The present disclosures provide a deposition mask and a method of manufacturing the same. The disclosed deposition mask may include: a deposition portion including a plurality of deposition patterns; and a boundary portion surrounding the deposition portion and including a first region and a second region extending from the first region. The boundary portion may have a thickness thicker than that of the deposition portion. Through this, it is possible to prevent a thermal deformation of the mask which may occur when the mask and mask frame are welded to each other.

The present disclosures provide a deposition mask and a method of manufacturing the same. The disclosed deposition mask may include: a deposition portion including a plurality of deposition patterns; and a boundary portion surrounding the deposition portion and including a first region and a second region extending from the first region. The boundary portion may have a thickness thicker than that of the deposition portion. Through this, it is possible to prevent a thermal deformation of the mask which may occur when the mask and mask frame are welded to each other.

Probe structures, probe arrays, have varying intrinsic material properties along their lengths. Methods of forming probes and probe arrays comprise varying the plating parameters to provide varying intrinsic material properties. Some embodiments provide deposition templates created using multiphoton lithography to provide probes with varying lateral configurations along at least portion of their lengths.

Probe structures, probe arrays, have varying intrinsic material properties along their lengths. Methods of forming probes and probe arrays comprise varying the plating parameters to provide varying intrinsic material properties. Some embodiments provide deposition templates created using multiphoton lithography to provide probes with varying lateral configurations along at least portion of their lengths.

The present invention relates to a roll stamp and a method of manufacturing the same, the roll stamp including a cylindrical metal mold including a debossed pattern formed on an outer side and a hollow portion formed on an inner side, and a dummy roller inserted into the hollow portion. Because a joining portion is not formed on the entire area of the cylindrical metal mold, a problem in which edge regions are separated does not occur. Also, due to the absence of the joining portion, it is possible to perform a patterning process continuously.

The present invention relates to a roll stamp and a method of manufacturing the same, the roll stamp including a cylindrical metal mold including a debossed pattern formed on an outer side and a hollow portion formed on an inner side, and a dummy roller inserted into the hollow portion. Because a joining portion is not formed on the entire area of the cylindrical metal mold, a problem in which edge regions are separated does not occur. Also, due to the absence of the joining portion, it is possible to perform a patterning process continuously.

In a master plate having an electrodeposition surface in which a metal formed article is formed by electrodeposition, and having a product region and a non-product region in the electrodeposition surface, the master plate includes: a product pattern that is formed in the product region and includes a recess and a protrusion; and a dummy pattern that is formed in at least a partial region of the non-product region and includes a plurality of recesses and a plurality of protrusions, the dummy pattern in which, in a case where a surface area of the product pattern per unit area of the product region is a first surface area, and a surface area of the dummy pattern per unit area of a dummy region in which the dummy pattern is formed is a second surface area, the second surface area is larger than the first surface area.

In a master plate having an electrodeposition surface in which a metal formed article is formed by electrodeposition, and having a product region and a non-product region in the electrodeposition surface, the master plate includes: a product pattern that is formed in the product region and includes a recess and a protrusion; and a dummy pattern that is formed in at least a partial region of the non-product region and includes a plurality of recesses and a plurality of protrusions, the dummy pattern in which, in a case where a surface area of the product pattern per unit area of the product region is a first surface area, and a surface area of the dummy pattern per unit area of a dummy region in which the dummy pattern is formed is a second surface area, the second surface area is larger than the first surface area.

Methods and processes are described that enable the manufacture of a superior thin-walled mold from which higher-quality, less-costly disposable gloves can be more efficiently produced. The method can include creating a glove form in a sacrificial material; electroforming an electroformed master from the glove form; removing sacrificial material from the electroformed master; creating a tertiary form from the electroformed master; forming an initial copper layering on the tertiary form; and developing the initial copper layering into a thick copper plating to create a copper mold for gloves.

Methods and processes are described that enable the manufacture of a superior thin-walled mold from which higher-quality, less-costly disposable gloves can be more efficiently produced. The method can include creating a glove form in a sacrificial material; electroforming an electroformed master from the glove form; removing sacrificial material from the electroformed master; creating a tertiary form from the electroformed master; forming an initial copper layering on the tertiary form; and developing the initial copper layering into a thick copper plating to create a copper mold for gloves.