Luminescence Nanothermometry Based on Pr³⁺ : LaF₃ Single Core and Pr³⁺ : LaF₃/LaF₃ Core/Shell Nanoparticles

Abstract: Core Pr3+ : LaF3 (CPr = 1%) plate-like nanoparticles (nanoplates), core/shell Pr3+ : LaF3 (CPr = 1%)/LaF3 nanoplates, core Pr3+ : LaF3 (CPr = 1%) sphere-like nanoparticles (nanospheres), and core/shell Pr3+ : LaF3 (CPr = 1%)/LaF3 nanospheres were synthesized via the coprecipitation method of synthesis. The nanoparticles (NPs) were characterized by means of transmission electron microscopy, X-ray diffraction, and optical spectroscopy. The formation of the shell was proved by detecting the increase in physical s… Show more

“…In general, information about the thermometric performance (thermal sensitivity, S r ) of the upconverting nanosensors is inferred from the fluorescence intensity ratio (Δ) of thermally coupled energy levels of the Ln 3+ ions. Several studies have reported that the thermometric parameter Δ, appears to be reliant on the type of host, − type of dopant ion and their concentrations, , size of the nanoparticles, , surface functionalization, core–shell structure, , incorporation of transition metals, − laser excitation density, and modification of the energy transfer processes − (Table ). As such, detailed studies involving optimization of the chemical and spectroscopic properties of UCNP-based sensors have been performed to increase the operating temperature sensitivity and temperature resolution to fulfill the specific needs of given applications.…”

Upconversion Thermometry Using Yb³⁺/Er³⁺ Co-Doped KY₃F₁₀ Nanoparticles

“…In general, information about the thermometric performance (thermal sensitivity, S r ) of the upconverting nanosensors is inferred from the fluorescence intensity ratio (Δ) of thermally coupled energy levels of the Ln 3+ ions. Several studies have reported that the thermometric parameter Δ, appears to be reliant on the type of host, − type of dopant ion and their concentrations, , size of the nanoparticles, , surface functionalization, core–shell structure, , incorporation of transition metals, − laser excitation density, and modification of the energy transfer processes − (Table ). As such, detailed studies involving optimization of the chemical and spectroscopic properties of UCNP-based sensors have been performed to increase the operating temperature sensitivity and temperature resolution to fulfill the specific needs of given applications.…”

Upconversion Thermometry Using Yb³⁺/Er³⁺ Co-Doped KY₃F₁₀ Nanoparticles

The comparison of Pr3+:LaF3 and Pr3+:LiYF4 luminescent nano- and microthermometer performances

Transmission electron microscopy and flow cytometry study of cellular uptake of unmodified Pr3+:LaF3 nanoparticles in dynamic