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Direct synthesis of Li$$_{3}$$N thin layer on lithium target surface for BNCT in N$$_{2}$$ gaseous conditions

Ishiyama, Shintaro; Baba, Yuji  ; Fujii, Ryo*; Nakamura, Masaru*; Imahori, Yoshio*

To prevent vaporization damage of BNCT (Boron Neutron Capture Therapy) lithium target during operation, direct synthesis of Li$$_{3}$$N thin layer on lithium target surface was demonstrated in 0.1 MPa N$$_{2}$$ gas at temperature below 548 K and the following conclusions were derived; (1)Synthesis of Li$$_{3}$$N thin layer on lithium surface was confirmed after nitridation at 276$$sim$$548 K with surface contamination by oxygen and carbon. (2) Rapid nitridation over 1$$sim$$5wt.%/min was observed above Li melting temperature, whereas slow reaction under 0.02$$sim$$0.5wt.%/min below melting temperature. (3) During nitridation, removal of oxygen contamination on Li$$_{3}$$N thin layer is taken place by nitrogen below Li melting temperature.

Language

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English

Journal

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Materials Transactions

Volume

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54

Number

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9

Pages

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p.1765 - 1769

Publication Year/Month

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2013/09

Meeting title

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Held date

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Location (city)

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Location (country)

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Patent information

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PDF

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Paper URL

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https://doi.org/10.2320/matertrans.M2013212

DOI for research data

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Keywords

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no keyword

Research Facility

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Press Release

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Article of JAEA R&D Review

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Cooperating Institute

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Accesses

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- Accesses

InCites™

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Percentile:27.48

Category:Materials Science, Multidisciplinary

Altmetrics

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