| Patent application number | Description | Published |
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| 20090004588 | Photoconductor structure processing methods and imaging device photoconductor structures - Photoconductor structure processing methods and imaging device photoconductor structures are described. According to one embodiment, a photoconductor structure processing method includes processing a photoconductor structure of an imaging device and wherein the photoconductor structure comprises charge transport material configured to conduct electrical charges generated responsive to reception of light to form a latent image during an electro-photographic imaging process, the processing comprising removing at least some of the charge transport material from at least a portion of the photoconductor structure. The photoconductor structure may also be further treated to reduce the migration of charge transport material. Additional embodiments are described in the disclosure. | 01-01-2009 |
| 20100328411 | PRINTING ON VINYL PRINT MEDIA - A system and method of ink-jet printing on vinyl print media can comprise jetting an ink-jet ink onto a vinyl print medium to form a printed image, and applying from 50-100° C. of heat to the printed image. The ink-jet ink can include a colorant, an aqueous liquid vehicle, and core-shell polymer particles. Upon printing and heating, at least a portion of the aqueous liquid vehicle evaporates, the vinyl print medium plasticizes (but does not flow), and the ink-jet ink flows. The fused polymer particles form a film that encapsulates at least a portion of the colorant. | 12-30-2010 |
| 20110020036 | Liquid Electrophotographic Printer - The present disclosure is drawn to apparatuses, methods, and systems involving liquid electrophotographic printing. Generally, a liquid electrophotographic printer can comprise an ink application device that is configured to apply liquid electrophotographic ink to a substrate, and a roller having a tacky surface that removes excess material from the surface of the substrate thereby pretreating the substrate prior to receiving the liquid electrophotographic ink. | 01-27-2011 |
| 20110079756 | POLYMER-ENCAPSULATED NANOPARTICLE SYSTEMS - A polymer-encapsulated nanoparticle system includes a non-aqueous medium; and polymer-encapsulated nanoparticles formed in situ in the non-aqueous medium. Each polymer-encapsulated particle has a diameter that is less than 1 micron, and includes a solid particle core, and a polymer coating established directly on the solid particle core. | 04-07-2011 |
| 20110082235 | METHOD OF MAKING A PIGMENT DISPERSION - A method for making a pigment dispersion can include dispersing pigment particles in an aqueous liquid medium to form a dispersion, adding a first monomer to form a dispersive coating on the pigment particles, adding a second monomer to the dispersion, and forming a polymer coating on the surface of the pigment particles by polymerizing the second monomer with the first monomer, wherein the polymer coating includes at least one urethane linkage or urea linkage. | 04-07-2011 |
| 20110104409 | INKJET PRINT MEDIA - An inkjet print medium includes a base substrate, a layer of a deinking solution at least partially diffused into the base substrate, and an ink-receiving layer established on the layer of the deinking solution. The deinking solution includes a flocculant in an amount ranging from about 0.1 wt. % to about 40 wt. % of a total wt. % of the deinking solution. | 05-05-2011 |
| 20110105643 | POLYMER-ENCAPSULATED NANOPARTICLES - A polymer-encapsulated nanoparticle is disclosed herein. The polymer-encapsulated colorant nanoparticle includes a colorant nanoparticle core, and a polymer coating permanently established on the colorant nanoparticle core via covalent bonding or physical bonding, the polymer coating including in situ polymerized monomers or prepolymers of a discontinuous phase of an inverse emulsion. The polymer-encapsulated colorant nanoparticle has a size ranging from about 20 nm to about 1000 nm. | 05-05-2011 |
| 20110184095 | LIGHT FAST ENCAPSULATED PIGMENT - A light fast encapsulated pigment includes an inner core region that includes a pigment and an outer shell that includes a polymer comprising a UV absorber non-covalently incorporated therein. The light fast encapsulated pigment finds use in ink compositions. | 07-28-2011 |
| 20110184096 | COATED PIGMENT COMPOSITION - A polymer-coated pigment composition includes at least one organic pigment and a coating layer non-covalently attached to an outer surface of the organic pigment. The coating layer comprises at least one metal oxide or the metalloid oxide and a polymer attached to an outer surface of the metal oxide or metalloid oxide. A method of enhancing dispersibility of an organic pigment includes coating a surface of the organic pigment with the metal oxide or the metalloid oxide, or a combination thereof, and attaching the polymer to the metal oxide or the metalloid oxide, or the combination. An ink composition includes an ink vehicle and the polymer-coated pigment composition described above. | 07-28-2011 |
| 20110184111 | POLYMER-ENCAPSULATED PIGMENT - A polymer-encapsulated pigment and a method of modifying a pigment use functional groups of an interface layer to attach a polymer to a pigment composition. The polymer-encapsulated pigment includes a pigment composition, a polymer and an interface layer. In the polymer-encapsulated pigment and the method, the interface layer is covalently attached to an outer surface of the pigment composition. The polymer is attached to the interface layer with a linking group. The linking group is attached to the interface layer by a covalent bond of a functional group. The linking group includes a nucleophilic carbon atom to which the polymer is covalently attached. | 07-28-2011 |
