Author:
Grote R.,Hong T.,Shuller-Nickles L.,Amoroso J.,Tang M.,Brinkman K.S.
Funder
the DOE-EPSCoR
U.S. Department of Energy, Office of Nuclear Energy, Fuel Cycle Technology
the U.S. Department of Energy
Subject
Nuclear Energy and Engineering,General Materials Science,Nuclear and High Energy Physics
Reference56 articles.
1. Preparation and characterization of (Ba,Cs)(M,Ti)8O16 (M = Al3+, Fe3+, Ga3+, Cr3+, Sc3+, Mg2+) hollandite ceramics developed for radioactive cesium immobilization;Aubin-Chevaldonnet;J. Nucl. Mater.,2007
2. A universally applicable composite modulated structure approach to ordered BaxMyTi8-yO16 hollandite-type solid solutions;Carter;J. Solid State Chem.,2005
3. Heavy ion irradiations on synthetic hollandite-type materials: Ba1.0Cs0.3A2.3Ti5.7O16 (A=Cr, Fe, Al);Tang;J. Solid State Chem.,2016
4. Radiation effects in nuclear waste forms for high-level radioactive waste;Ewing;Prog. Nucl. Energy,1995
5. The crystal structure of hollandite, the related manganese oxide minearls, and alpha-MnO2;Bystrom;Acta Crystallogr.,1950
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