The present invention provides a metal mold and the method of making the metal mold for casting directional gecko-inspired adhesives that require deep, slanted features and an undercut wedge structure. The durable metal mold can be used for high quantities. In one example, compression molding is used to mass produce the adhesives. What normally takes 24 hours to produce now with compressing molding takes 5 minutes. Compression molding allows us to increase daily production from 1 adhesive patch to thousands per day.

The present invention provides a metal mold and the method of making the metal mold for casting directional gecko-inspired adhesives that require deep, slanted features and an undercut wedge structure. The durable metal mold can be used for high quantities. In one example, compression molding is used to mass produce the adhesives. What normally takes 24 hours to produce now with compressing molding takes 5 minutes. Compression molding allows us to increase daily production from 1 adhesive patch to thousands per day.

The present invention provides an imprint apparatus including a control unit that feedback-controls a mold deformation unit based on difference data indicating a shape difference between a pattern region of a mold and a shot region on a substrate, target data indicating a relative target deformation amount between the pattern region of the mold and the shot region on the substrate, and time series data indicating a relative deformation amount between the pattern region of the mold and the shot region on the substrate which changes at each time while performing shape control on the shot region.

A device for producing microstructures, particularly microneedles and more particularly microneedle arrays, including a female mold that has, on a top side, at least one in particular conical depressed portion for producing a microstructure. The female mold is, for example, in the form of a silicone cap and is connected to a hollow cylinder in particular via a holding element. A plunger is disposed movably inside the hollow cylinder.

A molding mold includes a shell mold provided with a plurality of vacuum suction holes and a backup mold for backing up the shell mold, a back surface of the shell mold and a front surface of the backup mold having the same shape and being fitted to each other. A ventilation groove is formed on the front surface of the backup mold or the back surface of the shell mold, leaving a receiving surface for receiving a mating surface, a plurality of striped grooves and ridges between the striped grooves are formed on the back surface of the shell mold or the front surface of the backup mold, the striped grooves having a feed pitch of 0.5 mm to 5.0 mm and a processing depth of 0.01 mm to 0.4 mm, and the vacuum suction holes and the ventilation groove communicate with each other through the striped grooves.

A substrate processing apparatus that can radiate light on a composition in an optimum radiation amount based on acquired spectral sensitivity characteristics can be provided.

A substrate processing apparatus configured to perform pattern formation processing on a composition on a substrate includes a first radiation unit configured to radiate first light onto the substrate, a dispenser configured to apply the composition to a first position inside the substrate processing apparatus, a template holding unit configured to hold a template to be brought in contact with the composition on the substrate, and a controller configured to control a radiation amount of the first light to be radiated by the first radiation unit based on spectral sensitivity characteristics of the composition that are measured in advance.

An imprint method includes bringing a mold and an uncured imprint material supplied onto a substrate into contact with each other, enhancing viscoelasticity of the imprint material, making position adjustment of the mold and the substrate, and curing the imprint material. The imprint material is supplied onto a shot region of the substrate, and time between bringing the mold brought into contact with the imprint material and starting enhancing viscoelasticity is shorter when the shot region includes an outer periphery of the substrate than when the shot region does not include the outer periphery of the substrate.

Forming features in the surface of a bicycle component involves depositing a substance onto a substrate in a geometric pattern to form a transfer medium. Forming features may also involve positioning the transfer medium relative to an unformed bicycle component, and forming a negative of the geometric pattern in the bicycle component through the application of heat and/or pressure to the transfer medium and the unformed bicycle component. The transfer medium may be configured for use in the molding of carbon fiber reinforced plastic (“CFRP”) bicycle components and may include a substrate formed of a flexible material, and a geometric pattern formed of a hard material, the hard material different than the flexible material.

A microneedle array has a plurality of microneedles, said microneedles being supported by a substrate. In order to improve the properties of the microneedle array, the substrate is in the form of a grid structure or comprises a grid structure.

A microneedle array has a plurality of microneedles, said microneedles being supported by a substrate. In order to improve the properties of the microneedle array, the substrate is in the form of a grid structure or comprises a grid structure.