The development of current technology imposes more and more requirements for
measurement techniques, where one of the most important is temperature measurement. In …

Luminescence thermometry alleviates the difficulties associated with conventional methods
for thermal sensing and provides outstanding opportunities for non-contact thermometry with …

Luminescent nanothermometry can precisely and remotely measure the internal
temperature of objects at nanoscale precision, which, therefore, has been placed at the …

The ratiometric fluorescence technique is believed to hold promise as the most important
non-contact thermometry technique for future mass application due to the reliability and …

Currently, non-contact fluorescence intensity ratio (FIR)-based luminescent thermometry has
been extensively attracted great attention for its promising applications in electromagnetic …

Optical thermometers are of great interest due to their non-contact, high-sensitivity and fast
measurement characteristics. In this work, a series of dual-center Bi 1.96− x MoO 6: 0.02 Er …

Luminescence intensity ratio (LIR) nanothermometers are ideally suited for noninvasive
temperature detection of microelectronic devices and living cells, and the painstaking pursuit …

In this study, it is shown how the temperature range of luminescent thermometers can be
widened in an unprecedented way by combining the intra‐and interconfigurational …

Most lanthanide doped phosphors need to be prepared in a reducing atmosphere, such as
phosphors doped by Eu 2+ and Ce 3+ ions with df transition. In contrast, the doping ion Bi …

As increasing demand for noncontact temperature sensing, the development of a high-
performance optical thermometer probe is more and more urgent. In this work, an efficient …