News News
Contact us
  • Customer service number:64321087
  • Commercial service telephone:13918059423
  • Technical service telephone:13918059423
  • Contact person: Mr. Cui 
  • Service email:shxtb@163.com
  • Address: room 107, building 8, no. 100, guilin road, xuhui district, Shanghai

In Situ Observation of Radiation Damage in Rhabdophane- and Churchite-Type Rare-Earth Phosphate Nanocrystals

The date of: 2026-05-26
viewed: 2

来源:ACS Publications

Rhabdophane (REPO4·H2O; RE = La to Dy) and churchite (RE′PO4·2H2O; RE′ = Gd to Lu and Y) are secondary minerals formed via hydrothermal alteration of primary rare-earth minerals such as monazite (REPO4; RE = La to Gd) and xenotime (RE′PO4; RE′ = Tb to Lu and Y). Monazite and xenotime are promising host matrices for actinide-rich nuclear wastes. However, the aqueous alteration of these materials could result in the precipitation of rhabdophane and churchite. In this scenario, the actinides could partition into the secondary phases, and the subsequent α-decay of actinides could compromise their structural stability. The effect of radiation on their structure is unknown, and this study determines the radiation stability of rhabdophane ((Sm/Gd/Dy)PO4·H2O), churchite ((Gd/Dy/Y)PO4·2H2O), monazite (SmPO4), and xenotime (DyPO4). The materials were irradiated with a 650 keV Xe2+ ion beam and the radiation response was monitored in situ using a TEM. Rhabdophane undergoes amorphization at a slightly higher ion fluence than churchite and, therefore, has a relatively higher radiation stability. However, both these materials were outperformed by monazite and xenotime, which demonstrate higher radiation tolerance. This study has demonstrated that rhabdophane and churchite are more susceptible to radiation damage and could have implications on their actinide retention capacity.


Hot News / Related to recommend
  • 2026 - 07 - 10
    Click on the number of times: 0
    来源:ACS PublicationsPhotocatalytic activation of C–H bonds in biomass-derived molecules represents a promising strategy for biomass upgrading. However, the efficiency of selective C–H bond activation a...
  • 2026 - 07 - 10
    Click on the number of times: 0
    来源:ACS PublicationsThe escalating global demand for rare earth elements (REE) has highlighted the potential of anthropogenic waste streams as secondary resources. This study characterizes the distribu...
  • 2026 - 07 - 09
    Click on the number of times: 0
    来源:ACS PublicationsThe nature of magnetic phase transitions, whether first-order (FOMT) or second-order (SOMT), fundamentally impacts material properties. Doping in alloys can alter this nature, but t...
  • 2026 - 07 - 08
    Click on the number of times: 0
    来源:ACS PublicationsA series of NaRE(CO3)2 compounds (RE = Ce–Lu, Y, Sc) was synthesized under high-pressure and high-temperature and characterized by single-crystal X-ray diffraction and Raman spectro...
  • Copyright ©Copyright 2018 2020 Shanghai rare earth association All Rights Reserved Shanghai ICP NO.2020034223
    the host:Shanghai Association of Rare Earth the guide:Shanghai Development and Application Office of Rare Earth the organizer:Shanghai rare earth industry promotion center
    犀牛云提供云计算服务