Disclosed is a silicon wafer processing device; a pre-aligned optical assembly and an edge exposure assembly are provided on a synchronous bi-directional motion module, reducing the occupied space of the device and saving the installation cost; and furthermore, a synchronous bi-directional motion module, a rotation unit and a position compensation unit on a bottom plate are controlled by means of a control assembly, so as to reduce the operational complexity; and moreover, the synchronous bi-directional motion module is controlled to drive the pre-aligned optical assembly and the edge exposure assembly to simultaneously move, so that the operations of pre-aligning and edge exposure can be performed on silicon wafers of different sizes, thereby saving the switching time and increasing the work efficiency. Further disclosed is a method for processing a silicon wafer using a silicon wafer processing device.

An edge exposure apparatus and method are disclosed. The edge exposure apparatus includes: a base frame (1); an edge exposure unit (2) mounted on the base frame and configured to perform an edge exposure process on a wafer; a pre-alignment unit (3) for centering and orienting the wafer and cooperating with the edge exposure unit (2) in the edge exposure process; a cassette unit (4) for storing and detecting the wafer; a robotic arm (5) for transferring the wafer; and a master control unit (6) for controlling the above components of the edge exposure apparatus. The edge exposure unit (2) and the pre-alignment unit (3) share a common worktable, resulting in structural compactness. Alternatively, two pre-alignment units (3) and two edge exposure units (2) may be included in order to increase processing efficiency.

The present disclosure provides a method that includes coating an edge portion of a wafer by a first chemical solution including a chemical mixture of an acid-labile group, a solubility control unit and a thermal acid generator; curing the first chemical solution to form a first protecting layer on the edge portion of the wafer; coating a resist layer on a front surface of the wafer; removing the first protecting layer by a first removing solution; and performing an exposing process to the resist layer.

Various embodiments of the present application are directed towards an edge-exposure tool with a light emitting diode (LED), as well as a method for edge exposure using a LED. In some embodiments, the edge-exposure tool comprises a process chamber, a workpiece table, a LED, and a controller. The workpiece table is in the process chamber and is configured to support a workpiece covered by a photosensitive layer. The LED is in the process chamber and is configured to emit radiation towards the workpiece. A controller is configured to control the LED to expose an edge portion of the photosensitive layer, but not a center portion of the photosensitive layer, to the radiation emitted by the LED. The edge portion of the photosensitive layer extends along an edge of the workpiece in a closed path to enclose the center portion of the photosensitive layer.

Disclosed is a silicon wafer processing device; a pre-aligned optical assembly and an edge exposure assembly are provided on a synchronous bi-directional motion module, reducing the occupied space of the device and saving the installation cost; and furthermore, a synchronous bi-directional motion module, a rotation unit and a position compensation unit on a bottom plate are controlled by means of a control assembly, so as to reduce the operational complexity; and moreover, the synchronous bi-directional motion module is controlled to drive the pre-aligned optical assembly and the edge exposure assembly to simultaneously move, so that the operations of pre-aligning and edge exposure can be performed on silicon wafers of different sizes, thereby saving the switching time and increasing the work efficiency. Further disclosed is a method for processing a silicon wafer using a silicon wafer processing device.

A method of processing a substrate includes: providing a substrate with a layer of photosensitive material on a surface of the substrate; and removing at least part of the photosensitive material from around an outer edge of the layer of photosensitive material so as to generate an edge, having a radial width, around the layer of photosensitive material remaining on the surface of the substrate, wherein the photosensitive material varies in thickness forming a thickness profile across the radial width and the removing is controlled so as to generate variation in the thickness profile along the length of the edge, and/or wherein the removing is controlled so as to generate a rough edge around the layer of photosensitive material remaining on the surface of the substrate.

Disclosed in this invention is a wafer processing apparatus and method for pre-alignment and edge exposure of a wafer. The wafer processing apparatus includes a pre-alignment module, an edge exposure module, a motion module, a control module and a rotary table. The motion module includes a rotation module, a lifting module and a translation module, which are disposed and interconnected above one another. The rotation module is connected at the top to the rotary table and is configured to drive the rotary table to rotate together with the wafer. The lifting module is configured to drive the rotation module and the rotary table to move vertically. The translation module is configured to drive the lifting module and the rotation module to move horizontally. The pre-alignment module and the edge exposure module are positioned in correspondence to opposing sides of the wafer. The invention reduces the number of objects to be controlled as well as the complexity in control and system structure. Additionally, it simplifies the pre-alignment operation and reduces equipment cost.

The present disclosure provides a method that includes coating an edge portion of a wafer by a first chemical solution including a chemical mixture of an acid-labile group, a solubility control unit and a thermal acid generator; curing the first chemical solution to form a first protecting layer on the edge portion of the wafer; coating a resist layer on a front surface of the wafer; removing the first protecting layer by a first removing solution; and performing an exposing process to the resist layer.

Generally, examples described herein relate to systems and methods for processing a substrate, and more particularly, for removing an edge bead or other source of contamination from an edge of a substrate. An example is a processing system including a chamber, a substrate handler within the chamber, and a radiation generator within the chamber. The substrate handler is configured to secure a substrate. The substrate handler is operable to position an edge surface of the substrate such that radiation propagating from the radiation generator is directed to the edge surface of the substrate, and operable to position a periphery region of a deposit surface of the substrate that is perpendicular to and along the edge surface such that radiation propagating from the radiation generator is directed to the periphery region.

An edge exposure apparatus and method are disclosed. The edge exposure apparatus includes: a base frame (1); an edge exposure unit (2) mounted on the base frame and configured to perform an edge exposure process on a wafer; a pre-alignment unit (3) for centering and orienting the wafer and cooperating with the edge exposure unit (2) in the edge exposure process; a cassette unit (4) for storing and detecting the wafer; a robotic arm (5) for transferring the wafer; and a master control unit (6) for controlling the above components of the edge exposure apparatus. The edge exposure unit (2) and the pre-alignment unit (3) share a common worktable, resulting in structural compactness. Alternatively, two pre-alignment units (3) and two edge exposure units (2) may be included in order to increase processing efficiency.