@article{oai:soar-ir.repo.nii.ac.jp:00011446,
 author = {Yoshino,  K and Lee,  SB and Sonoda,  T and Kawagishi,  H and Hidayat,  R and Nakayama,  K and Ozaki,  M and Ban,  K and Nishizawa,  K and Ohta,  K and Shirai,  H},
 issue = {12},
 journal = {JOURNAL OF APPLIED PHYSICS},
 month = {Dec},
 note = {Comparative study of optical properties of alkylthio-group-substituted phthalocyanine rare-earth metal sandwich complexes ([(CnS)(8)Pc](2)M,M=Eu,Lu,Tb) is presented. Photoluminescence and photoconductivity of [(CnS)(8)Pc](2)M complex is very weak. Two photoluminescence bands were observed at around 400-650 and 720-800 nm in chloroform solution corresponding to the Soret and Q bands in the absorption spectra, respectively. However, the emission from Eu3+ ion (as well as Tb3+) was not found compared with other Eu complexes because the 5d levels of the Eu3+ ion lie higher than the triplet level of the ligand. The significant enhancement of the photoconductivity of [(C16S)(8)Pc](2)M after C-60 doping is reported. The photoconductivity is positive at the low electric field in the ohmic regime while it becomes negative at the high electric field upon photoexcitation with strongly absorbed light. The negative photoconductivity is attributed to space-charge effects. The mechanism of photoluminescence and photoconductivity are discussed by taking the electronic energy schemes of phthalocyanine ligands and lanthanide ion and C-60 into consideration., Article, JOURNAL OF APPLIED PHYSICS. 88(12):7137-7143 (2000)},
 pages = {7137--7143},
 title = {Optical properties of substituted phthalocyanine rare-earth metal complexes},
 volume = {88},
 year = {2000}
}