Luminescence manometry is a rapidly expanding field focused on the optical measurement
of pressure across both low and high-pressure regimes. It presents a compelling alternative …

High-precision optical thermometer has been a tremendous magnet for interests of
researchers due to the rapid advancement of technology. Herein, Ca 3 LiZnV 3 O 12: Sm 3+ …

Nonlinear optical materials are essential in areas such as nanophotonics, optical
information processing, and biomedical imaging. However, nanomaterials employed for …

The dependence of the spectroscopic properties of the phosphor on the applied pressure
enables the development of luminescent manomenters that allow remote readout and …

Currently, with increasing demand for non-contact fluorescence intensity ratio-based optical
thermometry, a novel phosphor with high-efficiency, dual-emitting centers, and differentiable …

The remote pressure readout is of vital application importance as it will facilitate and in many
cases enable rapid diagnostics. For most of the luminescent manometers described to date …

Abstract Since Niels Ryberg Finsen won the Nobel Prize 120 years ago for his invention of
ultraviolet (UV)-based phototherapy for skin tuberculosis (lupus vulgaris), UV has made …

Luminescent manometry enables remote pressure readout with unprecedented spatial and
pressure resolution. The need to image pressure in a temperature-invariant manner …

The use of lanthanide luminescence has advanced the field of remote temperature sensing.
Luminescence intensity ratio methods relying on emission from two thermally coupled …

In addressing the broad spectrum of applications for optical pressure sensors, their
predominant drawback lies in their limited sensitivity to pressure fluctuations. To overcome …