Thermally sensitive fluorescent indicators have been proposed to monitor temperature
changes in microfluidic systems, mainly based on fluorescence intensity or lifetime …

To facilitate thermal imaging, particularly in microdevices, one has to favor molecular
thermometers in which the response is independent of the probe concentration and of the …

Precise temperature distribution measurements with high spatial resolution are of great
importance in bioassay which uses microfabricated thermodevice, such as single …

Temperature is an important biophysical parameter that is closely related with the metabolic
activity in living cells. Therefore, the detection of intracellular temperature changes is crucial …

The rapid advancement of thermal materials and fluorescence spectroscopy has extensively
promoted the development of micro-scale fluorescence thermometry in recent years. Based …

We describe a novel method for quantitatively mapping fluidic temperature with high spatial
resolution within microchannels using fluorescence lifetime imaging in an optically …

The temperature is an important parameter with regard to chemical reactivity. It is therefore
essential to ensure good thermal control within microsystems designed to carry out …

The fluorescent membrane probes 7‐nitrobenz‐2‐oxa‐1, 3‐diazo1‐4‐y1 (NBD) and 6‐
dodeca‐noy1‐2‐dimethylamino‐naphthalene (laurdan) have been studied for use as optical …

The small length scales that make microfluidics attractive are also the source of some very
stringent constraints, especially with respect to the detection approach used. The low …

Fluorescence anisotropy, a technique to study the folding state of proteins or affinity of
ligands, is used in this present work as a temperature sensor, to measure the microfluidic …