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Published/Copyright:
March 4, 2024
Published Online: 2024-03-04
Published in Print: 2024-03-25
©2024 Walter de Gruyter GmbH, Berlin/Boston
Articles in the same Issue
- Frontmatter
- Original Papers
- Activation cross sections for the formation of 51Cr and 52,54Mn in interactions of deuterons with iron
- Observations regarding the synthesis and redox chemistry of heterobimetallic uranyl complexes containing Group 10 metals
- Incorporation of phytic acid into reed straw-derived hydrochar for highly efficient and selective adsorption of uranium(VI)
- Alpha-hydroxyisobutyric acid-assisted solid-liquid chromatography for the separation of lutetium-177 from neutron-irradiated natural ytterbium
- Measurements of 222Rn exhalation rates, effective 226Ra contents, and radiological risks from geological samples of Kopili Fault Zone and gneissic complex of Shillong Plateau, India
- Characterization of glass composite material by pressureless sintering of soil and its application to uranium contaminated soil as a waste form
- CaO-enhanced polyester for safety: experimental study on fabrication, characterization, and gamma-ray attenuation
Articles in the same Issue
- Frontmatter
- Original Papers
- Activation cross sections for the formation of 51Cr and 52,54Mn in interactions of deuterons with iron
- Observations regarding the synthesis and redox chemistry of heterobimetallic uranyl complexes containing Group 10 metals
- Incorporation of phytic acid into reed straw-derived hydrochar for highly efficient and selective adsorption of uranium(VI)
- Alpha-hydroxyisobutyric acid-assisted solid-liquid chromatography for the separation of lutetium-177 from neutron-irradiated natural ytterbium
- Measurements of 222Rn exhalation rates, effective 226Ra contents, and radiological risks from geological samples of Kopili Fault Zone and gneissic complex of Shillong Plateau, India
- Characterization of glass composite material by pressureless sintering of soil and its application to uranium contaminated soil as a waste form
- CaO-enhanced polyester for safety: experimental study on fabrication, characterization, and gamma-ray attenuation
