Add to ORKGMagnesium thin films covered with a layer of Pd absorb hydrogen at much higher pressures than bulk Mg. Such an effect was originally explained as a consequence of elastic clamping on Mg by the capping Pd layer. An alternative interpretation later suggested that the pressure increase could originate from simple alloying between Mg and Pd. Here we resolve this controversy by measuring the hydrogenation and dehydrogenation isotherms of Mg-Pd thin film alloys over a wide range of compositions. Our results disentangle the effects of elastic clamping and alloying, and highlight the role of plastic deformations
Mg-Ti alloys have uncommon optical and hydrogen absorbing properties, originating from a “spinodal-l...
Magnesium thin films of 350 nm, capped with Pd, were deposited on glass substrates and hydrogenated ...
Nanometer-sized Mg hydride clusters may form in a self-organized way by the hydrogenation of a noneq...
Magnesium thin films covered with a layer of Pd absorb hydrogen at much higher pressures than bulk M...
Magnesium thin films covered with a layer of Pd absorb hydrogen at much higher pressures than bulk M...
We tune the thermodynamics of hydrogen absorption in Mg by means of elastic clamping. The loading is...
We tune the thermodynamics of hydrogen absorption in Mg by means of elastic clamping. The loading is...
Using hydrogenography, we investigate the thermodynamic parameters and hysteresis behavior in Mg thi...
We investigate the role of clamping on the thermodynamics of highly adhesive metal hydride thin film...
The thermodynamics of hydrogen absorption in Pd-capped Mg films are strongly dependent on the magnes...
The thermodynamics of hydrogen absorption in Pd-capped Mg films are strongly dependent on the magnes...
Although neither V nor Ti is supposed to mix with Mg, in thin films some alloy formation is observed...
The thermodynamics of hydrogen absorption in Pd-capped Mgfilms are strongly dependent on the magnesi...
Mg-Ti alloys have uncommon optical and hydrogen absorbing properties, originating from a “spinodal-l...
Magnesium thin films of 350 nm, capped with Pd, were deposited on glass substrates and hydrogenated ...
Nanometer-sized Mg hydride clusters may form in a self-organized way by the hydrogenation of a noneq...
Magnesium thin films covered with a layer of Pd absorb hydrogen at much higher pressures than bulk M...
Magnesium thin films covered with a layer of Pd absorb hydrogen at much higher pressures than bulk M...
We tune the thermodynamics of hydrogen absorption in Mg by means of elastic clamping. The loading is...
We tune the thermodynamics of hydrogen absorption in Mg by means of elastic clamping. The loading is...
Using hydrogenography, we investigate the thermodynamic parameters and hysteresis behavior in Mg thi...
We investigate the role of clamping on the thermodynamics of highly adhesive metal hydride thin film...
The thermodynamics of hydrogen absorption in Pd-capped Mg films are strongly dependent on the magnes...
The thermodynamics of hydrogen absorption in Pd-capped Mg films are strongly dependent on the magnes...
Although neither V nor Ti is supposed to mix with Mg, in thin films some alloy formation is observed...
The thermodynamics of hydrogen absorption in Pd-capped Mgfilms are strongly dependent on the magnesi...
Mg-Ti alloys have uncommon optical and hydrogen absorbing properties, originating from a “spinodal-l...
Magnesium thin films of 350 nm, capped with Pd, were deposited on glass substrates and hydrogenated ...
Nanometer-sized Mg hydride clusters may form in a self-organized way by the hydrogenation of a noneq...