This paper is devoted to the study of the mechanisms of interaction between uranyl ion and rutile TiO2. Among the radionuclides of interest, U(VI) can be considered as a model of the radionuclides oxo-cations. The substrate under study here is the rutile titanium dioxide (TiO2) which is an interesting candidate as a methodological solid since it can be easily found as powder and as manufactured single crystals. This material presents also a wide domain of stability as a function of pH. Then, it allows the study of the retention processes on well-defined crystallographic planes, which can lead to a better understanding of the surface reaction mechanisms. Moreover, it is well-established that the (110) crystallographic orientation is dominati...
First results of a periodic and cluster Density Functional Theory (DFT) study of the uranyl ion (UO2...
We report scanning tunneling microscopy and complementary spectroscopic measurements on TiO2(110) su...
Studying the interaction between the dye and the surface as well as how the system reacts to light i...
RadiochThe surface complex formed by uranyl oxocations sorbed onto rutile titanium oxide has been pr...
The aim of this work is the study, at a molecular scale of the sorption mechanisms corresponding to ...
Titanium dioxide has properties that make it an excellent substrate for experimental study and theor...
Titanium dioxide (TiO(2)) has often served as a model substrate for experimental sorption studies of...
Canister integrity and radionuclide retention is of first importance for assessing the long-term saf...
Two-phase systems containing an electrolyte solution and a suspended solid were studied. The common ...
Molecular-scale knowledge of sorption reactions at the water-mineral interface is important for pred...
Surfaces of metal oxides play a vital role in many technologically important applications. The surfa...
Afin de comprendre, à l'échelle moléculaire, les mécanismes impliqués dans les interactions entre ra...
Uranium (U(VI)) sorption in systems containing titanium dioxide (TiO2) and various Fe(M)-oxide phase...
The purpose of this work is the study of the interaction mechanisms between U(VI) ions and SrTiO3 su...
Rieboldt F, Bechstein R, Besenbacher F, Wendt S. Vicinal Rutile TiO2 Surfaces and Their Interactions...
First results of a periodic and cluster Density Functional Theory (DFT) study of the uranyl ion (UO2...
We report scanning tunneling microscopy and complementary spectroscopic measurements on TiO2(110) su...
Studying the interaction between the dye and the surface as well as how the system reacts to light i...
RadiochThe surface complex formed by uranyl oxocations sorbed onto rutile titanium oxide has been pr...
The aim of this work is the study, at a molecular scale of the sorption mechanisms corresponding to ...
Titanium dioxide has properties that make it an excellent substrate for experimental study and theor...
Titanium dioxide (TiO(2)) has often served as a model substrate for experimental sorption studies of...
Canister integrity and radionuclide retention is of first importance for assessing the long-term saf...
Two-phase systems containing an electrolyte solution and a suspended solid were studied. The common ...
Molecular-scale knowledge of sorption reactions at the water-mineral interface is important for pred...
Surfaces of metal oxides play a vital role in many technologically important applications. The surfa...
Afin de comprendre, à l'échelle moléculaire, les mécanismes impliqués dans les interactions entre ra...
Uranium (U(VI)) sorption in systems containing titanium dioxide (TiO2) and various Fe(M)-oxide phase...
The purpose of this work is the study of the interaction mechanisms between U(VI) ions and SrTiO3 su...
Rieboldt F, Bechstein R, Besenbacher F, Wendt S. Vicinal Rutile TiO2 Surfaces and Their Interactions...
First results of a periodic and cluster Density Functional Theory (DFT) study of the uranyl ion (UO2...
We report scanning tunneling microscopy and complementary spectroscopic measurements on TiO2(110) su...
Studying the interaction between the dye and the surface as well as how the system reacts to light i...