Luminescence thermometry has been extensively exploited in the last decades both from
the fundamental and applied point of views. The application of photoluminescent …

Because of the vital role of temperature in many biological processes studied in microfluidic
devices, there is a need to develop improved temperature sensors and data analysis …

This contribution intends to convince readers that by virtue of the rich physics involved,
optical excitation, thermal diffusion, thermal expansion, and acoustic wave propagation, and …

Embedded sensors in microfluidic systems play a big role in different chemical and
biological analyses. Versatile metal electrodes in microfluidic chips have been designed to …

Biological systems often have a narrow temperature range of operation, which require highly
accurate spatially resolved temperature measurements, often near±0.1 K. However, many …

This paper verified through experiments that change in ambient temperature are the main
cause of dark output noise drift. Additionally, the impact of dark output noise drift in fiber optic …

There is a growing field that is devoted to developing inexpensive microscopes and
measurement devices by leveraging low-cost commercial parts that can be controlled using …

Many biological systems have a narrow temperature range of operation, meaning high
accuracy and spatial distribution level are needed to study these systems. Most temperature …

Thermal radiation hazards of fireballs induced by gas pipeline leakage and explosion have
increasingly contributed to the occurrence of accidental disasters. To reveal the mechanism …

Over the life of nuclear fuel, inhomogeneous structures develop, negatively impacting
thermal properties. New fuels are under development but require more accurate knowledge …