A method of manufacturing a sputtering target includes the steps of providing a backing structure, providing target material comprising ceramic target material for spraying, subsequently thermal spraying the target material over the backing structure thus providing a target product where at least 40% in mass, for example at least 50% in mass, of the target material including a ceramic target material, and subsequently performing hot isostatic pressing on the target product thus increasing the density of the target material.

A sputtering target containing silicon nitride (Si.sub.3N.sub.4) with reduced specific resistance of is provided. A sputtering target including Si.sub.3N.sub.4, SiC, MgO and TiCN, wherein a specific resistance of the sputtering target is 10 mΩ.Math.cm or less.

A sputtering target for an insulating oxide film, the sputtering target including a sintered body including a lanthanum oxide and at least one selected from the group consisting of a beryllium oxide, a magnesium oxide, a calcium oxide, a strontium oxide, and a barium oxide, wherein lanthanum has highest molar ratio among elements other than oxygen contained in the sintered body.

Method for building up and/or finalizing a PVD target whereas the method comprises a process step where target material is added using an additive method.

A sputtering target that includes at least two consolidated blocks, each block including an alloy including molybdenum in an amount greater than about 30 percent by weight and at least one additional alloying ingredient; and a joint between the at least two consolidated blocks, the joint being free of any microstructure due to an added bonding agent (e.g., powder, foil or otherwise), and being essentially free of any visible joint line the target that is greater than about 200 μm width (e.g., less than about 50 μm width). A process for making the target includes hot isostatically pressing, below a temperature of 1080° C., consolidated perform blocks that may be surface prepared (e.g., roughened to a predetermined roughness value) prior to pressing.

Provided are copper and copper alloy sputtering targets and sputtering target assemblies, including copper-sulfur sputtering targets, and systems and methods thereof. The copper and copper alloy sputtering targets, including copper-sulfur sputtering targets may have one or more (or all) of the following properties: high purity, uniform composition and distribution, increased or requisite mechanical stability to provide joining mechanisms, and the like. In an embodiment, the sulfur-doped copper alloy compositions and sputtering targets may have a purity of 99.999 wt % or more and/or a uniform composition of sulfur up to 5 wt %.

A sputtering target comprising a sputtering material and having a non-planar sputtering surface prior to erosion by use in a sputtering system, the non-planar sputtering surface having a circular shape and comprising a central axis region including a concave curvature feature at the central axis region. The central axis region having a wear profile after erosion by use in a sputtering system for at least 1000 kWhrs including a protuberance including a first outer circumferential wear surface having a first slope. A reference, protruding convex curvature feature for a reference target after sputtering use for the same time includes a second outer circumferential wear surface having a second slope. The protuberance provides a sputtered target having reduced shadowing relative to the reference, protruding convex curvature feature, wherein the first slope is less steep than a second slope.

A sputtering target according to the present invention contains an intermetallic compound formed of Ge, Sb, and Te in an amount of 75 mol % or more, in which a crystallite size of the intermetallic compound is 400 Å or more and 800 Å or less. The sputtering target according to the present invention may further contain one or more additive elements selected from B, C, In, Ag, Si, Sn, and S, in which a total amount of the additive elements is 25 mol % or less.

An oxide semiconductor film contains In, Ga, and Sn at respective atomic ratios satisfying formulae (1) to (3): 0.01≤Ga/(In+Ga+Sn)≤0.30 . . . (1); 0.01≤Sn/(In+Ga+Sn)≤0.40 . . . (2); and 0.55≤In/(In+Ga+Sn)≤0.98 . . . (3), and Al at an atomic ratio satisfying a formula (4): 0.05≤Al/(In+Ga+Sn+Al)≤0.30 . . . (4).

A sputtering target according to one embodiment is an integrated sputtering target comprising a target portion and a backing plate portion, both of them being made of copper and unavoidable impurities, wherein a Vickers hardness Hv is 90 or more, and wherein a flat ratio of crystal grains in a cross section orthogonal to a sputtering surface is 0.35 or more and 0.65 or less.