Litcius/Paper detail

Influence of Chemical and Mechanical Pressure on the Luminescence Properties of Near-Infrared Phosphors

Natalia Majewska, Alfonso Muñoz, Ru‐Shi Liu, Sebastian Mahlik

2023Chemistry of Materials24 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide In this study, we aim to compare the changes in the luminescence properties of Ga 2 O 3:Cr 3+ modified by Al or Sc ion substitution (chemical pressure) and hydrostatic pressure. We find the same behavior for Ga 2– x Al x O 3:Cr 3+ and different behavior for Ga 2– x Sc x O 3:Cr 3+ in terms of the optical properties under chemical and mechanical pressure. We consider Al substitution, which does not affect the chemical bond angles in the Cr 3+ local environment and changes the crystal volume, like mechanical pressure does. As confirmed by Raman spectroscopy, the Sc ions cause lattice distortion and influence the chemical bond lengths and angles in the Cr 3+ local environment. The energy structure diagrams of all levels of the d 3 configuration of the Cr 3+ ion as a function of pressure are calculated by considering the pressure dependence of the Racah parameters. The energy structure diagrams presented in the paper show a decrease in the energy of the 2 E, 2 T 1, and 2 T 2 excited levels with an increase in Dq. This does not align with the behavior predicted for these excited levels by the standard Tanabe–Sugano diagram. It seems correct that a high-pressure experiment involving Cr 3+ and other transition metals should be interpreted using the method and diagrams presented herein.

Topics & Concepts

LuminescenceRaman spectroscopyExcited stateChemical bondPhosphorHydrostatic pressureIonInfraredMolecular geometryInfrared spectroscopyBond lengthChemistryCrystal structureMaterials scienceAmbient pressureMoleculeCrystallographyOpticsAtomic physicsThermodynamicsPhysicsOrganic chemistryOptoelectronicsGa2O3 and related materialsLuminescence Properties of Advanced MaterialsPerovskite Materials and Applications