合成了2,2’-(1,4-苯基二乙烯基)双-3,3-二甲基二氢吲哚(1),2,2’-(1,4-苯基二乙烯基)双-苯并(?)唑(2),2,2’-(1,4-苯基二乙烯基)双-苯并噻唑(3),4,4’-(1,4-苯基二乙烯基)双-喹啉(4),2,2’-(1,4-苯基二乙烯基)双-喹啉(5),2,2’-(1,4-苯基二乙烯基)双-1,3,3-三甲基二氢吲哚盐酸盐(6),2,2’-(1,4-苯基二乙烯基)双-1-氢-3,3-二甲基二氢吲哚盐酸盐(7),2,2’-(1,4-苯基二乙烯基)双-8-乙酰氧基喹啉(8),2,2’-(1,4-苯基二乙烯基)双-8-羟基喹啉(9)及9的铝配合物(10)和锌配合物(11).测定了化合物6的晶体结构.研究了合成化合物的电致发光性质.化合物1的最大发光波长为575 nm,阳离子型发光化合物最大发光波长红移至607nm(6)和611 nm(7).化合物9的最大发光波长为567 nm,桥联多核金属配合物最大发光波长红移至605nm(10)和610 nm(11).研究结果表明:通过改变分子结构,改变分子上的电子分布,从而改变其发光性质,使发光波长发生较大位移.热分析显示金属配合物10和11比有机化合物分子具有更高的热稳定性,作为电致发光材料,其可使用温度范围更大. 2,2 ’- (1,4-phenyldivinyl) bis-3,3-dimethylindoline (1), 2,2’- (2), 2,2’- (1,4-phenyldivinyl) bis-benzothiazole (3), 4,4’- (4), 2,2’- (1,4-phenyldivinyl) bis-quinoline (5), 2,2’- Yl) bis-1,3,3-trimethylindoline hydrochloride (6), 2,2 ’- (1,4-phenyldivinyl) bis- Dimethylindoline hydrochloride (7), 2,2 ’- (1,4-phenyldivinyl) bis-8-acetoxyquinoline (8) , 4-phenyldivinyl) bis-8-hydroxyquinoline (9) and the aluminum complex (10) and the zinc complex (11) of 9. The crystal structure of the compound 6 was measured. The maximum luminescence wavelength of compound 1 was 575 nm and the maximum luminescence wavelength of the cationic luminescent compound was red-shifted to 607 nm (6) and 611 nm (7). The maximum emission wavelength of compound 9 was 567 nm, The maximum luminescence wavelength of the material is red-shifted to 605 nm (10) and 610 nm (11). The results show that by changing the molecular structure and changing the electron distribution on the molecule, the luminescence properties are changed, The larger the wavelength, the larger the thermal shift.The thermal analysis shows that the metal complexes 10 and 11 have higher thermal stability than the organic compound molecules, and the electroluminescent material has a wider usable temperature range.