Patent application number | Description | Published |
20080210568 | Electrolytic Copper Plating Method, Phosphorous Copper Anode for Electrolytic Copper Plating, and Semiconductor Wafer having Low Particle Adhesion Plated with said Method and Anode - An electrolytic copper plating method characterized in employing a phosphorous copper anode having a crystal grain size of 1,500 μm (or more) to 20,000 μm in an electrolytic copper plating method employing a phosphorous copper anode. Upon performing electrolytic copper plating, an object is to provide an electrolytic copper plating method of a semiconductor wafer for preventing the adhesion of particles, which arise at the anode side in the plating bath, to the plating object such as a semiconductor wafer, a phosphorous copper anode for electrolytic copper plating, and a semiconductor wafer having low particle adhesion plated with such method and anode. | 09-04-2008 |
20090000704 | Hafnium Alloy Target and Process for Producing the Same - A hafnium alloy target containing either or both of Zr and Ti in a gross amount of 100 wtppm-10 wt % in Hf, wherein the average crystal grain size is 1-100 μm, the impurities of Fe, Cr and Ni are respectively 1 wtppm or less, and the habit plane ratio of the plane {002} and three planes {103}, {014} and {015} lying within 35° from {002} is 55% or greater, and the variation in the total sum of the intensity ratios of these four planes depending on locations is 20% or less. As a result, obtained is a hafnium alloy target having favorable deposition property and deposition speed, which generates few particles, and which is suitable for forming a high dielectric gate insulation film such as HfO or HfON film, and the manufacturing method thereof. | 01-01-2009 |
20090050475 | Hafnium Alloy Target and Process for Producing the Same - A hafnium alloy target containing either or both of Zr and Ti in a gross amount of 100 wtppm−10 wt % in Hf, wherein the average crystal grain size is 1-100 μm, the impurities of Fe, Cr and Ni are respectively 1 wtppm or less, and the habit plane ratio of the plane {002} and three planes {103}, {014} and {015} lying within 35° from {002} is 55% or greater, and the variation in the total sum of the intensity ratios of these four planes depending on locations is 20% or less. As a result, obtained is a hafnium alloy target having favorable deposition property and deposition speed, which generates few particles, and which is suitable for forming a high dielectric gate insulation film such as HfO or HfON film, and the manufacturing method thereof. | 02-26-2009 |
20090057142 | Hafnium Alloy Target and Process for Producing the Same - A hafnium alloy target containing either or both of Zr and Ti in a gross amount of 100 wtppm-10 wt % in Hf; wherein the average crystal grain size is 1-100 μm, the impurities of Fe, Cr and Ni are respectively 1 wtppm or less, and the habit plane ratio of the plane {002} and three planes {103}, {014} and {015} lying within 35° from {002} is 55% or greater, and the variation in the total sum of the intensity ratios of these four planes depending on locations is 20% or less. As a result, obtained is a hafnium alloy target having favorable deposition property and deposition speed, which generates few particles, and which is suitable for forming a high dielectric gate insulation film such as HfO or HfON film, and the manufacturing method thereof. | 03-05-2009 |
20090139863 | Copper Alloy Sputtering Target and Semiconductor Element Wiring - A first copper alloy sputtering target comprising 0.5 to 4.0 wt % of Al and 0.5 wtppm or less of Si and a second copper alloy sputtering target comprising 0.5 to 4.0 wt % of Sn and 0.5 wtppm or less of Mn are disclosed. The first and/or the second alloy sputtering target can further comprise one or more elements selected from among Sb, Zr, Ti, Cr, Ag, Au, Cd, In and As in a total amount of 1.0 wtppm or less. A semiconductor element wiring formed by the use of the above targets is also disclosed. The above copper alloy sputtering target allows the formation of a wiring material for a semiconductor element, in particular, a seed layer being stable, uniform and free from the occurrence of coagulation during electrolytic copper plating and exhibits excellent sputtering film formation characteristics. | 06-04-2009 |
20090140430 | Copper Alloy Sputtering Target and Semiconductor Element Wiring - A first copper alloy sputtering target comprising 0.5 to 4.0 wt % of Al and 0.5 wtppm or less of Si and a second copper alloy sputtering target comprising 0.5 to 4.0 wt % of Sn and 0.5 wtppm or less of Mn are disclosed. The first and/or the second alloy sputtering target can further comprise one or more elements selected from among Sb, Zr, Ti, Cr, Ag, Au, Cd, In and As in a total amount of 1.0 wtppm or less. A semiconductor element wiring formed by the use of the above targets is also disclosed. The above copper alloy sputtering target allows the formation of a wiring material for a semiconductor element, in particular, a seed layer being stable, uniform and free from the occurrence of coagulation during electrolytic copper plating and exhibits excellent sputtering film formation characteristics. | 06-04-2009 |
20100000871 | Electrolytic Copper Plating Method, Pure Copper Anode for Electrolytic Copper Plating, and Semiconductor Wafer having Low Particle Adhesion Plated with said Method and Anode - The present invention pertains to an electrolytic copper plating method characterized in employing pure copper as the anode upon performing electrolytic copper plating, and performing electrolytic copper plating with the pure copper anode having a crystal grain diameter of 10 μm or less or 60 μm or more. Provided are an electrolytic copper plating method and a pure copper anode for electrolytic copper plating used in such electrolytic copper plating method capable of suppressing the generation of particles such as sludge produced on the anode side within the plating bath upon performing electrolytic copper plating, and capable of preventing the adhesion of particles to a semiconductor wafer, as well as a semiconductor wafer plated with the foregoing method and anode having low particle adhesion. | 01-07-2010 |
20100219070 | Copper Alloy Sputtering Target, Process for Producing the Same and Semiconductor Element Wiring - A copper alloy sputtering target is provided and contains 0.01 to (less than) 0.5 wt % of at least one element selected from Al or Sn, and containing Mn or Si in a total amount of 0.25 wtppm or less. The above copper alloy sputtering target allows the formation of a wiring material for a semiconductor element, in particular, a seed layer being stable, uniform and free from the occurrence of coagulation during electrolytic copper plating and exhibits excellent sputtering film formation characteristics. A semiconductor element wiring formed with this target is also provided. | 09-02-2010 |
20100307923 | Electrolytic Copper Plating Method, Pure Copper Anode for Electrolytic Copper Plating, and Semiconductor Wafer having Low Particle Adhesion Plated with said Method and Anode - The present invention pertains to an electrolytic copper plating method characterized in employing pure copper as the anode upon performing electrolytic copper plating, and performing electrolytic copper plating with the pure copper anode having a crystal grain diameter of 10 μm or less or 60 μm or more. Provided are an electrolytic copper plating method and a pure copper anode for electrolytic copper plating used in such electrolytic copper plating method capable of suppressing the generation of particles such as sludge produced on the anode side within the plating bath upon performing electrolytic copper plating, and capable of preventing the adhesion of particles to a semiconductor wafer, as well as a semiconductor wafer plated with the foregoing method and anode having low particle adhesion. | 12-09-2010 |
20140027277 | Titanium Target for Sputtering - A high-purity titanium target for sputtering, which contains, as additive components, one or more elements selected from Al, Si, S, Cl, Cr, Fe, Ni, As, Zr, Sn, Sb, B, and La in a total amount of 3 to 100 mass ppm, and of which the purity excluding additive components and gas components is 99.99 mass % or higher. An object of this invention is to provide a high-quality titanium target for sputtering, which is free from fractures and cracks during high-power sputtering (high-rate sputtering) and capable of stabilizing the sputtering characteristics. | 01-30-2014 |
20140097084 | High-Purity Copper-Manganese-Alloy Sputtering Target - Provided is a high-purity copper-manganese-alloy sputtering target comprising 0.05 to 20 wt % of Mn and the remainder being Cu and inevitable impurities. The high-purity copper-manganese-alloy sputtering target is characterized in that the in-plane variation (CV value) in Mn concentration of the target is 3% or less. It is thus possible to form a thin film having excellent uniformity by adding an appropriate amount of a Mn element to copper and reducing the in-plane variation of the sputtering target. In particular, there is provided a high-purity copper-manganese-alloy sputtering target which is useful for improving the yield and the reliability of semiconductor products which are making progress in a degree of refinement and integration. | 04-10-2014 |
20140158532 | HIGH-PURITY COPPER-MANGANESE-ALLOY SPUTTERING TARGET - Provided is a high-purity copper-manganese-alloy sputtering target comprising 0.05 to 20 wt. % of Mn, 2 wt ppm or less of C, and the remainder being Cu and inevitable impurities, wherein in formation of a film on a wafer by sputtering the target, the number of particles composed of C, at least one element selected from Mn, Si, and Mg, or a compound composed of C and at least one element selected from Mn, Si, and Mg and having a diameter of 0.20 μm or more is 30 or less on average. Particle generation during sputtering can be effectively suppressed by thus adding an appropriate amount of Mn element to copper and controlling the amount of carbon. In particular, a high-purity copper-manganese-alloy sputtering target that is useful for forming semiconductor copper alloy line having a self-diffusion suppression function is provided. | 06-12-2014 |
20140284211 | High Purity Copper-Manganese Alloy Sputtering Target - A high purity copper-manganese alloy sputtering target containing 0.05 to 20 wt % of Mn and, excluding additive elements, remainder being Cu and unavoidable impurities, wherein the target contains 0.001 to 0.06 wtppm of P and 0.005 to 5 wtppm of S, and further contains Ca and Si, and a total content of P, S, Ca, and Si is 0.01 to 20 wtppm. The incorporation of appropriate amounts of Mn as well as Ca, P, Si, and S in copper improves the machinability that is required in the stage of producing a target to facilitate the manufacture (workability) of the target, improves the smoothness of the target surface, and inhibits the generation of particles during sputtering. Thus, provided is a high purity copper-manganese alloy sputtering target which is particularly useful for improving the yield and reliability of semiconductor products that progress toward miniaturization and integration. | 09-25-2014 |
20140318953 | SPUTTERING TARGET AND MANUFACTURING METHOD THEREFOR - A backing plate integrated sputtering target includes a flange part having a Vicker's hardness (Hv) of 90 or more and a 0.2% yield stress of 6.98×10 | 10-30-2014 |
20140367253 | High-Purity Copper Sputtering Target - A high-purity copper sputtering target, wherein a Vickers hardness of a flange part of the target is in a range of 90 to 100 Hv, a Vickers hardness of an erosion part in the central area of the target is in a range of 55 to 70 Hv, and a crystal grain size of the erosion part is 80 μm or less. This invention relates to a high-purity copper sputtering target that does not need to be bonded to a backing plate (BP), and aims to provide a high-purity copper sputtering target capable of forming a thin film having superior uniformity by enhancing a strength (hardness) of the flange part of the target, and reducing an amount of warpage of the target. Moreover, the uniformity of the film thickness is improved by adjusting the (111) orientation ratio of the erosion part and the flange part in the target. The present invention thereby aims to provide a high-purity copper sputtering target, which is capable of improving the yield and reliability of semiconductor products that are being subject to further miniaturization and higher integration, and useful for forming a copper alloy wiring for semiconductors. | 12-18-2014 |
20150023837 | Tungsten Sintered Compact Sputtering Target and Tungsten Film Formed Using Same Target - Provided is a tungsten sintered compact sputtering target, wherein the purity of the tungsten is 5N (99.999%) or more, and the content of impurity carbon in the tungsten is 5 wtppm or less. An object of the present invention is to decrease the specific resistance of a tungsten film sputter-deposited by using a tungsten sintered compact sputtering target by reducing a carbon content in the tungsten target. | 01-22-2015 |