Selenium-free sunglass material with brown tint

What is claimed is: 1. A glass comprising B 2 O 3 , SiO 2 , and Fe, said Fe including ferric ion (Fe 3+ ) and ferrous ion (Fe 2+ ), said glass lacking Se and having (i) a tint with a chromaticity coordinate x in the range from 0.37-0.65, and (ii) a concentration of said ferrous ion (Fe 2+ ) sufficient to provide an average percent transmittance (% T) over the wavelength range from 780 nm-2000 nm, for a thickness of 1.9 mm, of less than 3%. 2. The glass of claim 1 , wherein said glass includes 64 wt %-71 wt % SiO 2 . 3. The glass of claim 2 , wherein said glass further includes 2 wt %-8 wt % B 2 O 3 . 4. The glass of claim 3 , wherein said glass further includes 6 wt %-10 wt % Na 2 O and 7 wt %-16 wt % K 2 O. 5. The glass of claim 1 , wherein said glass further includes Fe 2 O 3 . 6. The glass of claim 5 , wherein said the concentration of said Fe 2 O 3 is in the range from 3 wt %-9 wt %. 7. The glass of claim 6 , wherein said glass further includes 64 wt %-71 wt % SiO 2 and 2 wt %-8 wt % B 2 O 3 . 8. The glass of claim 1 , wherein said glass has a tint with a chromaticity coordinate y in the range from 0.37-0.52. 9. The glass of claim 1 , wherein said glass has a tint with a chromaticity coordinate x in the range from 0.40-0.62. 10. The glass of claim 1 , wherein said glass has an average percent transmittance (% T) over the wavelength range from 780 nm-2000 nm, for a thickness of 1.9 mm, of less than 1%. 11. The glass of claim 10 , wherein said glass has an average percent transmittance (% T) over the wavelength range from 280 nm-400 nm, for a thickness of 1.9 mm, of less than 1%. 12. The glass of claim 1 , further comprising silver. 13. The glass of claim 12 , wherein said silver is present in said glass in the form of metallic particles. 14. The glass of claim 12 , wherein said silver is contained in an ion-exchange layer extending from a surface of said glass into said glass. 15. The glass of claim 14 , wherein said silver has a non-uniform concentration profile in said ion-exchange layer. 16. The glass of claim 15 , wherein said non-uniform concentration profile includes a maximum concentration of silver at said surface of said glass and a continuously decreasing concentration of silver in said glass with increasing distance from said surface. 17. The glass of claim 16 , wherein said maximum concentration of silver, as measured by depth profiling and expressed as weight percent of silver oxide, is at least 1.0 wt %. 18. The glass of claim 16 , wherein said maximum concentration of silver, as measured by depth profiling and expressed as weight percent of silver oxide, is at least 4.0 wt %. 19. The glass of claim 16 , wherein a concentration of silver at a depth of 1 μm from said surface is in the range from 10% to 90% of said maximum concentration. 20. The glass of claim 19 , wherein a concentration of silver at a depth of 5 μm from said surface is less than said concentration of silver at a depth of 1 μm from said surface and said concentration of silver at a depth of 5 μm from said surface is in the range from 5% to 90% of said maximum concentration. 21. The glass of claim 20 , wherein a concentration of silver at a depth of 10 μm from said surface is less than said concentration of silver at a depth of 5 μm from said surface and said concentration of silver at a depth of 10 μm from said surface is in the range from 10% to 85% of said maximum concentration.