Phosphor, method for preparing phosphor, optoelectronic component, and method for producing optoelectronic component

What is claimed is: 1. A phosphor comprising the following general formula: La 3(1−x) Ga 1−y Ge 5(1−z) O 16 : 3xA 3+ , yCr 3+ , 5zB 4+ , wherein x<1,0<y<1, z<1, and x and z do not equal to 0 simultaneously; A represents at least one of Gd and Yb; and B represents at least one of Sn, Nb, and Ta. 2. The phosphor according to claim 1 , wherein 0<3x 0.3, 0<y 0.2, 0 5z 0.2. 3. The phosphor according to claim 1 , wherein 0 3x 0.3, 0<y 0.2, 0<5z 0.2. 4. The phosphor according to claim 1 , further comprising the following general formula: La 3(1−x) Ga 1−y Ge 5 O 16 : 3xA 3+ , yCr 3+ , wherein 0<3x 0.3, 0<y 0.2. 5. The phosphor according to claim 1 , further emitting light in a range of 600-1500 nm when excited by the excitation light having a wavelength of 400-500 nm. 6. The phosphor according to claim 5 , further emitting the light comprising a radiant flux 4-70 mW. 7. The phosphor according to claim 1 , being prepared by a method comprising steps of: Weighing starting precursors selected from oxide or carbonate containing materials and mixing raw materials for providing elements in the general formula according to the general formula of the phosphor, then sintering at a temperature of 1200-1500° C. for about 5-6 hours to obtain the phosphor. 8. The phosphor according to claim 1 , being prepared by a method comprising steps of: Preparing and mixing raw materials for providing elements in the general formula according to the general formula of the phosphor, then sintering at a temperature of 1200-1500° C. to obtain the phosphor. 9. An optoelectronic component, comprising: a semiconductor chip for emitting excitation light during operation of the optoelectronic component; and a conversion unit provided with the phosphor according to claim 1 for converting the excitation light into emitted light. 10. The optoelectronic component according to claim 9 , wherein the excitation light has a wavelength of 450 nm or 460 nm, and the emitted light has a wavelength of 650-1050 nm. 11. The optoelectronic component according to claim 9 , wherein the semiconductor chip is a blue LED chip. 12. A method for producing an optoelectronic component, comprising steps of: producing a conversion unit on which the phosphor according to claim 1 is provided; and mounting the conversion unit on a semiconductor chip, wherein the semiconductor chip is used to generate excitation light during operation of the optoelectronic component.