The microenvironment is indispensable for functionality of various biomacromolecules,
subcellular compartments, living cells, and organisms. In particular, physical properties …

Significance: Fluorescence lifetime imaging microscopy (FLIM) is a powerful technique to
distinguish the unique molecular environment of fluorophores. FLIM measures the time a …

The only way to get thermal images of living organisms without perturbing them is to use
luminescent probes with temperature-dependent spectral properties. The acquisition of such …

Nanoscale biocompatible photoluminescence (PL) thermometers that can be used to
accurately and reliably monitor intracellular temperatures have many potential applications …

Abstract Knowledge of temperature and temperature gradients with nanoscale resolution is
critical for a variety of applications in medicine, nanoelectronics, biology, and solid‐state …

Temperature is a key parameter to regulate cell function, and biochemical reactions inside a
cell in turn affect the intracellular temperature. It's vitally necessary to measure cellular …

Luminescence nanothermometry is promising for noninvasive probing of temperature in
biological microenvironment at nanometric spatial resolution. Yet, wavelength‐and …

In 2003, we successfully created the first fluorescent polymeric thermometer by combining a
thermo-responsive polymer and an environment-sensitive (polarity and hydrogen bonding …

Temperature is one of the most important of the physiological parameters that determine the
biological status of living organisms. However, intracellular temperature was not imaged at …

Based on studies with a fluorescent reporter dye, Mito Thermo Yellow (MTY), and the
genetically encoded gTEMP ratiometric fluorescent temperature indicator targeted to …