초록 ▼

A green light-emitting glass and the method of preparing the same are provided. The components with parts by mole of the green light-emitting glass are alkali oxide 25-40, Y2O3 0.01-15, SiO2 40-70, Tb2O3 0.01-15. The method of preparing the glass includes mixing alkali salt with Y2O3, SiO2 and Tb4O7

A green light-emitting glass and the method of preparing the same are provided. The components with parts by mole of the green light-emitting glass are alkali oxide 25-40, Y2O3 0.01-15, SiO2 40-70, Tb2O3 0.01-15. The method of preparing the glass includes mixing alkali salt with Y2O3, SiO2 and Tb4O7, firing the mixture at 1200° C.-1500° C. for 1-5 hours, cooling the precursor to the room temperature and annealing the precursor in a reducing atmosphere at 600° C.-1200° C. for 1-20 hours. A green light-emitting glass with good transparence, high uniformity, easily being made into big bulk and high stability is provided. The process of capsulation of parts by using the glass is simple. And a method of preparing the glass with simple process and low cost is provided.

대표청구항 ▼

1. A green light-emitting glass, wherein components with parts by mole of which are alkali oxide 25˜40, Y2O3 0.01˜15, SiO2 40˜70 and Tb2O3 0.01˜15, the alkali oxide is at least one selected from a group of Na2O and K2O. 2. The green light-emitting glass according to claim 1, wherein the components w

1. A green light-emitting glass, wherein components with parts by mole of which are alkali oxide 25˜40, Y2O3 0.01˜15, SiO2 40˜70 and Tb2O3 0.01˜15, the alkali oxide is at least one selected from a group of Na2O and K2O. 2. The green light-emitting glass according to claim 1, wherein the components with parts by mole of the green light-emitting glass are alkali oxide 30˜38, Y2O3 1˜10, SiO2 50˜65 and Tb2O3 1˜10. 3. A method of preparing the green light-emitting glass, wherein the method including mixing raw material of alkali salt, Y2O3, SiO2 and Tb4O7, firing the raw material at 1200° C.˜1500° C. for 1˜5 hours, cooling the raw material to a room temperature, annealing the raw material in a reducing atmosphere at 600° C.˜1200° C. for 1˜20 hours and then obtaining the green light-emitting glass, components with parts by mole of which are alkali oxide 25˜40, Y2O3 0.01˜15, SiO2 40˜70 and Tb2O3 0.01˜15, the alkali oxide is at least one selected from a group of Na2O and K2O. 4. The method of preparing the green light-emitting glass according to claim 3, wherein the method includes taking the alkali salt, Y2O3, SiO2 and Tb4O7 as the raw material, mixing the raw material uniformly and placing the raw material in a crucible for firing at 1300° C.-1450° C. for 1-5 hours; pouring out produced frit, cooling the produced frit to the room temperature, annealing the produced frit in a gas mixture of nitrogen and hydrogen at 650° C.-900° C. for 2-15 hours and then obtaining the green light-emitting glass, wherein a volume ratio of the nitrogen and hydrogen is 95:5; parts by mole of alkali metal element in the raw material are 50-80, parts by mole of Y element in the raw material are 0.02-30, parts by mole of Si element in the raw material are 40-70, and parts by mole of Tb element in the raw material are 0.02-30. 5. The method of preparing the green light-emitting glass according to claim 4, wherein, the parts by mole of alkali metal element in the raw material are preferably 60-76, parts by mole of Y element in the raw material are preferably 2-20, parts by mole of Si element in the raw material are preferably 50-65, and parts by mole of Tb element in the raw material are preferably 2-20. 6. The method of preparing the green light-emitting glass according to claim 5, wherein purities of the alkali salt, Y2O3, SiO2 and Tb4O7 are no less than that of an analytical reagent. 7. The method of preparing the green light-emitting glass according to claim 5, wherein the alkali salt is at least one selected from a group of sodium salt, and potassium salt. 8. The method of preparing the green light-emitting glass according to claim 7, wherein the alkali salt is at least one selected from a group of sodium carbonate, and potassium carbonate. 9. The method of preparing the green light-emitting glass according to claim 4, wherein purities of the alkali salt, Y2O3, SiO2 and Tb4O7 are no less than that of an analytical reagent. 10. The method of preparing the green light-emitting glass according to claim 4, wherein the alkali salt is at least one selected from a group of sodium salt, and potassium salt. 11. The method of preparing the green light-emitting glass according to claim 10, wherein the alkali salt is at least one selected from a group of sodium carbonate, and potassium carbonate. 12. The method of preparing the green light-emitting glass according to claim 3, wherein purities of the alkali salt, Y2O3, SiO2 and Tb4O7 are no less than that of an analytical reagent. 13. The method of preparing the green light-emitting glass according to claim 3, wherein the alkali salt is at least one selected from a group of sodium salt, and potassium salt. 14. The method of preparing the green light-emitting glass according to claim 13, wherein the alkali salt is at least one selected from a group of sodium carbonate, and potassium carbonate.