Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, bilayers are formed in electronic devices at least in part by anodization of metal-alloy base layers.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: A method is for producing a grid-like beam collimator. In an embodiment, the method includes printing a suspension, including a binder and metal particles, in several stacked layers to build a layer stack with a grid structure including a number of crossing webs, and removing the binder from the layer stack. In an embodiment, the printing includes applying a curable liquid stiffening material at least on a surface of the grid structure, and curing the curable liquid stiffening material after the applying.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, bilayers are formed in electronic devices at least in part by anodization of metal-alloy base layers.

Abstract: In various embodiments, bilayers are formed in electronic devices at least in part by anodization of metal-alloy base layers.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: A method is for producing a grid-like beam collimator. In an embodiment, the method includes printing a suspension, including a binder and metal particles, in several stacked layers to build a layer stack with a grid structure including a number of crossing webs, and including removal of the binder from the layer stack. In an embodiment, the printing includes applying a curable liquid stiffening material at least on a surface of the grid structure, and curing the liquid stiffening material after the applying.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, electronic devices such as thin-film transistors and/or touch-panel displays incorporate bilayer capping layers and/or barrier layers.

Abstract: In various embodiments, bilayers are formed in electronic devices at least in part by anodization of metal-alloy base layers.

Abstract: The invention provides a sputter target material. The sputter target material comprises an alloy system comprising Cr—C, Cr—M—C or Cr—M1—M2—C, wherein C comprises at least 0.5 and as much as 20 atomic percent; M comprises at least 0.5 and as much as 20 atomic percent and is an element selected from the group consisting of Ti, V, Y, Zr, Nb, Mo, Hf, Ta, and W; M1 comprises at least 0.5 and as much as 20 atomic percent and is an element selected from the group consisting of Ti, V, Zr, Nb, Mo, Hf, Ta, and W, and M2 comprises at least 0.5 and as much as 10 atomic percent and is an element selected from the group consisting of Li, Mg, Al, Sc, Mn, Y, and Te. A magnetic recording medium comprising a substrate and at least an underlayer comprising the sputter target material of the invention also is provided. A method of manufacturing a sputter target material further provided.

Abstract: The effects of sputter re-deposition are reduced by macroscopically roughening the non-sputter areas of the sputter target. The macroscopic roughening is obtained by forming a macroscopic trough pattern in the non-sputter areas of the sputter target. A variety of patterns may be used for the trough pattern. In addition to macroscopically roughing the non-sputter areas of the sputter target, microscopic roughening of the trough patterns may be performed using conventional shot, bead or grit blasting techniques.