Abstract: A silicon-on-insulator transfer wafer having a front surface with a circumferential lip around a circular recess is polished. In one version, the circular recess on the front surface of the wafer is masked by filling the recess with spin-on-glass. The front surface of the wafer is exposed to an etchant to preferentially etch away the circumferential lip, while the circular recess is masked by the spin-on-glass. The spin-on glass is removed, and the front surface of the transfer wafer is polished. Other methods of removing the circumferential lip include applying a higher pressure to the circumferential lip in a polishing process, and directing a pressurized fluid jet at the base of the circumferential lip.

Abstract: A method of treating a substrate comprises depositing silicon oxycarbide on the substrate and removing the silicon oxycarbide from the substrate. The silicon oxycarbide on the substrate is decarbonized by exposure to an energized oxygen-containing gas that heats the substrate and converts the layer of silicon oxycarbide into a layer of silicon oxide. The silicon oxide is removed by exposure to a plasma of fluorine-containing process gas. Alternatively, the remaining silicon oxide can be removed by a fluorine-containing acidic bath. In yet another version, a plasma of a fluorine-containing gas and an oxygen-containing gas is energized to remove the silicon oxycarbide from the substrate.

Abstract: Test substrates used to test semiconductor fabrication tools are reclaimed by reading from a database the process steps performed on each test substrate and selecting a reclamation process from a plurality of reclamation processes. The reclamation process can include crystal lattice defect or metallic contaminant reduction treatments for reclaiming each test substrate. Each test substrate is sorted and placed into a group of test substrates having a common defect or contaminant reduction treatment assigned to the test substrates of the group. Additional features are described and claimed.

Abstract: A silicon-on-insulator transfer wafer having a front surface with a circumferential lip around a circular recess is polished. In one version, the circular recess on the front surface of the wafer is masked by filling the recess with spin-on-glass. The front surface of the wafer is exposed to an etchant to preferentially etch away the circumferential lip, while the circular recess is masked by the spin-on-glass. The spin-on glass is removed, and the front surface of the transfer wafer is polished. Other methods of removing the circumferential lip include applying a higher pressure to the circumferential lip in a polishing process, and directing a pressurized fluid jet at the base of the circumferential lip.

Abstract: The present invention is a method of use of a novel cleaning solution in a single wafer cleaning process. According to the present invention the method involves using a cleaning solution in a single wafer mode and the cleaning solution comprises at least ammonium hydroxide (NH4OH), hydrogen peroxide (H2O2), water (H2O) and a chelating agent. In an embodiment of the present invention the cleaning solution also contains a surfactant. Moreover, the present invention also teaches a method of combining an ammonia hydroxide, hydrogen peroxide, and chelating agent step with a short HF step in a fashion that minimizes process time in a way that the entire method removes aluminum and iron contamination efficiently without etching too much oxide. The single wafer cleaning processes may also be used to increase the yield of high-grade reclaimed wafers.

Abstract: A silicon-on-insulator transfer wafer having a front surface with a circumferential lip around a circular recess is polished. In one version, the circular recess on the front surface of the wafer is masked by filling the recess with spin-on-glass. The front surface of the wafer is exposed to an etchant to preferentially etch away the circumferential lip, while the circular recess is masked by the spin-on-glass. The spin-on glass is removed, and the front surface of the transfer wafer is polished. Other methods of removing the circumferential lip include applying a higher pressure to the circumferential lip in a polishing process, and directing a pressurized fluid jet at the base of the circumferential lip.

Abstract: A silicon-on-insulator transfer wafer having a front surface with a circumferential lip around a circular recess is polished. In one version, the circular recess on the front surface of the wafer is masked by filling the recess with spin-on-glass. The front surface of the wafer is exposed to an etchant to preferentially etch away the circumferential lip, while the circular recess is masked by the spin-on-glass. The spin-on glass is removed, and the front surface of the transfer wafer is polished. Other methods of removing the circumferential lip include applying a higher pressure to the circumferential lip in a polishing process, and directing a pressurized fluid jet at the base of the circumferential lip.

Abstract: Test substrates used to test semiconductor fabrication tools are reclaimed by reading from a database the process steps performed on each test substrate and selecting a reclamation process from a plurality of reclamation processes. The reclamation process can include crystal lattice defect or metallic contaminant reduction treatments for reclaiming each test substrate. Each test substrate is sorted and placed into a group of test substrates having a common defect or contaminant reduction treatment assigned to the test substrates of the group. Additional features are described and claimed.

Abstract: A method of treating a substrate comprises depositing silicon oxycarbide on the substrate and removing the silicon oxycarbide from the substrate. The silicon oxycarbide on the substrate is decarbonized by exposure to an energized oxygen-containing gas that heats the substrate and converts the layer of silicon oxycarbide into a layer of silicon oxide. The silicon oxide is removed by exposure to a plasma of fluorine-containing process gas. Alternatively, the remaining silicon oxide can be removed by a fluorine-containing acidic bath. In yet another version, a plasma of a fluorine-containing gas and an oxygen-containing gas is energized to remove the silicon oxycarbide from the substrate.

Abstract: A silicon-on-insulator transfer wafer having a front surface with a circumferential lip around a circular recess is polished. In one version, the circular recess on the front surface of the wafer is masked by filling the recess with spin-on-glass. The front surface of the wafer is exposed to an etchant to preferentially etch away the circumferential lip, while the circular recess is masked by the spin-on-glass. The spin-on glass is removed, and the front surface of the transfer wafer is polished. Other methods of removing the circumferential lip include applying a higher pressure to the circumferential lip in a polishing process, and directing a pressurized fluid jet at the base of the circumferential lip.

Abstract: The present invention is a method of use of a novel cleaning solution in a single wafer cleaning process. According to the present invention the method involves using a cleaning solution in a single wafer mode and the cleaning solution comprises at least ammonium hydroxide (NH4OH), hydrogen peroxide (H2O2), water (H2O) and a chelating agent. In an embodiment of the present invention the cleaning solution also contains a surfactant. Moreover, the present invention also teaches a method of combining an ammonia hydroxide, hydrogen peroxide, and chelating agent step with a short HF step in a fashion that minimizes process time in a way that the entire method removes aluminum and iron contamination efficiently without etching too much oxide. The single wafer cleaning processes may also be used to increase the yield of high-grade reclaimed wafers.