magnetic properties of these metal halides, thereby circumventing their previous limitations. In this regard, various n s 2 metal ions Sb 3+ , Te 4+ , Bi 3+ , and d-, f-electron ions Cr 3+ , Yb 3+ , Tb 3+ , Sm 3+ , and Er 3+ have been established as effective dopants for various metal halide perovskites, which produces a series of highly efficient green-, blue-, yellow- and red-light emitting materials. ,− In these materials, achieving efficient NIR luminescence and dual emission in a single crystal is still challenging due to the lack of luminescent centers that can harvest the excitation light efficiently and emit photons in the NIR region. ,, Phosphors with broad dual band emission that improve color-rendering performance are needed to fabricate lighting devices like LEDs . However, dopant-induced transitions mainly dominate the emission in most of the doped material due to host lattice and dopant interaction, so 0D perovskite material can be potential candidate for tunable dual emission in the single crystal due to its electronically decoupled structure.…”

Broad Dual Emission from Cs₂Zr_1–xMo_xCl₆: Enhancing the NIR Emission in Lead-free Vacancy Ordered Double Perovskites

“…The organic layers are formed by a monovalent aliphatic or aromatic ammonium cation A′ that separates the inorganic layers while maintaining the charge neutrality. The inorganic layers are composed of corner-sharing octahedra of [MX 6 ] 5– and [M′X 6 ] 3– , where M is some monovalent metal like Na, Ag, or Cu and M ′ is Bi, Sb, In, or some trivalent metal ion, while X is the halide anion. − …”

Chemical Control of Optical Band Gap and Magnetic Properties in Fe-Alloyed Na–In Halide Layered Perovskites

Chalcogen alloying mediated electronic structure modulation in ultrathin Nb(S_xSe_(1−x))₂ nanosheets for the hydrogen evolution reaction