掺铈钆镓铝基石榴石陶瓷 Gd 3 (Al 1-x Ga x ) 5 O 12 ∶Ce(GAGG∶Ce) 具有高光输出、短余辉、快衰减以及高 X 射线阻止能力等特性，使其在医学成像、高能射线检测及高功率 LED 照明等领域具有广阔的应用前景，成为近些年的研究热点。 高性能 GAGG 透明陶瓷的制备依赖于制备超细、高分散、无团聚、高烧结活性的纳米粉体技术。 本文综述了近年来国内外研究人员对化学共沉淀法合成 GAGG 纳米粉体所取得的研究进展， 分析了共沉淀法制备粉体的相关机理及影响粉体性能的主要因素，并展望了化学共沉淀法制备高性能钆镓铝基石榴石粉体的研究前景及发展方向。

Cerium-doped gadolinium gallium aluminum-based garnet ceramics Gd 3 (Al 1-x Ga x ) 5 O 12 ∶Ce (abbreviated as GAGG∶ Ce) have the properties of high light output, short afterglow, fast attenuation, and high X-ray blocking ability, which make them a research hot spot in recent years with a wide range of applications in the fields of medical imaging, high-energy ray detection, and high-power LED lighting. The preparation of high-performance GAGG transparent ceramics relies on the technology of preparing ultrafine, highly dispersed, non-agglomerated, and high sintering activity nanopowders. This paper reviews the research progress made by domestic and foreign researchers in recent years on the synthesis of GAGG nanopowders by the chemical co-precipitation method, analyzes the related mechanism of powder preparation by the co-precipitation method and the main factors affecting the performance of the powder, and looks forward to the research prospects and development direction of the preparation of high-performance gadolinium gallium aluminum-based garnet powders by the chemical co-precipitation method.