Thermoelectric alloy, method for producing the same and thermoelectric alloy composite

What is claimed is: 1. A method for producing a thermoelectric alloy, comprising: providing a starting material, wherein the starting material includes germanium (Ge), tellurium (Te), bismuth (Bi), zinc (Zn), antimony (Sb), selenium (Se), copper (Cu), indium (In), gallium (Ga), silver (Ag), cobalt (Co), iron (Fe) and/or lead (Pb); performing an oxidation process to the starting material for producing an oxidized material composition, wherein based on the oxidized material composition as 100 atom percent (at %), an oxygen content of the oxidized material composition is 0.001 at % to 10 at %; adding the oxidized material composition and a carburizing agent into a quartz tube, and performing a sealing process, so as to form a sealed quartz tube; and performing a carburization process to the sealed quartz tube, thereby producing the thermoelectric alloy. 2. The method for producing the thermoelectric alloy of claim 1 , wherein the carburizing agent is in a form of a solid, a liquid, a gas and/or a plasma. 3. The method for producing the thermoelectric alloy of claim 1 , wherein the operation of adding the oxidized material composition and the carburizing agent into the quartz tube comprises: adding the carburizing agent into the quartz tube and performing a carbon coating process, so as to form a carbon film on an inner surface of the quartz tube; and adding the oxidized material composition into the quartz tube having the carbon film. 4. The method for producing the thermoelectric alloy of claim 1 , wherein a vacuum degree of the sealed quartz tube is not larger than 0.03 mbar. 5. The method for producing the thermoelectric alloy of claim 1 , wherein the carburization process includes a heating step, and the heating step is heated from 200° C. to a melting point of the starting material. 6. The method for producing the thermoelectric alloy of claim 5 , wherein a cooling rate of the carburization process is 2° C./hour to 10° C./hour. 7. The method for producing the thermoelectric alloy of claim 1 , after performing the carburization process, further comprising: performing a crystal growth process to the thermoelectric alloy.