Patent ID: 8741199

Claim:
An imprint method adopting a full wafer nanoimprint lithography device including a wafer stage, a wafer coated with a liquid resist, a demolding nozzle, a composite mold, an imprint head, a pressure passageway, a vacuum passageway, and a UV light source, the imprint head including a working table-board, the composite mold is fixed on an underside of the working table-board of the imprint head, the demolding nozzle arranged at one side of a lower portion of the composite mold, the pressure passageway and the vacuum passageway connected with air intakes on two sides of the working table-board of the imprint head, the wafer coated with the liquid resist is placed on vacuum chuck on the wafer stage, the UV light source attached on the working table-board of the imprint head, and the composite mold including a structure layer, an elastic layer, and a support layer, the method comprising: a pretreatment process comprising fixing the composite mold on the underside of the working table-board of the imprint head through a vacuum state; an imprinting process comprising: converting the vacuum state into a pressure state starting from a center of the composite mold, wherein the composite mold generates deformation on its central position under common effect of gas-assisted imprinting pressure and capillary force; contacting the composite mold with the liquid resist on the wafer, wherein cavity of the central position of the mold is filled by the liquid resist; converting the vacuum state into the pressure state from the composite mold central location to both sides of the composite mold, wherein a contact area between the structure layer of the composite mold and the liquid resist is gradually increased until the structure layer of the composite mold is completely contacted with the liquid resist, and wherein all cavities of the composite mold are filled by the liquid resist; and increasing the pressure of all pressure passageways simultaneously, thereby realizing complete filling of the liquid resist into the cavities of the composite mold, wherein a residual layer thickness is thinned to a preset thickness; a curing process comprising: turning on the UV light source, and exposing UV light to the liquid resist through the composite mold, thereby fully curing the liquid resist; and a demolding process comprising: closing the pressure passageway; opening the vacuum passageway from outermost sides of the composite mold; turning on the demolding nozzle, wherein the composite mold is mutually detached from the wafer from the outmost side of the mold under the common effect of vacuum suction force of the vacuum passageway and the level detaching force generated by the compressed air from the demolding nozzle; converting the pressure state gradually into vacuum state from two sides to the center of the mold; and detaching the central position of the composite mold from the wafer, thereby realizing complete separation between the composite mold and the wafer.