Article
Publicly Available
Frontmatter
Published/Copyright:
April 17, 2020
Published Online: 2020-04-17
Published in Print: 2020-04-28
©2020 Walter de Gruyter GmbH, Berlin/Boston
Articles in the same Issue
- Frontmatter
- Cross sections and production yields of 117mSn and other radionuclides generated in natural and enriched antimony with protons up to 145 MeV
- Surface features on aged 238Pu-doped Eu-monazite
- Luminescence studies of uranyl-aliphatic dicarboxylic acid complexes in acetonitrile medium
- Equilibrium isotope effects of tritiated water in and over lithium chloride solution
- Interactions between hydro-soluble degradation products from a radio-oxidized polyesterurethane and Eu(III) in contexts of repositories for low and intermediate level radioactive waste
- Synthesis of radioiodinated carnosine for hepatotoxicity imaging induced by carbon tetrachloride and its biological assessment in rats
- Thermodynamic parameters for the complexation of Tc(IV) with bromide under aqueous conditions
- Measurement of L X-ray production cross sections and relative intensities of some lanthanide compounds depending on the temperature
Articles in the same Issue
- Frontmatter
- Cross sections and production yields of 117mSn and other radionuclides generated in natural and enriched antimony with protons up to 145 MeV
- Surface features on aged 238Pu-doped Eu-monazite
- Luminescence studies of uranyl-aliphatic dicarboxylic acid complexes in acetonitrile medium
- Equilibrium isotope effects of tritiated water in and over lithium chloride solution
- Interactions between hydro-soluble degradation products from a radio-oxidized polyesterurethane and Eu(III) in contexts of repositories for low and intermediate level radioactive waste
- Synthesis of radioiodinated carnosine for hepatotoxicity imaging induced by carbon tetrachloride and its biological assessment in rats
- Thermodynamic parameters for the complexation of Tc(IV) with bromide under aqueous conditions
- Measurement of L X-ray production cross sections and relative intensities of some lanthanide compounds depending on the temperature
