Patent application number | Description | Published |
20080213496 | Method of coating semiconductor processing apparatus with protective yttrium-containing coatings - Methods of applying specialty ceramic materials to semiconductor processing apparatus, where the specialty ceramic materials are resistant to halogen-comprising plasmas. The specialty ceramic materials contain at least one yttrium oxide-comprising solid solution. Some embodiments of the specialty ceramic materials have been modified to provide a resistivity which reduces the possibility of arcing within a semiconductor processing chamber. | 09-04-2008 |
20080233022 | METHOD OF FABRICATING PLASMA REACTOR PARTS - A method of fabricating silicon parts are provided herein. The method includes growing a silicon sample, machining the sample to form a part, and annealing the part by exposing the part sequentially to one or more gases. Process conditions during silicon growth and post-machining anneal are designed to provide silicon parts that are particularly suited for use in corrosive environments. | 09-25-2008 |
20080261800 | EROSION RESISTANCE ENHANCED QUARTZ USED IN PLASMA ETCH CHAMBER - A method of fabricating doped quartz component is provided herein. In one embodiment, the doped quartz component is a yttrium doped quartz ring configured to support a substrate. In another embodiment, the doped quartz component is a yttrium and aluminum doped cover ring. In yet another embodiment, the doped quartz component is a yttrium, aluminum and nitrogen containing cover ring. | 10-23-2008 |
20080264564 | Method of reducing the erosion rate of semiconductor processing apparatus exposed to halogen-containing plasmas - A ceramic article useful in semiconductor processing, which is resistant to erosion by halogen-containing plasmas. The ceramic article is formed from a combination of yttrium oxide and zirconium oxide. In a first embodiment, the ceramic article includes ceramic which is formed from yttrium oxide at a molar concentration ranging from about 90 mole % to about 70 mole %, and zirconium oxide at a molar concentration ranging from about 10 mole % to about 30 mole %. In a second embodiment, the ceramic article includes ceramic which is formed from zirconium oxide at a molar concentration ranging from about 96 mole % to about 94 mole %, and yttrium oxide at a molar concentration ranging from about 4 mole % to about 6 mole %. | 10-30-2008 |
20080264565 | Method and apparatus which reduce the erosion rate of surfaces exposed to halogen-containing plasmas - A ceramic article which is resistant to erosion by halogen-containing plasmas used in semiconductor processing. The ceramic article includes ceramic which is multi-phased, typically including two phase to three phases. The ceramic is formed from yttrium oxide at a molar concentration ranging from about 50 mole % to about 75 mole %; zirconium oxide at a molar concentration ranging from about 10 mole % to about 30 mole %; and at least one other component, selected from the group consisting of aluminum oxide, hafnium oxide, scandium oxide, neodymium oxide, niobium oxide, samarium oxide, ytterbium oxide, erbium oxide, cerium oxide, and combinations thereof, at a molar concentration ranging from about 10 mole % to about 30 mole %. | 10-30-2008 |
20090036292 | Plasma-resistant ceramics with controlled electrical resistivity - Specialty ceramic materials which resist corrosion/erosion under semiconductor processing conditions which employ a corrosive/erosive plasma. The corrosive plasma may be a halogen-containing plasma. The specialty ceramic materials have been modified to provide a controlled electrical resistivity which suppresses plasma arcing potential. | 02-05-2009 |
20090156012 | METHOD FOR FABRICATING LOW K DIELECTRIC DUAL DAMASCENE STRUCTURES - Methods for forming dual damascene structures in low-k dielectric materials that facilitate reducing photoresist poison issues are provided herein. In some embodiments, such methods may include plasma etching a via through a first mask layer into a low-k dielectric material disposed on a substrate. The first mask layer may then be removed using a process including exposing the first mask layer to a first plasma comprising an oxygen containing gas and at least one of a dilutant gas or a passivation gas, and subsequently exposing the first mask layer to a second plasma comprising an oxygen containing gas and formed using one of either plasma bias power or plasma source power. An anti-reflective coating may then be deposited into the via and atop the low-k dielectric material. A trench may then be plasma etched through a second mask layer formed atop the anti-reflective coating into the low-k dielectric material. | 06-18-2009 |
20090214825 | Ceramic coating comprising yttrium which is resistant to a reducing plasma - Particulate generation has been a problem in semiconductor device processing in highly corrosive plasma environments. The problem is exacerbated when the plasma is a reducing plasma. Empirically produced data has shown that the formation of a plasma spray coated yttrium-comprising ceramic such as yttrium oxide, Y | 08-27-2009 |
20090302002 | METHOD AND APPARATUS FOR REMOVING POLYMER FROM A SUBSTRATE - A method and an apparatus for removing polymer from a substrate are provided. In one embodiment, an apparatus utilized to remove polymer from a substrate includes a processing chamber having a chamber wall and a chamber lid defining a process volume, a substrate support assembly disposed in the processing chamber, and a remote plasma source coupled to the processing chamber through an outlet port formed within the chamber wall, the outlet port having an opening pointing toward an periphery region of a substrate disposed on the substrate support assembly, wherein the remote plasma source is fabricated from a material resistant to hydrogen species. | 12-10-2009 |
20100160143 | Semiconductor processing apparatus comprising a solid solution ceramic of yttrium oxide and zirconium oxide - A solid solution-comprising ceramic article useful in semiconductor processing, which is resistant to erosion by halogen-containing plasmas. The solid solution-comprising ceramic article is formed from a combination of yttrium oxide and zirconium oxide. In a first embodiment, the ceramic article includes ceramic which is formed from yttrium oxide at a molar concentration ranging from about 90 mole % to about 70 mole %, and zirconium oxide at a molar concentration ranging from about 10 mole % to about 30 mole %. In a second embodiment, the ceramic article includes ceramic which is formed from zirconium oxide at a molar concentration ranging from about 96 mole % to about 94 mole %, and yttrium oxide at a molar concentration ranging from about 4 mole % to about 6 mole %. | 06-24-2010 |
20120034469 | Semiconductor processing apparatus comprising a coating formed from a solid solution of yttrium oxide and zirconium oxide - A ceramic article useful in semiconductor processing, which is resistant to erosion by halogen-containing plasmas. The ceramic article is formed from a combination of yttrium oxide and zirconium oxide. In a first embodiment, the ceramic article includes ceramic which is formed from yttrium oxide at a molar concentration ranging from about 90 mole % to about 70 mole %, and zirconium oxide at a molar concentration ranging from about 10 mole % to about 30 mole %. In a second embodiment, the ceramic article includes ceramic which is formed from zirconium oxide at a molar concentration ranging from about 96 mole % to about 94 mole %, and yttrium oxide at a molar concentration ranging from about 4 mole % to about 6 mole %. | 02-09-2012 |
20130022838 | Method of reducing plasma arcing on surfaces of semiconductor processing apparatus components in a plasma processing chamber - Specialty ceramic materials which resist corrosion/erosion under semiconductor processing conditions which employ a corrosive/erosive plasma. The corrosive plasma may be a halogen-containing plasma. The specialty ceramic materials have been modified to provide a controlled electrical resistivity which suppresses plasma arcing potential. | 01-24-2013 |
20130224498 | Semiconductor processing apparatus comprising a solid solution ceramic formed from yttrium oxide, zirconium oxide, and aluminum oxide - A solid solution-comprising ceramic article useful in semiconductor processing, which is resistant to erosion by halogen-containing plasmas. The solid solution-comprising ceramic article is formed from a combination of yttrium oxide, zirconium oxide, and aluminum oxide. In a first embodiment, the solid solution-comprising ceramic article is a solid, sintered body of the solid solution ceramic material. In a second embodiment, the solid solution-comprising article comprises a substrate underlying a solid solution-comprising coating. | 08-29-2013 |