Abstract: An organic light-emitting diode (OLED) display may have an array of organic light-emitting diode pixels that each have OLED layers interposed between a cathode and an anode. Voltage may be applied to the anode of each pixel to control the magnitude of emitted light. The conductivity of the OLED layers may allow leakage current to pass between neighboring anodes in the display. To reduce leakage current and the accompanying cross-talk in a display, a cutting structure may disrupt continuity of the OLED layers. The cutting structure may have two undercuts to disrupt continuity of at least some of the OLED layers. The cutting structure may include a conductive portion that provides a cathode voltage to a cathode layer for the OLED pixels.

Abstract: SM-based actuators (110) and release mechanisms (100) therefrom and systems (500) including one or more release mechanisms (100). The actuators (110) comprise a SM member (118) and a deformable member (140) mechanically coupled to the SM member (118) which deforms upon a shape change of the SM member triggered by a phase transition of the SM member. A retaining element (160) is mechanically coupled to the deformable member (140), wherein the retaining element (160) moves upon the shape change. Release mechanism (100) include an actuator, a rotatable mechanism (120) including at least one restraining feature (178) for restraining rotational movement of the retaining element (160) before the shape change, and at least one spring (315) that provides at least one locked spring-loaded position when the retaining element is in the restraining feature and at least one released position that is reached when the retaining element is in a position beyond the restraining feature (178).

Abstract: A microfluidic cell includes a compressible block and a cantilever. The compressible block includes a first horizontal surface, an opposite second horizontal surface and a plurality of vertical surfaces therebetween. A gasket structure depends downwardly from the second horizontal surface. The gasket structure defines an open cavity therein. The compressible block defines a fluid inlet passage and a fluid outlet passage each in fluid communication with the cavity and opening to a selected one of the first horizontal surface and one of the plurality of vertical surfaces. The cantilever includes body portion and a beam extending laterally therefrom. The body portion is embedded in the compressible block and a portion of the beam extends into the cavity defined by the gasket structure.

Abstract: SM-based actuators (110) and release mechanisms (100) therefrom and systems (500) including one or more release mechanisms (100). The actuators (110) comprise a SM member (118) and a deformable member (140) mechanically coupled to the SM member (118) which deforms upon a shape change of the SM member triggered by a phase transition of the SM member. A retaining element (160) is mechanically coupled to the deformable member (140), wherein the retaining element (160) moves upon the shape change. Release mechanism (100) include an actuator, a rotatable mechanism (120) including at least one restraining feature (178) for restraining rotational movement of the retaining element (160) before the shape change, and at least one spring (315) that provides at least one locked spring-loaded position when the retaining element is in the restraining feature and at least one released position that is reached when the retaining element is in a position beyond the restraining feature (178).

Abstract: A microfluidic cell includes a compressible block and a cantilever. The compressible block includes a first horizontal surface, an opposite second horizontal surface and a plurality of vertical surfaces therebetween. A gasket structure depends downwardly from the second horizontal surface. The gasket structure defines an open cavity therein. The compressible block defines a fluid inlet passage and a fluid outlet passage each in fluid communication with the cavity and opening to a selected one of the first horizontal surface and one of the plurality of vertical surfaces. The cantilever includes body portion and a beam extending laterally therefrom. The body portion is embedded in the compressible block and a portion of the beam extends into the cavity defined by the gasket structure.