The invention is to provide a positively charging electrostatic image developing toner capable of providing a high quality and high gloss and excellent in stability in long term use and environmental stability, and especially not causing fog in the use at high temperature and high humidity condition. The present invention relates to an electrostatic image developing toner comprising toner mother particles containing a binder resin and a colorant, wherein the binder resin contains a repeating unit having 4 to 20 ether bonds, containing a carbon atom, a hydrogen atom and an oxygen atom, and accounting for a specific amount.

A foamable image forming toner includes a binder resin, a foaming agent, a colorant, a releasing agent and a charge control agent. An acid value of the toner is approximately 4 to 27 mgKOH/g.

A toner containing a toner particle that contains a binder resin including a polyester resin, and a polyolefin resin having —COOM that is a neutralized carboxy group with a monovalent metal ion M, wherein the polyolefin resin having —COOM is a polymer in which a vinyl polymer is bonded to a polyolefin, a content of a monomer unit containing —COOM in the polyolefin resin having —COOM is 1 to 20 mass %, and in a FT-IR spectrum obtained through measurement of a large particle size-side particle group and a small particle size-side particle group obtained by dividing the toner into two substantially equal parts, on a number basis, a ratio of the intensity of a maximum absorption peak in a range from 1545 cm.sup.−1 to 1555 cm.sup.−1 with respect to the intensity of a maximum absorption peak in a range from 1713 cm.sup.−1 to 1723 cm.sup.−1 exhibits a specific relationship.

A method for coating pigment particles is provided, the method comprising heating a polymer resin in a carrier fluid to dissolve the polymer resin, suspending in the carrier fluid the pigment particles to be coated; and effecting precipitation of the polymer resin from the carrier fluid, such that a coating of the resin is formed on the pigment particles.

A method for producing a toner for developing an electrostatic charge image includes aggregating at least resin particles contained in a dispersion to form aggregated particles; and heating and fusing the aggregated particles to form fused particles, in which, in the aggregating, aggregation is performed by taking out a portion of the dispersion containing the resin particles mixed in a stirring vessel, adding an aggregating agent aqueous solution thereto, passing the resulting mixture through a dispersing machine, and then returning the resulting mixture to the stirring vessel so as to circulate the dispersion, and when adding the aggregating agent aqueous solution, an aqueous solution containing an aggregating agent at a concentration of 0.1 mass % or more and 5 mass % or less is added at a flow rate q (L/min) such that a ratio of this flow rate q (L/min) to a flow rate Q (L/min) of the mixture returning from the dispersing machine to the stirring vessel is 0.01 or more and 0.1 or less.

A toner composition including a toner particle having a surface, wherein the toner particle comprises at least one toner resin; a metallic pigment bonded to the surface of the toner particle; and an insulative surface additive disposed over the metallic pigment.

A toner that is excellent in low-temperature fixability at the time of high-speed printing, achieves both hot offset resistance and winding resistance, and has such satisfactory durability as not to be liable to cause an image failure even at the time of long-term endurance. The toner includes a toner particle containing a binder resin including a first resin and a second resin, wherein the first resin is a crystalline resin, wherein the second resin is an amorphous resin, wherein, the toner has a domain-matrix structure formed of: a matrix containing the first resin; and domains each containing the second resin, wherein, an endothermic quantity ΔH (J/g) derived from the first resin satisfies a relationship of ΔH≥3, and wherein, in flow tester measurement of the toner, the following relationships are satisfied: T10≥65; T1−T10≤10.

A method for manufacturing a toner includes a pigment crushing step of kneading a pigment, a binder, and a grinding agent to obtain a pigment dispersion in which the grinding agent and the crushed pigment are dispersed in the binder; and a step of obtaining toner particles by a predetermined method using the pigment dispersion. The binder and the grinding agent are contained in the resulting toner particles.

A toner including a toner particle which contains: a resin component containing a binder resin; and an inorganic fine particle, the inorganic fine particle is at least one inorganic fine particle selected from the group consisting of (i) a particle containing CaCO.sub.3, (ii) a particle containing BaSO.sub.4, (iii) a particle containing Mg.sub.3Si.sub.4O.sub.10(OH).sub.2, and (iv) a particle containing Al.sub.2Si.sub.2O.sub.5(OH).sub.4, a number average particle diameter Dc of a primary particle of the inorganic fine particle is 100 nm or more and 1000 nm or less, when a cross section of the toner particle is observed, an inorganic fine particle domain A having a dispersion diameter of 2.0 times or more of Dc is present in the cross section, and the inorganic fine particle and the inorganic fine particle domain A occupy a specific percentage of an area in the cross section of the toner particle.

A toner contains a toner particle containing a resin component and a wax. The resin component contains a vinyl polymer A having a monomer unit A represented by the formula (A):

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In a luminance histogram created from STEM observation, the total pixel value C in luminance 0 to 9 and the total pixel value A in luminance 0 to 245 satisfy 0.000≤C/A≤0.250. When the pixel value in luminance 10 to 245 has a maximum value P at luminance X, luminance M-luminance N ranges from 120 to 235, wherein the luminance M denotes a luminance at which the pixel value falls below 20% of P for the first time from the luminance X to 245, and the luminance N denotes a luminance at which the pixel value falls below 20% of the P for the first time from the luminance X to 10.