Sputtering Target Comprising Al-Te-Cu-Zr Alloy, and Method for Producing Same

1 . An Al—Te—Cu—Zr alloy sputtering target, comprising 20 at % to 40 at % of Te, 5 at % to 20 at % of Cu, 5 at % to 15 at % of Zr and the remainder of Al, wherein a Te phase, a Cu phase and a CuTe phase are not present in a structure of the target. 2 . The Al—Te—Cu—Zr alloy sputtering target according to claim 1 , wherein an Al phase, a CuAl phase, a TeZr phase and a Zr phase are present in the structure of the target. 3 . The Al—Te—Cu—Zr alloy sputtering target according to claim 1 , having a mean grain size of 10 μm or less. 4 . The Al—Te—Cu—Zr alloy sputtering target according to claim 1 , having a purity of 3N or more and an oxygen content of 3000 wt. ppm or less. 5 . The Al—Te—Cu—Zr alloy sputtering target according to claim 1 , comprising one or more elements selected from Si, C, Ti, Hf, V, Nb, Ta, lanthanoid elements, Ge, Zn, Co, Ni, Fe, Mg, Ga, S and Se. 6 . The Al—Te—Cu—Zr alloy sputtering target according to claim 1 , having a relative density of 90% or more. 7 . A method of manufacturing an Al—Te—Cu—Zr alloy sputtering target, the method comprising the steps of: dissolving a Cu raw material and a Te raw material to produce a CuTe alloy ingot; pulverizing the CuTe alloy ingot; then hot-pressing the pulverized CuTe powder and a Zr raw material powder to produce a CuTeZr alloy; then pulverizing the CuTeZr alloy; hot-pressing the pulverized CuTeZr powder and an Al raw material powder to produce a CuTeZrAl alloy. 8 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 7 , wherein the pulverized CuTe powder and the Zr raw material powder are hot-pressed at a temperature of 300° C. to 400° C. to produce the CuTeZr alloy. 9 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 7 , wherein the pulverized CuTe powder and the Zr raw material powder are hot-pressed at a temperature of 400° C. to 600° C. to produce the CuTeZr alloy. 10 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 7 , wherein during the step of pulverizing the CuTeZr alloy, the alloy is pulverized under an inert atmosphere or under vacuum. 11 . A method of manufacturing an Al—Te—Cu—Zr alloy sputtering target, the method comprising the steps of: dissolving a Cu raw material and a Te raw material to produce a CuTe alloy ingot; pulverizing the CuTe alloy ingot; then hot-pressing the pulverized CuTe powder, a Zr raw material powder and an Al raw material powder to produce the CuTeZrAl alloy. 12 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 11 , wherein the pulverized CuTe powder, the Zr raw material powder and the Al raw material powder are hot-pressed at a temperature of 300° C. to 600° C. to produce the CuTeZrAl alloy. 13 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 11 , wherein the pulverized CuTe powder has a mean grain size of 0.1 to 10 μm, the Zr raw material powder has a mean grain size of 0.1 to 10 μm, and the Al raw material powder has a mean grain size of 0.1 to 10 μm. 14 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 11 , wherein the pulverized CuTe powder is subjected to hydrogen reduction. 15 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 11 , wherein during the step of pulverizing the CuTe alloy, the alloy is pulverized under an inert atmosphere or under vacuum. 16 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 7 , wherein the pulverized CuTe powder has a mean grain size of 0.1 to 10 μm, the Zr raw material powder has a mean grain size of 0.1 to 10 μm, and the Al raw material powder has a mean grain size of 0.1 to 10 μm. 17 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 7 , wherein the pulverized CuTe powder is subjected to hydrogen reduction. 18 . The method of manufacturing an Al—Te—Cu—Zr alloy sputtering target according to claim 7 , wherein during the step of pulverizing the CuTe alloy, the alloy is pulverized under an inert atmosphere or under vacuum.