Extensive tailoring of REPO4 and REVO4 crystallites via solution processing and luminescence

• Published in: CrystEngComm Vol. 24; no. 27; pp. 4841 - 4852
• Main Authors: Li, Meiting, Ji-Guang, Li
• Format: Journal Article
• Language: English; Japanese
• Published: Cambridge Royal Society of Chemistry (RSC) 01.01.2022; Royal Society of Chemistry
• Subjects: Chemical properties; Crystallites; Crystallization; Inorganic compounds; Luminescence; Optical properties; Optimization; Rare earth phosphates; Solid phases
• ISSN: 1466-8033
• DOI: 10.1039/d2ce00535b

Rare-earth orthophosphate (REPO4; RE = La–Lu lanthanide, Y) and orthovanadate (REVO4) are attractive candidates for visualization and imaging devices because of their high thermal/chemical stability and favorable luminescence characteristics. In the view that the phase structure, crystallinity, morphology (shape, size and dimensionality) and surface chemistry may significantly regulate the physical/chemical properties of a compound, extensive efforts have been devoted over the past decades to the design of multiform REPO4 and REVO4 crystallites via solution processing for luminescence manipulation. This review article highlights the recent achievements in this field, with an emphasis on solution chemistry, the role of chelate ions, the fundamental crystallization mechanism and the correlation of structure and luminescence properties. We hope that this review may provide insights into crystallite tailoring and luminescence optimization of inorganic compounds for lighting and display applications.