A method for manufacturing an azoic pigment is disclosed, according to an illustrative embodiment of the present invention. The method includes producing slurry of the azoic pigment. The slurry includes primary aromatic amine (PAA). The method further includes the derivatization of the residual PAA in the slurry, followed by encapsulation of the slurry. The slurry is acidified or basified. Finally, the slurry is further processed, thereby forming PAA migration free azoic pigment. The derivatization and encapsulation additively or synergistically reduce the PAA content thereby inhibiting migration of PAA from the pigment into a substrate onto which the pigment is loaded.

This development pertains to polyurethane resins for producing stable pigment dispersions that are compatible with co-solvents and humectants used in aqueous ink jet inks. Inks with improved flow in printhead and penetration of substrate may be obtained.

An embodiment of the present invention is to provide a resin composition including a near infrared absorbing coloring agent represented by Formula (1) and a resin, a resin molded article, and a method of producing a resin molded article. In Formula (1), a ring A and a ring B each independently represent an aromatic ring or a heteroaromatic ring, X.sup.A and X.sup.B each independently represent a monovalent substituent, G.sup.A and G.sup.B each independently represent a monovalent substituent, kA represents an integer of 0 to n.sub.A, kB represents an integer of 0 to n.sub.B, n.sub.A represents the largest integer of G.sup.A which may be substituted in the ring A, n.sub.B represents the largest integer of G.sup.B which may be substituted in the ring B, X.sup.A and G.sup.A, and X.sup.B and G.sup.B may be respectively bonded to one another to form a ring, and in a case where a plurality of G.sup.A's and G.sup.B's are present, the plurality of G.sup.A's and the plurality of G.sup.B's may be respectively bonded to one another to form a ring structure. ##STR00001##

A usual ink composition can be expected to improve ink viscosity to a certain degree, but when used for a glycol ether-based ink recently required, an increase in viscosity in preparing the ink cannot be suppressed. In addition, there is unknown a copper phthalocyanine pigment composition which can satisfy both such an improvement in ink viscosity and resolubility as printability which is important for the glycol ether-based ink. In this situation, a problem to be solved by the present invention is to provide a copper phthalocyanine pigment composition having low viscosity and excellent resolubility in a glycol ether-based ink. It was found that when a copper phthalocyanine pigment is combined with a specified copper phthalocyanine acid derivative, a pigment composition having significantly low viscosity when formed into a glycol ether-based ink, and good familiarity with the ink can be produced, leading to the achievement of the present invention.

Co-topo-polymeric indicator compositions and methods for making and using the same are provided. Indicator compositions of the invention include a polymer and undergo a color change, which may be reversible or irreversible, in response to an applied stimulus, e.g., temperature. Aspects of methods of producing the compositions include setting a fluid co-topo-polymeric precursor composition into a solid product and then subjecting the solid product (either immediately or after a delay period) to polymerizing conditions to produce the desired indicator composition. Also provided are indicator devices that include the indicator compositions of the invention. The compositions of the invention find use in a variety of different applications.

A coloring composition containing one or more species of compounds represented by Formula (I) or Formula (II) below, wherein each of R.sub.1 and R.sub.2 represents a hydrogen atom or substituent, each of Ar.sub.1 to Ar.sub.8 independently represents an optionally substituted aromatic hydrocarbon group or optionally substituted heterocyclic group, and each of L.sub.1 and L.sub.2 independently represents a divalent linking group which interrupts ? electron conjugated system: ##STR00001##

The present invention provides a pigment dispersion and a method of producing the pigment dispersion. The pigment dispersion includes: water; a pigment; a pigment dispersing polymer; and a rosin acid that includes at least one selected from the group consisting of abietic acid, salts of abietic acid, dihydroabietic acid and salts of dihydroabietic acid, and a total content of abietic acid, salts of abietic acid, dihydroabietic acid and salts of dihydroabietic acid is 50% by mass or higher with respect to a total mass of the rosin acid contained in the pigment dispersion. The pigment dispersion is excellent in terms of dispersibility, storage stability after dispersion, and jettability when used for an inkjet recording ink.

A color-changing monofilament includes an electrically conductive core and a coating disposed around and along the electrically conductive core. The coating includes a layer of polymeric material having a color-changing pigment.

The present invention solves the problem of providing a method for stabilizing a solid pigment. The problem is solved by a method for stabilizing at least one solid pigment selected from the group consisting of solid carotenoid pigments and solid curcumin pigments, the method comprising the step of mixing the solid pigment with a lipophilic liquid in an amount of 200 parts by mass or less per 100 parts by mass of the solid pigment.

A method of manufacturing a color-changing fiber includes loading a polymeric material and a thermochromic pigment material into a fiber fabrication machine that comprises an extruder and a spinneret, operating the extruder to provide a molten mixture of the polymeric material and the thermochromic pigment material, providing a volume of the molten mixture to the spinneret, and operating the spinneret to coat an electrically conductive core with the molten mixture to form a coating layer around the electrically conductive core to produce the color-changing fiber. The polymeric material and the thermochromic pigment material are provided as (a) a first raw material comprising the polymeric material and a second raw material comprising the thermochromic pigment material or (b) a thermochromic pigment and polymer mixture.