Neutral color antireflective glass substrate and method for manufacturing the same

The invention claimed is: 1. A method for producing a neutral color antireflective glass substrate, the method comprising: a) providing a N2 source gas; b) ionizing the N2 source gas so as to form a mixture of single charge ions and multicharge ions of N; c) accelerating the mixture of single charge ions and multicharge ions of N with an acceleration voltage A so as to form a beam of single charge ions and multicharge ions, wherein the acceleration voltage A is comprised between 20 kV and 25 kV and an ion dosage D is comprised between 7.5×10 16 ions/cm 2 and −5.00×10 15 ×A/kV+2.00×10 17 ions/cm 2 ; d) providing a glass substrate; and e) positioning the glass substrate in a trajectory of the beam of single charge and multicharge ions of N, wherein the glass substrate has a neutral color reflectance such that the reflectance is −1≤a*≤1 and −1≤b≤1 as measured under illuminant D65 using 10° observer angle on a side of the substrate that is treated as specified by the International Commission on Illumination after the mixture of single charge ions and multicharge ions of N has been implanted in the glass substrate. 2. The method for producing a neutral color antireflective glass substrate according to claim 1 , wherein the glass substrate comprises the following composition ranges expressed as weight percentage of the total weight of the glass: SiO 2 35-85%,  Al 2 O 3 0-30%, P 2 O 5 0-20%, B 2 O 3 0-20%, Na 2 O 0-25%, CaO 0-20%, MgO 0-20%, K 2 O       0-20%, and BaO 0-20%. 3. The method for producing a neutral color antireflective glass substrate according to claim 2 , wherein the glass substrate is selected from the group consisting of a soda-lime glass sheet, a borosilicate glass sheet and an aluminosilicate glass sheet. 4. A method, comprising employing a mixture of single charge and multicharge ions of N to decrease the reflectance of a glass substrate and at the same time keep a color in reflectance neutral, the mixture of single charge and multicharge ions being implanted in the glass substrate with an ion dosage D and an acceleration voltage A effective to reduce the reflectance of the glass substrate and at the same time keep the color in reflectance neutral, wherein the acceleration voltage A is between 20 kV and 25 kV and the ion dosage D is between 7.5×10 16 ions/cm 2 and −5.00×10 15 ×A/kV+2.00×10 17 ions/cm 2 wherein the glass substrate has a neutral color in reflectance such that the reflectance is −1<a*<1 and −1<b*<1 as measured under illuminant D65 using 10° observer angle on a side of the substrate that is treated as specified by the International Commission on Illumination after the mixture of single charge ions and multicharge ions of N has been implanted in the glass substrate. 5. The method according to claim 4 , wherein the mixture of single charge and multicharge ions is being implanted in the glass substrate with an ion dosage and an acceleration voltage effective to reduce the reflectance of the glass substrate to at most 6.5%. 6. The method according to claim 5 , wherein the mixture of single charge and multicharge ions is being implanted in the glass substrate with an ion dosage and an acceleration voltage effective to reduce the reflectance of the glass substrate to at most 6.5% and at the same time keep the color in reflectance neutral such that −0.3≤a*≤0.3 and −0.3≤b*≤0.3. 7. The method of claim 1 , wherein said antireflective glass substrate is frosted, printed or screen process printed. 8. The method of claim 1 , wherein said substrate is tinted, tempered, reinforced, bent, folded or ultraviolet filtering. 9. The method for producing a neutral color antireflective glass substrate according to claim 3 , wherein the glass substrate is a soda-lime glass sheet. 10. The method for producing a neutral color antireflective glass substrate according to claim 1 , wherein the ions are implanted to an implantation depth of from 01. μm to 1 μm. 11. The method for producing a neutral color antireflective glass substrate according to claim 1 , wherein the glass substrate has a neutral color in reflectance such that −0.3≤a*≤0.3 and −0.3≤b*≤0.3 after the mixture of single charge ions and multicharge ions of N has been implanted in the glass substrate. 12. The method for producing a neutral color antireflective glass substrate according to claim 4 , wherein the glass substrate comprises the following composition ranges expressed as weight percentage of the total weight of the glass: SiO 2 35-85%, Al 2 O 2  0-30%, P 2 O 5  0-20%, B 2 O 3  0-20%, Na 2 O  0-25%, CaO  0-20%, MgO  0-20%, K 2 O  0-20%, and BaO  0-20%. 13. The method for producing a neutral color antireflective glass substrate according to claim 12 , wherein the glass substrate is a soda-lime glass sheet. 14. The method for producing a neutral color antireflective glass substrate according to claim 4 , wherein the ions are implanted to an implantation depth of from 01. μm to 1 μm. 15. The method for producing a neutral color antireflective glass substrate according to claim 1 , wherein the acceleration voltage A is between 20 kV and 25 kV and the dosage D is between 8×10 16 ions/cm 2 and −5.00×10 15 ×A/kV+2.00×10 1