Solution

The development of thin-layer scintillators is not only a key driver for the miniaturization of space-borne detectors but also provides the high-precision spectroscopy and excellent selectivity required to monitor intense charged-particle fields in space.
Advanced luminescent materials engineered for thin-layer scintillators provide the precision required to characterize complex deep-space radiation environments. A primary advantage of utilizing low-dimensional perovskites for this role is their intrinsic high luminescence yield, which remains efficient regardless of the material’s purity and structural integrity. This allows polycrystalline layers to replace expensive, high-purity single crystals, significantly simplifying the fabrication process and reducing production costs.
Furthermore, this flexibility enables the synthesis of perovskite thin films onto various transparent substrates, including other scintillators, to create a combined device that can deliver complex data on the incident particles, facilitating high-fidelity spectroscopic analysis and particle identification.