中文摘要：

有机化合物因成膜以后荧光淬灭而使其应用受到很大限制，所以研究、开发能在聚集状态下呈现优异发光性能的新材料就尤为重要，由于分子间Ⅱ吼和极性共同相互作用，使得磷酰杂菲环的转动受到限制，从而使苯甲酸-2-[6-氧化-6-氢-二苯基（c，e）〈1，2〉氧杂磷酰基]-1，4-二羟基苯二酯（OP）在达到一定规整聚集程度时，荧光强度成倍增加，具有了聚集诱导发光增强（AIEE）性质，实验结果表明：浓度低于1×10^-6mol·L^-1的OP会失去AIEE性质；浓度为1×10^-4mol·L^-1的Hg^2＋，Fe^2＋和Fe^3＋会分别淬灭浓度为1×10^-5mol·L^-1OP荧光强度的26％，34％，74％，而Pb^2＋，Zn^2＋，Cd^2＋，Co^2＋，Mn^2＋，Cu^2＋，Ni^2＋，Ag^＋等离子的淬灭效率却很低，这一性质表明该化合物可以用作过渡金属离子的特异性检测材料。

英文摘要：

Fluorescence of the organic light-emitting compounds is often quenched when the luminophors are fabricated into solid thin films, which has greatly limited their scope of practical applications. So, it is important to design and synthesize the novel organic luminophors with excellent light emission property in the solid state. When 6-oxa-5-oxo-5-[2,5-di（benzoyloxyphenyl）]-5-phosphaphenanthrene （OP） aggregates to a certain degree, the fluorescence strength of OP increases proportionably, which shows obvious aggregation-induced emission enhancement （AIEE） property because the aggregation state of OP restricts rotation of the phosphaphenanthrene groups based on n-n stacking and polarity interaction between the molecules. The experimental result indicates that the concentration of OP influences AIEE property. If OP concentration was lower than 1×10^-6 mol·L^-l, AIEE property disappeared. Hg^2＋, Fe^2＋ and Fe^3＋ ions （1 × 10^-4 mol·L^-1） can efficiently quench the emission intensity of OP （2×10^-5 mol·L^-1） dunng the aggregation state formation, with the quenching efficiency to OP fluorescence being 26%, 34%, 74%, respectively and higher than those by Pb^2＋, Zn^2＋, Cd^2＋, Co^2＋, Mn^2＋, Cu^2＋, Ni^2＋ and Ag^＋ ions. This novel phenomenon may enable the molecule to find applications to discriminating chemosensors to detect the transition metal ions.