Dispersible record materials or media include a water-soluble or water-dispersible paper substrate, a printable layer carried by the substrate, and a base coat between the substrate and the printable layer. The printable layer may be a thermally responsive layer, e.g. containing a leuco dye and an acidic color developer, or an inkjet receptive layer. The binder material used in the base coat, and the base coat itself, are non-water-soluble, but nevertheless tailored in such a way that the record material as a whole is water-dispersible, i.e., it breaks apart under the influence of water with minimal agitation. The binder material of the base coat is preferably a non-resinous binder, a particulate binder, and/or a binder derived from a dispersion, such as latex. Use of such a binder material in a carefully selected concentration, with other elements, provides a base coat that allows for high quality images to be thermally printed at high print speeds on the thermally responsive layer.

Provided are a thermal transfer image-receiving sheet capable of providing a print having pearly designability and a method for producing a print.

A thermal transfer image-receiving sheet 100 including a layer constituted only by a receiving layer 2 or two or more layers including a receiving layer provided on one surface of a support 1, the receiving layer 2 being located on the outermost surface, wherein any one of layers constituting the thermal transfer image-receiving sheet contains an inorganic pigment, and when light is allowed to enter the surface on the side of the receiving layer at an incident angle of 45°, λL* between receiving angles of 110° and 15° with respect to the specular reflection angle of the incident light is 25 or more and 50 or less.

[Object] An object is to provide a thermal transfer sheet that can prevent the occurrence of layer detachment and has high transferability for preventing the occurrence of transfer defects such as delamination trace and tailing.

[Solution] The thermal transfer sheet of the invention is characterized in that it includes a substrate, a release layer, and a transfer layer in that order, and the release layer contains at least one of alumina and alumina hydrate, and a binder resin.

A recording medium according to one embodiment of the present disclosure includes a recording layer and an optical thin film. The recording layer includes a heat-sensitive color-developing composition and a photothermal conversion material. The photothermal conversion material absorbs a wavelength in an infrared region and generates heat. The optical thin film is provided on one surface of the recording layer. The optical thin film reflects the wavelength in the infrared region and transmits a wavelength in a visible region.

To provide a thermal transfer sheet capable of inhibiting residues derived from a back face layer from adhering to a thermal head, also capable of inhibiting occurrence of a kick, and having a shorter time period until the back face layer is stabilized. A thermal transfer sheet comprising; a colorant layer located on one surface of a substrate and a back face layer located on the other surface of the substrate, wherein the back face layer comprises a binder resin and inorganic particles, and the binder resin comprises a product obtained by reacting a polyisocyanate having an isocyanurate structure with a resin having hydroxyl groups at an equivalent ratio of isocyanate groups in the polyisocyanate having an isocyanurate structure to hydroxyl groups in the resin having hydroxyl groups (NCO/OH) of 0.05 or more and 0.15 or less.

A heat transfer system is provided with a first heating element that transfers ink in an ink layer to a transfer-receiving body in a first pattern, a winding part that winds an ink ribbon having ink transferred therein on the downstream side of the first heating element in such a manner that a back surface layer is positioned outside the ink layer, a second heating element that transfers ink in the ink layer to the back surface layer inside the ink layer in a second pattern near the winding part, and a controller that controls the heating elements, and the controller controls the first heating element to transfer ink corresponding to the first pattern by transferring a portion of the ink layer, and controls the second heating element to transfer ink corresponding to the second pattern by transferring the ink layer as a whole.

A heat-sensitive recording material having i) a supporting substrate and ii) a heat-sensitive recording layer, where the heat-sensitive recording layer comprises a colour former and a colour developer mixture and the colour developer mixture comprises a) N-[2-(3-phenylureido)phenyl]benzenesulfonamide (compound of the formula (I)), where the compound of the formula (I) is in a crystalline form having an absorption band at 3401 20 cm 1 in the IR spectrum, and b) N-(4-methylphenylsulfonyl)-N-(3-(4-methylphenylsulfonyloxy)phenyl) urea (compound of the formula (II)), where the mass ratio between the compound of the formula (I) and the compound of the formula (II) is 0.5:99.5 to 35:65 or 99.5:0.5 to 65:35.

Provided is a thermosensitive recording medium including: a transparent support; a thermosensitive recording layer provided over the transparent support; and a protective layer provided over the thermosensitive recording layer, wherein the protective layer contains an ultraviolet-ray-curable resin and a pigment other than silicone resin pigments, and wherein a maximum height Rz of a surface of the protective layer is 0.2 micrometers or greater but 1.0 micrometer or less.

A heat-sensitive recording material including a substrate, a heat-sensitive recording layer which includes N-(4-methylphenylsulfonyl)-/V-(3-(4-methylphenylsulfonyloxy)pheny-purea and/or N42-(3-phenylureido)phenyl]benzol sulfonamide, and an intermediate layer which is arranged between the substrate and the heat-sensitive recording layer and which includes calcined aluminum silicate, and a method for producing a heat-sensitive recording material and to the use of calcined aluminum silicate in an intermediate layer of a heat-sensitive recording material.

To provide a thermal transfer sheet capable of inhibiting residues derived from a back face layer from adhering to a thermal head, also capable of inhibiting occurrence of a kick, and having a shorter time period until the back face layer is stabilized.

A thermal transfer sheet comprising; a colorant layer located on one surface of a substrate and a back face layer located on the other surface of the substrate, wherein the back face layer comprises a binder resin and inorganic particles, and the binder resin comprises a product obtained by reacting a polyisocyanate having an isocyanurate structure with a resin having hydroxyl groups at an equivalent ratio of isocyanate groups in the polyisocyanate having an isocyanurate structure to hydroxyl groups in the resin having hydroxyl groups (NCO/OH) of 0.05 or more and 0.15 or less.