A thermosensitive recording body has at least a thermosensitive recording layer and a topcoat layer formed on a substrate. The substrate consists of a transparent film. At least the thermosensitive recording layer and the topcoat layer includes a diffuse reflection suppressor component that suppresses diffuse reflection of light from particles constituting the thermosensitive recording layer and the topcoat layer.

The invention relates to a heat-sensitive recording material, comprising: a support material in sheet form, a color layer on one side of the support material in sheet form; and a heat-sensitive layer on the color layer, so that the color layer is at least partially covered, the heat-sensitive layer being such that it becomes translucent by local application of heat, so that the underlying color layer becomes visible; and a protective layer on the heat-sensitive layer, the protective layer containing less than 5% by weight of pigments. The invention also relates to its use as a receipt roll, adhesive label (roll), ticket (roll) or as printer paper for mechanical printers or pens.

A thermosensitive recording medium is provided that is excellent in heat discoloration resistance in the blank portions and in bar code readability. It also has excellent water resistance and printing (recording) run-ability. The thermosensitive recording medium includes a support, a thermosensitive recording layer installed on the support, and a protective layer on the thermosensitive recording layer. The thermosensitive recording layer contains two kinds of electron accepting color developing agents, a sulfonic acid compound and a diphenyl sulfone compound. Both the thermosensitive recording layer and the protective layer contain crosslinking agents, and at least one, and preferably both, of the thermosensitive recording layer and the protective layer contain an ammonium zirconium carbonate as the crosslinking agent.

A thermal transfer image receiving sheet including a substrate having a surface, a heat-insulating layer formed on the surface, an undercoat layer formed on the heat-insulating layer, and a dye-receiving layer formed on the undercoat layer. The undercoat layer includes as a main component a polycondensate made from i) at least one of an alkoxide, a hydrolyzate of an alkoxide, and tin chloride, ii) a water-soluble polymer, iii) a vinyl pyrrolidone-vinyl imidazole copolymer, and iv) a urethane resin.

Provided is a thermal transfer sheet which has satisfactory printability and provides a printed matter having excellent boiling resistance. Disclosed is a thermal transfer sheet which is provided with a substrate, at least a transferable protective layer and a transferable color layer in this order on one side of the substrate, and is provided with a back face layer on the other side of the substrate, characterized in that the transferable protective layer contains a cyclic olefin-based polymer having a glass transition temperature of 100 C. or more as a main component and further contains an incompatible resin with the cyclic olefin-based polymer, and the transferable color layer contains a colorant and a phenolic resin having a softening point of 100 C. or more.

The optical patterning mask had a protection layer on a light absorption layer. It prevents the light absorption layer from damaged by the cleaning gas when processing the used optical patterning mask for reuse. The protection layer may be made of the same material as bank layer or of material different from the bank layer. The bank layer defines the boundary of the area to be transferred in the transfer layer. The protection layer of the present invention can maintain longer the transfer efficiency of the optical patterning mask, even when the same mask is used repeatedly after cleaning, since the light absorption layer protected from cleaning process can maintain longer its heat conversion property.

A polyester film has a wax on a surface of one side of the film and is a polyester film in which this wax is dispersed in the form of islands on the surface of the film, and a filling factor of the wax in the film surface is 20 to 45%, and, as for a number of islands of the wax dispersed in the form of islands and each of which has an area of 200 m.sup.2 or larger, there is one or less/10000 m.sup.2.

Provided is thermally imagable media in which selected areas may be thermally activated to change color. The thermally imagable media includes a substrate having a first and second surface, the first surface supporting a thermally imagable coating, an extender coating, and a top coating such that when activated the thermally imagable coating produces a visible color. The thermally imagable media is activated in a direct thermal printer.

A substrate coated with a markable ink formulation, comprising AOM. Further, the substrate is covered by a thermoplastic polymer layer, such that the ink formulation is situated between the substrate and the thermoplastic polymer layer and/or in the thermoplastic polymer layer.

Provided are a label, a top layer material formed on a printing medium, an information-bearing medium, a solid fuel and a wristband clip having the function of absorbing carbon dioxide, and carbon dioxide reduction methods using the same. Provided are labels 101, 120, 130 and 140, top layer materials formed on a printing medium 201, 246 and 266, information-bearing media 301, 330, 350 and 360, a solid fuel 401, and a wristband clip 510, to which a new carbon dioxide absorbent is added. Provided are also carbon dioxide reduction methods of absorbing carbon dioxide by burning the same.