Polymer compound, luminescent material, and light emitting device

The invention claimed is: 1. A luminescent composition comprising a polymer and at least one type of phosphorescent compound emitting light having a wavelength of from green to blue, wherein electron conjugated chain coefficient Z e of a major and minimum repeat unit of the polymer falls within the following range: 0< Z e ≤2.00  (1) where the electron conjugated chain coefficient Z e is defined as the slope of a linear approximation line of the following function in accordance with the least-squares method: T m =T m (1/ n e ) where n e is the number of conjugated electrons contained in a minimum repeat unit; and T m is the lowest triplet excitation energy of an m-multimer obtained by connecting the minimum repeat units where m alters from 1 to 3 by 1's, with the proviso that the number of conjugated electrons is limited to that of conjugated electrons present in the main chain of the minimum repeat unit; and when a plurality of major and minimum repeat units are present, the lowest Z e is used, and wherein the phosphorescent compound is a complex emitting light from the triplet excited state in which the central metal is a gold atom, a platinum atom, an iridium atom or a rhenium atom. 2. The composition according to claim 1 , said composition being a luminescent composition consisting of a polymer and at least one type of phosphorescent compound, wherein the electron conjugated chain coefficient Z e of the major and minimum repeat units of the polymer fall within the range (1). 3. The composition according to claim 1 , wherein, in the major and minimum repeat unit of the polymer, two or more single bonds capable of cleaving a main chain are not consecutively present on the main chain, in which the phrase “capable of cleaving a main chain” refers to the ability of cleaving the main chain when the single bond is broken. 4. The composition according to claim 1 , wherein the lowest triplet excitation energy T 1 of the polymer is 2.7 eV or more, in which the lowest triplet excitation energy T 1 of the polymer is an extrapolated value when n e is ∞, from a linear approximation line of the following function in accordance with the least-squares method T m =T m (1/ n e ) where T m is the lowest triplet excitation energy of an m-multimer obtained by connecting the minimum repeat units where m alters from 1 to 3 by 1's. 5. The composition according to claim 1 , wherein the electron conjugated chain coefficient Z e of the major and minimum repeat unit of the polymer satisfies the condition: 0< Z e ≤2.00 and the lowest triplet excitation energy T 1 of the polymer is 2.8 eV or more. 6. The composition according to claim 1 , wherein the electron conjugated chain coefficient Z e of the major and minimum repeat unit of the polymer satisfies the condition: 0< Z e ≤2.00 and the lowest triplet excitation energy T 1 of the polymer is 2.9 eV or more. 7. The composition according to claim 1 , wherein the electron conjugated chain coefficient Z e of the major and minimum repeat unit of the polymer satisfies the condition: 0< Z e ≤2.00 and the lowest triplet excitation energy T 1 of the polymer is 3.0 eV or more. 8. The composition according to claim 1 , wherein the lowest triplet excitation energy T 1 (eV) of the polymer satisfies the condition: 2.7≤ T 1 ≤5.0. 9. The composition constituted of a polymer and a phosphorescent compound according to claim 8 , wherein the polymer has a segment composed of a single type of basic structural unit; the lowest triplet excitation energy T M1 of the basic structural unit satisfies the condition: 3.6 eV≤ T M1 ≤5.5 eV; and the lowest triplet excitation energy T 1 of the segment and the conjugated chain coefficient Z (defined below) of the basic structural unit, respectively, satisfy the conditions: 2.7 eV≤ T 1 ≤5.0 eV and 0.00< Z≤ 0.50 where the conjugated chain coefficient Z of the basic structural unit is defined as the slope of a linear approximation line of the following function in accordance with a least-squares method T m =T m (1/ m ) where T m is the lowest triplet excitation energy of an m-multimer where m is the number of basic structural units and alters from 1 to 3 by 1's. 10. The composition according to claim 9 , wherein the number n e of conjugated electrons contained in the basic structural unit of the segment contained in a polymer constituting the composition satisfies the following condition: n e ≤6. 11. The composition constituted of the polymer and a phosphorescent compound according to claim 8 , wherein the polymer has a segment composed of a single type of basic structural unit; the lowest triplet excitation energy T M1 of the basic structural unit satisfies the condition: 3.2 eV≤ T M1 <3.6 eV; and the lowest triplet excitation energy T 1 of the segment, the absolute value E LUMO of the lowest unoccupied molecular orbital energy and the conjugated chain coefficient Z of the basic structural unit, respectively, satisfy the conditions below: 2.7 eV≤ T M1 ≤5.0 eV, 1.4 eV< E LUMO ≤5.0 eV and 0.00< Z≤ 0.25. 12. The composition constituted of a polymer and a phosphorescent compound according to claim 8 , wherein the polymer has a segment composed of a single type of basic structural unit; the lowest triplet excitation energy T M1 of the basic structural unit satisfies the condition: 2.9 eV≤ T M1 <3.2 eV, and the lowest triplet excitation energy T 1 of the segment, the absolute value E LUMO of the lowest unoccupied molecular orbital energy and the conjugated chain coefficient Z of the basic structural unit, respectively, satisfy the conditions. 2.7 eV≤ T 1 ≤5.0 eV, 1.4 eV< E LUMO ≤5.0 eV and 0.00< Z≤ 0.13. 13. The composition constituted of a polymer and a phosphorescent compound according to claim 8 , wherein the polymer has a segment composed of at least two types of basic structural units; the lowest triplet excitation energy T 1 of the segment and the absolute value E LUMO of the lowest unoccupied molecular orbital energy, respectively, satisfy the conditions: 2.7 eV≤ T 1 ≤5.0 eV and 1.4 eV< E LUMO ≤5.0 eV; and the conjugated chain coefficient Z (defined below) satisfies the condition: 0.00< Z≤ 0.40 where the conjugated chain coefficient Z is defined as the slope of a linear approximation line of the following function in accordance with a least-squares method T m =T m (1/ m ) where T m is the lowest triplet excitation energy of an m-multimer where m is the number of minimum units and alters from 1 to 3 by 1's, in which the minimum unit is assumed to have the same basic structural unit constitution ratio as that constituting the segment. 14. A luminescent material containing a luminescent polymer which contains a luminescent compound in the same molecule, as a partial structure, wherein a polymer having an electron conjugated chain coefficient Z e of the major and minimum repeat unit falling within the range according to claim 1 is further contained, or the electron conjugated chain coefficient Z e of the luminescent polymer falls within the range according to claim 1 . 15. The composition according to claim 1 , wherein the minimum repeat unit of a polymer contains any one of an aromatic ring, a heterocyclic ring having 5 or more members and containing a hetero atom, an aromatic amine and a structure represented by the following formula (1), wherein, on the aromatic ring and the heterocyclic ring, a substituent may be present, which is selected from the