Status report of the first AMS laboratory in the Czech Republic at the Nuclear Physics Institute, Řež.

The first accelerator mass spectrometry (AMS) laboratory in the Czech Republic has been established and put into routine operation in February 2022. Here we briefly describe the facilities available, namely a 300 kV multi-isotope low-energy AMS system (MILEA) capable of determination Be, C, Al, Ca, I, isotopes of U, especially U, Pu and other actinoids, and accessories for C measurements, which include a gas interface system, a preparative gas chromatography system for compound-specific radiocarbon dating analysis, and an isotope-ratio mass spectrometer. The first results achieved for separation and measurement of the above radionuclides (except for Ca) are also reported, with the main focus on C measurements.

The Removal of Pertechnetate from Aqueous Solution by Synthetic Hydroxyapatite: The Role of Reduction Reagents and Organic Ligands.

The use of knowledge from technetium radiochemistry (even from nuclear medicine applications) allows us to select an sorbent for Tc radionuclide sorption, which is hydroxyapatite. Using radioisotope indication, the TcO₄ sorption process on synthetic hydroxyapatite was studied by the batch method in the presence of SnCl and FeSO reducing agents. The complexing organic ligands' effect on the TcO₄ sorption under reducing conditions was investigated.

Isotherm, Kinetic, and Selectivity Studies for the Removal of Ba and Cs from Aqueous Solution Using Turkish Perlite.

The efficiency of 133Ba and 137Cs removal from aqueous solution is vital to mitigate ecological concerns over spreading these radionuclides in the environment. The present work focused on the use of Turkish perlite for the sorptive removal of 133Ba and 137Cs from aqueous solution by the radioindicator method. Perlite was characterized by XRF, XRD, FTIR, SEM−EDX, and BET analyses.

Ion-Imprinted Polymers: Synthesis, Characterization, and Adsorption of Radionuclides.

Growing concern over the hazardous effect of radionuclides on the environment is driving research on mitigation and deposition strategies for radioactive waste management. Currently, there are many techniques used for radionuclides separation from the environment such as ion exchange, solvent extraction, chemical precipitation and adsorption. Adsorbents are the leading area of research and many useful materials are being discovered in this category of radionuclide ion separation.

Pertechnetate/Perrhenate Surface Complexation on Bamboo Engineered Biochar.

The work deals with the evaluation of biochar samples prepared from Phyllostachys Viridiglaucescens bamboo. This evaluation consists of the characterization of prepared materials' structural properties, batch and dynamic sorption experiments, and potentiometric titrations. The batch technique was focused on obtaining basic sorption data of ⁸⁸ᵐTcO₄⁻ on biochar samples including influence of pH, contact time, and Freundlich isotherm.