Described are systems, methods, devices, apparatuses, and materials suitable for fabricating flexible microcavity structures and integrating flexible microcavity structures into multi-functional flexible hybrid electronics and electronic components, as well as systems, devices, apparatuses, methods, and computer program products for screen-printing flexible microcavity structures and for integrating flexible microcavity structures into multi-functional flexible hybrid electronics.

Described are systems, methods, devices, apparatuses, and materials suitable for fabricating flexible microcavity structures and integrating flexible microcavity structures into multi-functional flexible hybrid electronics and electronic components, as well as systems, devices, apparatuses, methods, and computer program products for screen-printing flexible microcavity structures and for integrating flexible microcavity structures into multi-functional flexible hybrid electronics.

The present invention discloses a silicon wafer printer for double half-cell printing, comprising a work platform, a turntable assembly, a front-end conveyor, a left calibration module, and a right calibration module. A calibration vision camera is mounted above the front-end conveyor's end. The left linear module connects to a left motor module and then a left suction module. The right linear module connects to a right motor module, two calibration cylinders, calibration bearings, and a right suction module. It uses visual positioning to determine double half-cells' position/angle, adjusts the right half-cell with the left as reference, shortens alignment time, adopts single-head front-to-back printing and a smaller indexing disc, boosting turntable printing efficiency.

The present invention discloses a silicon wafer printer for double half-cell printing, comprising a work platform, a turntable assembly, a front-end conveyor, a left calibration module, and a right calibration module. A calibration vision camera is mounted above the front-end conveyor's end. The left linear module connects to a left motor module and then a left suction module. The right linear module connects to a right motor module, two calibration cylinders, calibration bearings, and a right suction module. It uses visual positioning to determine double half-cells' position/angle, adjusts the right half-cell with the left as reference, shortens alignment time, adopts single-head front-to-back printing and a smaller indexing disc, boosting turntable printing efficiency.

A printing device is provided for printing a substance on a target surface of a target. The printing device comprises a carrier having at a first main side a hydrophobic coating for carrying a specimen of the substance to be printed, the specimen resting with a contact surface on the coating. The printing device further comprises a heater facility to locally heat the specimen at its contact surface to vaporize a portion of the specimen at the side of its contact surface and inducing a vapor pressure that causes a transfer of a remainder of the specimen towards the target surface. Additionally a printing method is provided.

A printing device is provided for printing a substance on a target surface of a target. The printing device comprises a carrier having at a first main side a hydrophobic coating for carrying a specimen of the substance to be printed, the specimen resting with a contact surface on the coating. The printing device further comprises a heater facility to locally heat the specimen at its contact surface to vaporize a portion of the specimen at the side of its contact surface and inducing a vapor pressure that causes a transfer of a remainder of the specimen towards the target surface. Additionally a printing method is provided.

Examples include a machine for handling sheets including an inspection device for inspecting sheets and at least one sheet transport means, which defines a section of a transport path that is provided for the sheets, and which includes an inspection region. In an inspection position, a sensor device of the inspection device is arranged so as to be aligned with the inspection region. At least one guide device of the at least one sensor device is provided, which defines a sensor adjustment path that is provided for movement of the sensor device and that extends from the inspection position at least to a first backed-away position configured as a maintenance position. The sensor adjustment path extends orthogonal with respect to a transverse direction, and at least between the inspection position and the first backed-away position.

Examples include a machine for handling sheets including an inspection device for inspecting sheets and at least one sheet transport means, which defines a section of a transport path that is provided for the sheets, and which includes an inspection region. In an inspection position, a sensor device of the inspection device is arranged so as to be aligned with the inspection region. At least one guide device of the at least one sensor device is provided, which defines a sensor adjustment path that is provided for movement of the sensor device and that extends from the inspection position at least to a first backed-away position configured as a maintenance position. The sensor adjustment path extends orthogonal with respect to a transverse direction, and at least between the inspection position and the first backed-away position.