Luminescence (nano) thermometry is a remote sensing technique that relies on the
temperature dependency of the luminescence features (eg, bandshape, peak energy or …

Temperature (T) is probably the most fundamental parameter in all kinds of science.
Respective sensors are widely used in daily life. Besides conventional thermometers, optical …

Photoluminescence lifetime imaging of upconverting nanoparticles is increasingly featured
in recent progress in optical thermometry. Despite remarkable advances in …

Luminescent ratiometric thermometers combining high spatial and temporal resolution at the
micro-and nanoscale, where the conventional methods are ineffective, have emerged over …

Non-invasive precise thermometers working at the nanoscale with high spatial resolution,
where the conventional methods are ineffective, have emerged over the last couple of years …

The current status of luminescence nanothermometry is reviewed in detail. Based on the
main parameters of luminescence including intensity, bandwidth, bandshape, polarization …

Cellular functions are fundamentally regulated by intracellular temperature, which influences
biochemical reactions inside a cell. Despite the important contributions to biological and …

Upconverting materials are capable of absorbing near‐infrared light and converting it into
short‐wavelength luminescence. The efficiency of this remarkable effect is highly …

Fluorescence lifetime imaging (FLIM) is a key fluorescence microscopy technique to map the
environment and interaction of fluorescent probes. It can report on photophysical events that …

Luminescent organic–inorganic low‐dimensional ns2 metal halides are of rising interest as
thermographic phosphors. The intrinsic nature of the excitonic self‐trapping provides for …