Abstract: The present invention provides an image forming method which is featured by the advantages such as a high-quality image, a relatively high speed operation, a low running cost, energy saving, resource saving and friendliness to both environments and users.First, there is prepared an image forming medium which comprises on an electroconductive substrate an electroconductive polymer layer capable of taking in and holding an ionic dye as a result of the change in at least two states selected from the group consisting of an oxidized state, a neutral state and a reduced state of the electroconductive polymer and which holds an ionic dye. Next, an image receiving medium, which has OH.sup.- ions having the same polarity as that of the ionic dye held in the electroconductive polymer layer, is brought into contact with the electroconductive polymer layer. Accordingly, there occurs an ion exchange between the ionic dye held in the electroconductive polymer layer and the OH.sup.

Abstract: A method for manufacturing ink jet printheads and the product printheads derived therefrom. The method involves the electro-deposition passivation of ink channels in ink jet printheads.

Abstract: The transmittance of ionic dye molecules through a thin electrically conductive high polymer film is controlled to vary between at least two states of the film as selected from among oxidized, neutral and reduced states, such that the ionic dye molecules are transferred onto a recording medium, thereby forming an image. A surface of a substrate having fine pores through which the ionic dye molecules can pass is provided with the thin electrically conductive high polymer film to fabricate a cylindrical printing unit 16, which is provided in a face-to-face relationship with an electrode unit 17 such that a voltage can be applied therebetween. The printing unit 16 is filled with a solution 21 containing ionic dye molecules. When electrodes in the electrode unit 17 are supplied with a potential pattern that brings the electrically conductive high polymer to an oxidized state, the ionic dye molecules are released from the printing unit 16 to form a one-dimensional image on a moving sheet of paper 17.

Abstract: This invention provides an improved electrodepositable photoimageable resist composition which includes a photosensitive composition and a microgel. The photosensitive composition can be either a negative-acting or a positive-acting photoresist. Moreover, with regard to each of these, the photoresist component can be either cationic or anionic. The microgel includes a plurality of crosslinked organic particles which can form a stable aqueous dispersion. Moreover, the microgel is present in an amount ranging from between about 0.1 to about 30 weight percent. These weight percentages are based upon the total weight of the resin solids in the photoimageable resist composition. At these concentrations, the microgels promote edge coverage, but do not significantly reduce the photosensitivity and developability properties of the photosensitive composition with which they are combined.

Abstract: A method for manufacturing ink jet printheads and the product printheads derived therefrom. The method involves the electrodeposition passivation of ink channels in ink jet printheads.

Abstract: A method for electrophoretically depositing a layer of photoresist on a non-planar silicon structure and a method for forming a non-planar silicon structure using electrophoretic deposition are provided. The method comprises forming a silicon substrate with a non-planar topography and forming a conductive layer on the substrate. The substrate is then submerged in an electrolytic bath containing a photoresist solution comprising a polymer and a charged carrier group. At the same time the conductive layer is connected to a voltage source and to a non-sacrificial electrode and electrically biased. The biased conductive layer attracts the carrier group and causes a layer of photoresist to uniformly deposit on the conductive layer. The layer of photoresist can then be exposed and developed to form a photomask for etching the conductive layer. In an illustrative embodiment the silicon structure is an interconnect for testing unpackaged semiconductor dice.

Abstract: A system and method for producing thin, uniform powder phosphors for field emission display screens wherein a planarization of the phosphor powder layer is accomplished by placing the deposited phosphor layer in an anode plate between two optical flats, which are then mounted within a mechanical press.