Abstract:
A method for fabricating an organic electro-luminescence device, comprising: forming a first conductive layer comprising a first electrode and a contact pattern on a substrate; forming a first mask on the first conductive layer, the first mask comprising an opening for exposing a portion of the first electrode and a portion of the contact pattern; forming a patterned organic functional layer by shielding of a second mask, the patterned organic functional layer covering the first mask and the first electrode exposed by the first mask, and the second mask being disposed over the first mask to shield the portion of the contact pattern exposed by the opening; forming a second conductive layer and patterning the second conductive layer by removing the first mask and a portion of the second conductive layer on the first mask to form a second electrode electrically connected to the contact pattern.
Abstract:
A method for fabricating an organic electro-luminescence device, comprising: forming a first conductive layer comprising a first electrode and a contact pattern on a substrate; foil ling a first mask on the first conductive layer, the first mask comprising an opening for exposing a portion of the first electrode and a portion of the contact pattern; forming a patterned organic functional layer by shielding of a second mask, the patterned organic functional layer covering the first mask and the first electrode exposed by the first mask, and the second mask being disposed over the first mask to shield the portion of the contact pattern exposed by the opening; forming a second conductive layer and patterning the second conductive layer by removing the first mask and a portion of the second conductive layer on the first mask to form a second electrode electrically connected to the contact pattern.
Abstract:
A method for fabricating an organic electro-luminescence device, comprising: forming a first conductive layer comprising a first electrode and a contact pattern on a substrate; forming a first mask on the first conductive layer, the first mask comprising an opening for exposing a portion of the first electrode and a portion of the contact pattern; forming a patterned organic functional layer by shielding of a second mask, the patterned organic functional layer covering the first mask and the first electrode exposed by the first mask, and the second mask being disposed over the first mask to shield the portion of the contact pattern exposed by the opening; forming a second conductive layer and patterning the second conductive layer by removing the first mask and a portion of the second conductive layer on the first mask to form a second electrode electrically connected to the contact pattern.
Abstract:
Provided is a barrier film which includes an organo-silicon polymeric composition having Si3—N4 bonds and Si—OH bonds. The peak height of Si4—N4 bonds in an infrared absorption spectrum is represented by A, and the peak height of Si—OH bonds in the infrared absorption spectrum is represented by B; and a ratio of A to B is greater than 2.
Abstract:
A method for fabricating an organic electro-luminescence device, including: on a substrate, forming a first conductive layer including a first electrode and a first contact pattern electrically insulated therefrom; on the first conductive layer, forming a first mask including a release film, a base film disposed between the release film and the first conductive layer and an opening for partially exposing the first electrode and the first contact pattern; by shielding of a second mask, forming a patterned organic functional layer partially covering the first mask and the first electrode exposed by the first mask; removing the second mask; forming a second conductive layer over the structure aforesaid; and patterning the second conductive layer by removing the release film and the second conductive layer formed thereon to form a second electrode electrically connected to the first contact pattern and a second contact pattern electrically connected to the first electrode.
Abstract:
A method for fabricating an organic electro-luminescence device, including: on a substrate, forming a first conductive layer including a first electrode and a first contact pattern electrically insulated therefrom; on the first conductive layer, forming a first mask including a release film, a base film disposed between the release film and the first conductive layer and an opening for partially exposing the first electrode and the first contact pattern; by shielding of a second mask, forming a patterned organic functional layer partially covering the first mask and the first electrode exposed by the first mask; removing the second mask; forming a second conductive layer over the structure aforesaid; and patterning the second conductive layer by removing the release film and the second conductive layer formed thereon to form a second electrode electrically connected to the first contact pattern and a second contact pattern electrically connected to the first electrode.
Abstract:
A method for fabricating an organic electro-luminescence device, comprising: forming a first conductive layer comprising a first electrode and a contact pattern on a substrate; foil ling a first mask on the first conductive layer, the first mask comprising an opening for exposing a portion of the first electrode and a portion of the contact pattern; forming a patterned organic functional layer by shielding of a second mask, the patterned organic functional layer covering the first mask and the first electrode exposed by the first mask, and the second mask being disposed over the first mask to shield the portion of the contact pattern exposed by the opening; forming a second conductive layer and patterning the second conductive layer by removing the first mask and a portion of the second conductive layer on the first mask to form a second electrode electrically connected to the contact pattern.