The hydrogen sorption properties of single-phase bcc (TiVNb)100-xCrx alloys (x = 0-35) are reported. All alloys absorb hydrogen quickly at 25 °C, forming fcc hydrides with storage capacity depending on the Cr content. A thermodynamic destabilization of the fcc hydride is observed with increasing Cr concentration, which agrees well with previous compositional machine learning models for metal hydride thermodynamics. The steric effect or repulsive interactions between Cr-H might be responsible for this behavior. The cycling performances of the TiVNbCr alloy show an initial decrease in capacity, which cannot be explained by a structural change. Pair distribution function analysis of the total X-ray scattering on the first and last cycled hydrides demonstrated an average random fcc structure without lattice distortion at short-range order. If the as-cast alloy contains a very low density of defects, the first hydrogen absorption introduces dislocations and vacancies that cumulate into small vacancy clusters, as revealed by positron annihilation spectroscopy. Finally, the main reason for the capacity drop seems to be due to dislocations formed during cycling, while the presence of vacancy clusters might be related to the lattice relaxation. Having identified the major contribution to the capacity loss, compositional modifications to the TiVNbCr system can now be explored that minimize defect formation and maximize material cycling performance.

Department of Materials Engineering Federal University of São Carlos DEMa UFSCar 13565 905 São Carlos Brazil

Faculty of Mathematics and Physics Charles University 5 Holesovickach 2 Prague 8 18000 Czech Republic

National Institute of Advanced Industrial Science and Technology AIST West 16 1 Onogawa Tsukuba Ibaraki 305 8569 Japan

National Institutes for Quantum Science and Technology 1 1 1 Kouto Sayo cho Sayo gun Hyogo 679 5148 Japan

Sandia National Laboratories Livermore California 94551 United States

Univ Paris Est Creteil CNRS ICMPE UMR 7182 2 Rue Henri Dunant 94320 Thiais France

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