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    • 1. 发明授权
    • Eclectrophotographic light-receiving member and process for its
production
    • 光电感光元件及其制作方法
    • US6090513A
    • 2000-07-18
    • US999839
    • 1997-03-27
    • Hiroaki NiinoKoji HitsuishiSatoshi Kojima
    • Hiroaki NiinoKoji HitsuishiSatoshi Kojima
    • G03G5/082G03G5/085
    • G03G5/08242G03G5/08235
    • An electrophotographic light-receiving member comprising a conductive support and a light-receiving layer having a photoconductive layer showing a photoconductivity, formed on the conductive support and formed of a non-monocrystalline material mainly composed of a silicon atom and containing at least one of a hydrogen atom and a halogen atom, wherein said photoconductive layer contains from 10 atomic % to 30 atomic % of hydrogen, the characteristic energy of exponential tail obtained from light absorption spectra at light-incident portions at least of the photoconductive layer is from 50 meV to 60 meV, and the density of states of localization in the photoconductive layer is from 1.times.10.sup.14 cm.sup.-3 to 1.times.10.sup.16 cm.sup.-3. Since the in-gap levels of the photoconductive layer has been controlled, the light-receiving member can be improved in environmental stability and exposure memory at the same time and have superior potential characteristics and image characteristics.
    • 一种电子摄影光接收元件,包括导电支撑体和具有光电导率的光电导层的光接收层,该光电导层形成在导电支撑体上并由主要由硅原子组成的非单晶材料形成,并且包含至少一个 氢原子和卤素原子,其中所述光电导层含有10原子%至30原子%的氢,由至少光电导层的光入射部分处的光吸收光谱获得的指数尾部的特征能量为50meV至 60meV,光电导层中的定位状态密度为1×10 14 cm -3至1×10 16 cm -3。 由于光电导层的间隙间电平已被控制,所以可以同时改善光接收元件的环境稳定性和曝光存储器,并具有优异的电位特性和图像特性。
    • 8. 发明授权
    • Light-receiving member
    • 光接收元件
    • US5407768A
    • 1995-04-18
    • US051358
    • 1993-04-23
    • Kazuyoshi AkiyamaMasaaki YamamuraRyuji OkamuraKoji Hitsuishi
    • Kazuyoshi AkiyamaMasaaki YamamuraRyuji OkamuraKoji Hitsuishi
    • G03G5/08G03G5/082G03G5/14
    • G03G5/08221G03G5/08235G03G5/08285
    • An electrophotographic light-receiving member comprising a conductive substrate 101 and laminated thereto a non-monocrystalline material photoconductive layer 102 and a surface layer 103. The photoconductive layer 102 is mainly composed of silicon atoms and contains at least carbon atoms and hydrogen atoms. The percentage of carbon atoms having a carbon-carbon bond in the photoconductive layer is controlled to be not more than 60% based on the whole carbon atoms contained therein, and, in an instance in which a blocking layer 104 is provided between the conductive substrate 101 and the photoconductive layer 102, the percentage of carbon atoms having a carbon-carbon bond in the blocking layer is also controlled. This makes it possible to prevent clusters of carbon atoms from being formed in the photoconductive layer or blocking layer. Making the carbon atoms have a uniform distribution in the silicon film enables improvement in electrophotographic performances such as charge performance, sensitivity, residual potential, ghost-free properties, etc.
    • 一种电子照相光接收元件,包括导电基底101并且层压在非单晶材料光电导层102和表面层103上。光电导层102主要由硅原子组成并且至少含有碳原子和氢原子。 光电导层中具有碳 - 碳键的碳原子百分数被控制在不超过其含有的全部碳原子的60%以下,并且在导电性基材中设置有阻挡层104的情况下 101和光电导层102,也控制了在阻挡层中具有碳 - 碳键的碳原子的百分比。 这使得可以防止在光电导层或阻挡层中形成碳原子簇。 使碳原子在硅膜中具有均匀分布,可以改善电荷性能,如充电性能,灵敏度,残留电位,无重影性能等。