Add to ORKGSolvent extraction and the so called BTBP class of ligands can be used for the separation of the actinides from the rest of used nuclear fuel. One troublesome co-extracting element in this separation is silver. Therefore, two different BTBP molecules, having different side groups have been investigated. It was shown that the silver distribution ratio is higher using the CyMe4-BTBP than theC2 -BTBP ligand. In additional experiments, it was shown that no water soluble silver complex is formed in the CyMe4 system and that the complex is one ligand / metal. No effect of varying the diluent/solvent was prove
The separation of actinides and lanthanides is an important question in the treatment of spent nucle...
Continued research into advanced separations technology for the reprocessing of spent nuclear fuel (...
In the framework of nuclear waste reprocessing, the separation processes of minor actinides from fis...
Solvent extraction and the so called BTBP class of ligands can be used for the separation of the act...
AbstractSolvent extraction and the so called BTBP class of ligands can be used for the separation of...
The so called BTBP (bis-triazine bi-pyridine)-type molecules have been developed for liquid-liquid e...
Used nuclear fuel taken directly from a reactor is radiotoxic for mankind and its environment for a ...
Two Group ActiNide EXtraction solvents for the extraction of actinides from used nuclear fuel for tr...
Fossil fuels are no longer a choice for energy production, both because of their diminishing availab...
The grouped actinide extraction (GANEX) process combines two extractants CyMe4-BTBP and TBP in a dil...
Shortages of fossil fuel and other political movements contributed to the nuclear energy “renaissanc...
Recently the BTBP-family of solvating ligands have been studied for their ability to separate trival...
The extraction of Am(III), Th(IV), Np(V), and U(VI) from nitric acid by 6,6′‐bis(5,6‐dialkyl‐[1,2,4]...
Liquid-liquid extraction is the major technique being applied for the partitioning of f-elements fro...
The separation of trivalent actinides from trivalentlanthanides present in used nuclear fuel can bea...
The separation of actinides and lanthanides is an important question in the treatment of spent nucle...
Continued research into advanced separations technology for the reprocessing of spent nuclear fuel (...
In the framework of nuclear waste reprocessing, the separation processes of minor actinides from fis...
Solvent extraction and the so called BTBP class of ligands can be used for the separation of the act...
AbstractSolvent extraction and the so called BTBP class of ligands can be used for the separation of...
The so called BTBP (bis-triazine bi-pyridine)-type molecules have been developed for liquid-liquid e...
Used nuclear fuel taken directly from a reactor is radiotoxic for mankind and its environment for a ...
Two Group ActiNide EXtraction solvents for the extraction of actinides from used nuclear fuel for tr...
Fossil fuels are no longer a choice for energy production, both because of their diminishing availab...
The grouped actinide extraction (GANEX) process combines two extractants CyMe4-BTBP and TBP in a dil...
Shortages of fossil fuel and other political movements contributed to the nuclear energy “renaissanc...
Recently the BTBP-family of solvating ligands have been studied for their ability to separate trival...
The extraction of Am(III), Th(IV), Np(V), and U(VI) from nitric acid by 6,6′‐bis(5,6‐dialkyl‐[1,2,4]...
Liquid-liquid extraction is the major technique being applied for the partitioning of f-elements fro...
The separation of trivalent actinides from trivalentlanthanides present in used nuclear fuel can bea...
The separation of actinides and lanthanides is an important question in the treatment of spent nucle...
Continued research into advanced separations technology for the reprocessing of spent nuclear fuel (...
In the framework of nuclear waste reprocessing, the separation processes of minor actinides from fis...