Affiliation of Author(s):材料科学与技术学院

Journal:MATERIALS CHEMISTRY AND PHYSICS

Key Words:Nano-sized phospher Upconversion Temperature sensor Cryogenic environment

Abstract:The fluorescence-based temperature sensor using temperature-dependent fluorescence properties is a great candidate to replace traditional temperature-measurement detector like thermocouple, because the latter is inaccessible to conquer some special circumstances such as a corrosive environment. In this study, the nano-sized Er(3+ )doped NaY(WO4)(2) phosphors were synthesized by solvothermal method. The origins of three emission peaks located at 527 nm, 549 nm and 665 nm were identified. The H-2(11/2) -> I- 4(15/2) (green emission 1) and( 4)S(3/2) -> I- 4(15/2) (green emission 2) transitions of the Er3+ ion possessed a temperature. dependent behavior over the range of 300-30 K and it was proposed for temperature sensing (optical thermometry) using the fluorescence intensity ratio (FIR) method. The FIR value of nano-sized phosphors decreased with the decrease of temperature, and the experimental data were well fitted with a theoretical function. A large energy difference (1048.5) was obtained from the fitting curve, which indicate that the sensitivity of nano-sized NaY(WO4)(2): Er is higher than that of micro-sized one prepared by high temperature solid state reaction. Particularly, at temperatures below 150 K, the sensitivity of nano-sized UC phosphors was enhanced obviously. The results suggested that this nano-sized phosphor could be a splendid option for next generation luminescence-based temperature sensing devices in cryogenic region.

ISSN No.:0254-0584

Translation or Not:no

Date of Publication:2018-11-01

Co-author:Yao, Hanyu,tangquntao,Peng, Jiaqi,Liu, Rui

Correspondence Author:shl