[1] VanSlyke S A,Tang C W Organic electroluminescent devices having improved power conversion efficiencies[P].U.S.Patent:4539507,1985.
[2] Tang C W,VanSlyke S A.Organic eleetroluminescent diodes[J].Appl.Phys.Lett,1987,51(12):913-915.
[3] Ballardini R,Varani G,Indelli M T,et al.Phosphorescent 8-quinolinol metal chelates.Excited-state properties and redox behavior[J].Inorg.Chem,1986,25(22):3858-3865.
[4] Brown A R,Pithier K,Greenham N C,et al.Optical spectroscopy of triplet excitons and charged excitations in poiy (p-phenylenevinylene)light-emitting diodes[J].Chem.Phys.Lett,1993,210(1/3):61-66.
[5] Baldo M A,O'Brien D F,You Y,et al.H High efficient phosphorescent emission from organic electroluminescent devices[J].Nature,1998,395:151-154.
[6] F(o)rster Th.Transfer mechanisms of electronic excitation[J].Faraday Discuss Chem.Soc,1959,27:7-17.
[7] Dexter D L.A theory of sensitized luminescence in solids[J].J.Chem.Phys,1953,2l(5):836-850.
[8] Klessinger M,Michl J.Excited states and photochemistry of organic molecules[M].New York:VCH Publishers,1995:26-37.
[9] Baldo M A,Thompson M E,Forrest S R.High-efficient fluorescent organic light-emitting devices using a phosphorescent sensitizer[J].Nature,2000,403:750-753.
[10] Ponterini G,Serpone N,Bergkamp M A,et al.Comparison of radiation less decay processes in osmium and platinum porphyrins[J].J.Am.Chem.Soc,1983,105:4639-4645.
[11] Lee S K,Okura I.Porphyrin-doped sol-gel glass as a probe for oxygen sensing[J].AnaL.Chim.Acta,1997,342:181-188.
[12] Garbuzov D Z,Bulovic V,Burrows P E,et al.Photoluminescence efficiency and absorption of aluminum-tris-quinolate(Alq3) thin films[J].Chem.Phys.Lett,1996,249:433-437.
[13] Rodriguez J,McDowell L,Holten D.Elucidation of the role metal to ring charge-transfer states in the deactivation of photo-excited ruthenium porphyrin carbonyl complexes[J].Chem.Phys.Lett,1988,147:235-240.