Modified black spinel pigments for glass and ceramic enamel applications

The invention claimed is: 1. A modified copper chromite black spinel pigment comprising a copper chromite based solid solution having a formula A a Cu b Mn c Cr d O 4 , wherein A is at least one metal selected from the group consisting of Al, Ti, Co, Ni, Zn, Zr, Nb, Y, Sb, and Ca, and wherein 2.6≤a+b+c+d≤3.2, wherein none of a, b, and d is zero. 2. The modified copper chromite black spinel pigment of claim 1 wherein the modified copper chromite black spinel pigment exhibits a reduced extrapolated CTE relative to a Cu x Mn y Cr z O4 where x+y+z=3. 3. The modified copper chromite black spinel pigment of claim 1 wherein a subscript “a” ranges from 0.01 to 0.60 and an extrapolated CTE is less than 94×10 −7 /° C. 4. The modified copper chromite black spinel pigment of claim 1 wherein the subscript “a” ranges from 0.04 to 0.4. 5. The modified copper chromite black spinel pigment of claim 1 wherein the pigment has X-ray powder diffraction peaks wherein the (4 4 0) reflection has a full width at half maximum height of 2θ<0.30° after subtraction of the Cu Kα2 component. 6. The modified copper chromite black spinel pigment of claim 1 , wherein a subscript “b”≤0.5. 7. The modified copper chromite black spinel pigment of claim 1 , wherein 0.3≤b≤0.5. 8. A glass or ceramic substrate bearing an enamel comprising the modified copper chromite black spinel pigment of claim 1 . 9. An enamel comprising the modified copper chromite black spinel pigment of claim 1 . 10. The modified copper chromite black spinel pigment of claim 1 wherein c is not zero, wherein the pigment provides a tunable CTE based on the identity of the at least one metal A and the value of subscript a, which is varied across the series of pigments. 11. The modified copper chromite black spinel pigment of claim 1 wherein c is not zero, and the full width at half maximum XRD peak for the (4 4 0) reflection is 2θ<0.3° and an extrapolated CTE is less than 94×10 −7 /° C. 12. The modified copper chromite black spinel pigment of claim 1 wherein b≤0.5 and the extrapolated CTE is less than 94×10 −7 /° C. 13. A method of producing a modified copper chromite black spinel pigment, comprising: providing precursor materials to form the formula A a Cu b Mn c Cr d O 4 of claim 1 , and heating the precursor materials to at least 820° C., to form the modified copper chromite black spinel pigment, wherein the modified copper chromite black spinel pigment exhibits a reduced extrapolated CTE relative to the modified copper chromite pigment heated at below 820° C. for less than 2 hours. 14. The method of claim 13 wherein the precursor materials are heated to one of at least 850° C. for at least 2 hours, at least 920° C. for at least 1 hour, and at least 1000° C. for at least 20 minutes, to form a modified copper chromite black spinel pigment. 15. A pigment made by the method of claim 13 wherein the XRD peak width at half height of the (4 4 0) reflection is 2θ≤0.30° after subtraction of the Cu Kα2 component. 16. A method of producing a manganese copper chromite based pigment comprising: providing precursor materials, such that when fired, form a modified manganese copper chromite spinel structure, providing oxides of at least one metal desired to modify the manganese copper chromite spinel structure, the at least one metal selected from the group consisting of Al, Ti, Co, Ni, Zn, Zr, Nb, Y, Sb, and Ca, and firing at 800-1050° C. for 0.5 to 50 hours, wherein the CTE of the pigmented enamel is less than it would be without modifying the manganese copper chromite spinel structure. 17. The method of claim 16 , wherein the pigment produced thereby exhibits a CTE of a 20% pigmented enamel expansion bar of less than 92×10 −7 /° C. 18. The method of producing a copper chromite based pigment of claim 16 , wherein the pigment is heated to either at least 850° C. for at least 2 hours or at least 920° C. for at least 1 hour.