Add to ORKGExtraordinary large hysteresis effects in optical, electrical, and structural properties are observed in switchable mirrors based on thin yttrium hydride (YHx) films, deposited on quartz glass or sapphire. The pressure-composition isotherms of the YHx system between x=2 and 3 for absorption and desorption, determined electrochemically, differ by approximately three orders of magnitude. The optical transmittance exhibits a distinct minimum when loading the films from the dihydride to the trihydride state; however, upon unloading this minimum is absent. The desorption data are in good agreement with literature data on bulk yttrium, but the absorption results show large deviations. Most important for the metal-insulator transition is that duri...
The giant intrinsic hysteresis as a function of hydrogen concentration x in the optical and electric...
The surrounding hydrogen gas pressure at room temperature was varied to convert rare earth hydride f...
The rare earth hydride YH_(3−δ) can be tuned through the metal–insulator transition both by changing...
Extraordinary large hysteresis effects in optical, electrical, and structural properties are observe...
Giant hysteretic effects in the YHx hydrogen switchable mirror system are observed between x=1.9 and...
We have exploited the switchable mirror transition, from metallic mirror to transparent insulator, i...
Rare earth hydride films can be converted reversibly from metallic mirrors to insulating windows sim...
We describe an experimental method for in situ resistivity measurements during the electrochemical h...
We describe an experimental method for in situ resistivity measurements during the electrochemical h...
Thin films of Y, La or rare earth (RE) hydrides exhibit a metal insulator transition between their d...
Trivalent rare earth hydrides stabilized in thin film form demonstrate spectacular optical and elect...
Measurements of optical reflectance, transmittance, and electrical resistivity on the switchable mir...
The stress development in thin yttrium films during hydrogen loading was analyzed. A linear elastic ...
In contrast to the binary switchable mirror films (YHx, LaHx, REHx with RE:rare earth) which have a ...
Thin La1-zYzHx films, in the composition range 0<z<1 and 0<x<3, are studied using x-ray diffraction,...
The giant intrinsic hysteresis as a function of hydrogen concentration x in the optical and electric...
The surrounding hydrogen gas pressure at room temperature was varied to convert rare earth hydride f...
The rare earth hydride YH_(3−δ) can be tuned through the metal–insulator transition both by changing...
Extraordinary large hysteresis effects in optical, electrical, and structural properties are observe...
Giant hysteretic effects in the YHx hydrogen switchable mirror system are observed between x=1.9 and...
We have exploited the switchable mirror transition, from metallic mirror to transparent insulator, i...
Rare earth hydride films can be converted reversibly from metallic mirrors to insulating windows sim...
We describe an experimental method for in situ resistivity measurements during the electrochemical h...
We describe an experimental method for in situ resistivity measurements during the electrochemical h...
Thin films of Y, La or rare earth (RE) hydrides exhibit a metal insulator transition between their d...
Trivalent rare earth hydrides stabilized in thin film form demonstrate spectacular optical and elect...
Measurements of optical reflectance, transmittance, and electrical resistivity on the switchable mir...
The stress development in thin yttrium films during hydrogen loading was analyzed. A linear elastic ...
In contrast to the binary switchable mirror films (YHx, LaHx, REHx with RE:rare earth) which have a ...
Thin La1-zYzHx films, in the composition range 0<z<1 and 0<x<3, are studied using x-ray diffraction,...
The giant intrinsic hysteresis as a function of hydrogen concentration x in the optical and electric...
The surrounding hydrogen gas pressure at room temperature was varied to convert rare earth hydride f...
The rare earth hydride YH_(3−δ) can be tuned through the metal–insulator transition both by changing...