Abstract: A ferroic component is described, comprising a ferroic layer (10) arranged between two electrodes (12,13), a thin-film field-effect transistor (4) whose gate electrode (3) forms one of the two electrodes (12, 13) of the ferroic layer (10) which is joined to the gate electrode (3) via an intermediate layer (11) acting as a bonding agent, and a substrate that is used as a support. In order to obtain a flexible component it is proposed that the thin-film field-effect transistor (4) on the one hand and the ferroic layer (10) which consists of an internally charged cellular polymer on the other hand are applied to the substrate which is arranged as a flexible plastic film (1), optionally by interposing an insulating layer (2) therebetween.

Abstract: A ferroic component is described, comprising a ferroic layer (10) arranged between two electrodes (12,13), a thin-film field-effect transistor (4) whose gate electrode (3) forms one of the two electrodes (12, 13) of the ferroic layer (10) which is joined to the gate electrode (3) via an intermediate layer (11) acting as a bonding agent, and a substrate that is used as a support. In order to obtain a flexible component it is proposed that the thin-film field-effect transistor (4) on the one hand and the ferroic layer (10) which consists of an internally charged cellular polymer on the other hand are applied to the substrate which is arranged as a flexible plastic film (1), optionally by interposing an insulating layer (2) therebetween.

Abstract: The present invention relates to stretchable interconnects which can be made in various geometric configurations, depending on the intended application. The stretchable interconnects can be formed of an electrically conducting film or an elastomer material to provide elastic properties in which the interconnects can be reversibly stretched in order to stretch and relax the elastomer material to its original configuration. Alternatively, stretchable interconnects can be formed of an electrically conducting film or a plastic material to provide stretching of the material to a stretched position and retaining the stretched configuration. The stretchable interconnect can be formed of a flat 2-dimensional conductive film covering an elastomeric or plastic substrate. When this structure is stretched in one or two dimensions, it retains electrical conduction in both dimensions.

Abstract: The present invention relates to stretchable interconnects which can be made in various geometric configurations, depending on the intended application. The stretchable interconnects can be formed of an electrically conducting film or an elastomer material to provide elastic properties in which the interconnects can be reversibly stretched in order to stretch and relax the elastomer material to its original configuration. Alternatively, stretchable interconnects can be formed of an electrically conducting film or a plastic material to provide stretching of the material to a stretched position and retaining the stretched configuration. The stretchable interconnect can be formed of a flat 2-dimensional conductive film covering an elastomeric or plastic substrate. When this structure is stretched in one or two dimensions, it retains electrical conduction in both dimensions.