Ultrafast hybrid nanocomposite scintillators: a review

TL;DR

This review discusses recent advances in ultrafast nanocomposite scintillators, highlighting their physical mechanisms, material compositions, and potential for high-resolution applications like TOF-PET imaging.

Contribution

It provides a comprehensive overview of the latest developments in nanocomposite scintillators, emphasizing their unique structures and fast luminescence properties.

Findings

Nanocomposites exhibit fast luminescence suitable for high-resolution detection.

Various nanocomposite structures are reviewed with promising temporal characteristics.

The review identifies key materials and design strategies for ultrafast scintillators.

Abstract

In recent years, demand for scintillation detectors with high time resolution (better than 100 ps) has emerged in high-energy physics and medical imaging applications. In particular, time of flight positron emission tomography (TOF-PET) can greatly benefit from increasing time resolution of scintillators, which leads to the increase of signal-to-noise ratio, decrease of patient dose, and achievement of the superior spatial resolution of PET images. Currently, extensive research of various types of materials is carried out to achieve the best time resolution. In this review, the recent progress of various approaches is summarized and scintillation compounds with the best temporal characteristics are first reviewed. The review presents the physical processes causing fast luminescence in inorganic and organic materials. Special attention is paid to nanocomposites which belong to a new perspective class of scintillating materials, consisting of a plastic matrix, inorganic nanocrystalline fillers, and organic or inorganic luminescence activators and shifters. The main features and functions of all parts of existing and prospective nanocomposite scintillators are also discussed. A number of currently created and investigated nanocomposite materials with various compounds and structures are reviewed.