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William J. Weber
Researcher at University of Tennessee
Publications - 689
Citations - 29725
William J. Weber is an academic researcher from University of Tennessee. The author has contributed to research in topics: Ion & Irradiation. The author has an hindex of 78, co-authored 675 publications receiving 25640 citations. Previous affiliations of William J. Weber include Washington State University Tri-Cities & Pacific Northwest National Laboratory.
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Nuclear waste disposal—pyrochlore (A2B2O7): Nuclear waste form for the immobilization of plutonium and “minor” actinides
TL;DR: In the last decade, there has been substantial interest in the use of the isometric pyrochlore structure-type, A2B2O7, for the immobilization of actinides.
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Radiation effects in crystalline ceramics for the immobilization of high-level nuclear waste and plutonium
William J. Weber,Rodney C. Ewing,C. R. A. Catlow,T. Diaz de la Rubia,Linn W. Hobbs,C. Kinoshita,Hj. Matzke,Arthur T. Motta,Michael Nastasi,Ekhard K. H. Salje,Eric R. Vance,Steven J. Zinkle +11 more
TL;DR: A comprehensive review of the state-of-the-art of radiation effects in crystalline ceramics that may be used for the immobilization of high-level nuclear waste and plutonium is provided in this article.
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Radiation effects in nuclear waste forms for high-level radioactive waste
TL;DR: In this paper, a comprehensive review of radiation effects due to γ-, β- and α-decay events, as well as from actinide doping experiments and particle irradiations, on nuclear waste form glasses and crystalline ceramics was provided.
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Electrochemical Properties of Mixed Conducting Perovskites La1 − x M x Co1 − y Fe y O 3 − δ (M = Sr, Ba, Ca)
TL;DR: In this article, the perovskite compositions exhibited high electronic and ionic conductivity and substantial reversible weight loss at elevated temperatures as the materials became increasingly oxygen deficient, which resulted in a decrease in the electronic conductivity.
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Enhancing radiation tolerance by controlling defect mobility and migration pathways in multicomponent single-phase alloys
Chenyang Lu,Liang-Liang Niu,Nanjun Chen,Ke Jin,Taini Yang,Pengyuan Xiu,Yanwen Zhang,Yanwen Zhang,Fei Gao,Hongbin Bei,Shi Shi,Mo Rigen He,Ian M. Robertson,William J. Weber,William J. Weber,Lumin Wang +15 more
TL;DR: This study demonstrates enhancement of radiation tolerance with the suppression of void formation by two orders magnitude at elevated temperatures in equiatomic single-phase concentrated solid solution alloys, and reveals its controlling mechanism through a detailed analysis of the depth distribution of defect clusters and an atomistic computer simulation.