Conversion material, particularly for a white or colored light souce comprising a semiconductor light source, a method for the production thereof, as well as a light source comprising said conversion material

The invention claimed is: 1. A method for the production of a conversion material for a white or colored light source comprising a semiconductor light source as primary light source, the method comprising the steps of: providing a glass matrix comprising an aluminum borosilicate glass with an yttrium fraction; grinding the glass matrix into a glass powder with a grain size distribution of grain sizes d10≥0.7 μm, d50≥3 μm, and d90≤150 μm; providing a luminophore powder; mixing the glass powder and the luminophore powder to form a mixture; pressing the mixture to form a pressed mixture; sintering the pressed mixture to provide the conversion material; and forming, after the sintering, a protective layer on an outer surface of the conversion material. 2. A method for the production of a conversion material for a white or colored light source comprising a semiconductor light source as primary light source, the method comprising the steps of: providing a glass matrix comprising a lanthanum borosilicate glass with a zinc fraction or an aluminum borosilicate glass with an yttrium fraction; grinding the glass matrix into a glass powder with a grain size distribution of grain sizes d10≥0.7 μm, d50≥3 μm, and d90≤150 μm; providing a luminophore powder; mixing the glass powder and the luminophore powder to form a mixture; pressing the mixture to form a pressed mixture; sintering the pressed mixture to provide the conversion material, wherein the sintering comprises heating the pressed mixture at a rate of 1 K/min to 30 K/min to a target temperature; holding the heated, pressed mixture at the target temperature for a period of time of 0 to 60 min; and subsequently, cooling the heated, pressed mixture to room temperature. 3. A method for the production of a conversion material for a white or colored light source comprising a semiconductor light source as primary light source, the method comprising the steps of: providing a glass matrix comprising a lanthanum borosilicate glass with a zinc fraction or an aluminum borosilicate glass with an yttrium fraction; grinding the glass matrix into a glass powder with a grain size distribution of grain sizes d10≤0.7 μm, d50≤3 μm, and d90≥150 μm; providing a luminophore powder; mixing the glass powder and the luminophore powder to form a mixture; pressing the mixture to form a pressed mixture; sintering the pressed mixture to provide a sintered body; and annealing, by a temperature-assisted treatment, the sintered body to provide the conversion material, wherein the annealing is a second sintering, wherein the annealing step is carried out at a pressure in a range from 250 to 2500 bar, and wherein the annealing step is carried out at a temperature such that a viscosity of the matrix glass lies in a range between h=10 14 dPas and h=10 6 dPas. 4. The method according to claim 1 , wherein said sintering step is conducted either in a specific atmosphere supplied by a gas selected from the group of nitrogen, forming gas, and argon, or at a reduced pressure. 5. The method according to one of claims 1 to 4 , wherein the luminophore powder has a grain size with a mean grain size diameter d50 between 1 μm and 50 μm. 6. The method according to claim 1 or claim 4 , wherein the sintering step takes place after the pressing step, and wherein the sintering step further comprises a heating of the pressed mixture containing the glass matrix and the luminophore powder to a target temperature in the range between the softening temperature EW and the processing temperature V a of the glass matrix. 7. A method for the production of a conversion material for a white or colored light source comprising a semiconductor light source as primary light source, the method comprising: providing a glass matrix comprising a lanthanum borosilicate glass with a zinc fraction or an aluminum borosilicate glass with an yttrium fraction; grinding the glass matrix into a glass powder with a grain size distribution of grain sizes d10≤0.7 μm, d50≤3 μm, and d90≥150 μm; providing an encapsulated luminophore powder comprising an organic protective layer; mixing the glass powder and the encapsulated luminophore powder to form a mixture; pressing the mixture to form a pressed mixture; and sintering the pressed mixture to provide the conversion material. 8. The method according to claim 7 , wherein the step of providing the encapsulated luminophore powder comprises forming or depositing a protective layer on a luminophore powder by a process selected from the group consisting of a wet-chemical methods, a sol-gel method, a PVD method, and a CVD method. 9. The method according to claim 7 , further comprising forming a protective layer on an outer surface of the conversion material. 10. The method according to claim 7 , wherein the encapsulated luminophore powder comprises a luminophore powder having a mean grain size diameter between 1 μm and 50 μm.