主权项 |
1. An organic electrophotographic photosensitive member comprising:
a laminated body, and a hole transporting layer formed on the laminated body, wherein the laminated body comprises: a support, an electron transporting layer having a thickness of d1 [μm], formed on the support, and a charge generating layer having a thickness of d2 [μm], formed on the electron transporting layer, wherein the electron transporting layer comprises a polymer obtained by polymerizing a composition comprising an electron transporting substance having a polymerizable functional group, and wherein the laminated body satisfies the following expressions (2) and (4):
|V12−V11|≦0.35 (2), and0.101≦(Vd2−V13)/Vd2|≦0.20 (4), where, in the expressions (2) and (4), V11 represents a potential of a surface of the charge generating layer when charging the surface of the charge generating layer so that the surface has a potential of Vd1 [V] represented by the following expression (1):
Vd1=−50×(d1+d2) (1), and irradiating the surface of the charge generating layer having a potential of Vd1 with a light, followed by an interval of 0.18 seconds after the irradiation, wherein the intensity of the light is adjusted so that the potential of the surface decays by 20% with respect to Vd1 [V] when irradiating the surface of the charge generation layer, followed by an interval of 0.20 seconds after the irradiation, V12 represents a potential of a surface of the charge generating layer when charging the surface of the charge generating layer so that a potential of the surface is the Vd1 [V], and irradiating the surface of the charge generating layer having a potential of Vd1 with the light, followed by an interval of 0.22 seconds after the irradiation, and V13 represents a potential of a surface of the charge generating layer when charging the surface of the charge generating layer so that the surface has a potential of Vd2 [V] represented by the following expression (3):
Vd2=−30×(d1+d2) (3), and irradiating the surface of the charge generating layer having a potential of Vd2 with the light, followed by an interval of 0.20 seconds after the irradiation. |