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Tuning Phonon Energies in Lanthanide‐doped Potassium Lead Halide Nanocrystals for Enhanced Nonlinearity and Upconversion

Zhuolei Zhang, Artiom Skripka, Jakob C. Dahl, Chaochao Dun, Jeffrey J. Urban, Daniel Jaque, P. James Schuck, Bruce E. Cohen, Emory M. Chan

2022Angewandte Chemie International Edition52 citationsDOIOpen Access PDF

Abstract

Abstract Optical applications of lanthanide‐doped nanoparticles require materials with low phonon energies to minimize nonradiative relaxation and promote nonlinear processes like upconversion. Heavy halide hosts offer low phonon energies but are challenging to synthesize as nanocrystals. Here, we demonstrate the size‐controlled synthesis of low‐phonon‐energy KPb 2 X 5 (X=Cl, Br) nanoparticles and the ability to tune nanocrystal phonon energies as low as 128 cm −1 . KPb 2 Cl 5 nanoparticles are moisture resistant and can be efficiently doped with lighter lanthanides. The low phonon energies of KPb 2 X 5 nanoparticles promote upconversion luminescence from higher lanthanide excited states and enable highly nonlinear, avalanche‐like emission from KPb 2 Cl 5 : Nd 3+ nanoparticles. The realization of nanoparticles with tunable, ultra‐low phonon energies facilitates the discovery of nanomaterials with phonon‐dependent properties, precisely engineered for applications in nanoscale imaging, sensing, luminescence thermometry and energy conversion.

Topics & Concepts

LanthanidePhoton upconversionPhononNanomaterialsMaterials scienceNanoparticleExcited stateLuminescenceDopingNanocrystalNanotechnologyOptoelectronicsChemical physicsCondensed matter physicsChemistryAtomic physicsPhysicsIonOrganic chemistryLuminescence Properties of Advanced MaterialsOptical properties and cooling technologies in crystalline materialsSolid State Laser Technologies
Tuning Phonon Energies in Lanthanide‐doped Potassium Lead Halide Nanocrystals for Enhanced Nonlinearity and Upconversion | Litcius