@article{oai:sucra.repo.nii.ac.jp:00013395,
 author = {福田, 武司 and Komoriya, Mitsuo and Kobayashi, Ryohei and Ishimaru, Yoshihiro and 鎌田, 憲彦},
 journal = {Japanese Journal of Applied Physics (JJAP)},
 month = {},
 note = {http://jjap.ipap.jp/link?JJAP/48/04C162/ | http://jjap.ipap.jp/link?JJAP/48/04C162/, Organic photoconductive devices sensitive to blue, green, and red lights were achieved using poly(9,9-dioctylfluorenyl-2,7-diyl)-co-1,4-benzo-(2,1,3)-thiadiazole (F8BT), rhodamine 6G-doped poly(9,9-dioctylfluorene) (PFO), nickel tetrakis(tert-butyl)phthalocyanine-doped PFO, respectively. These organic materials can be coated by a solution process, which leads us to realize the low fabrication cost and the large device area. Selectivity of spectral responses of these organic films were good enough to divide the incident light into three color components (blue, green, and red), indicating the possibility of a color separation without a prism for high resolution cameras. Quantum efficiencies of devices were estimated by absorption coefficients of photoconductive materials and photo-induced current densities while irradiating a visible light. The quantum efficiency of a blue sensitive device was better than those of green and red sensitive devices due to the suitable energy level of the blue sensitive material, F8BT., text, application/pdf},
 pages = {04C162-1--04C162-5},
 title = {Wavelength-Selectivity of Organic Photoconductive Devices by Solution Process},
 volume = {48},
 year = {2009},
 yomi = {フクダ, タケシ and カマタ, ノリヒコ}
}