A light to heat conversion layer which has visible light permeability, excellent near infrared absorption characteristics, and which can improve the transfer accuracy of an organic electroluminescent element using laser irradiation; and a donor sheet using the light to heat conversion layer. The light to heat conversion layer contains near infrared absorption particles and a binder component. The near infrared absorption particles are composite tungsten oxide microparticles wherein if the value for the XRD peak intensity of the face of a silicon powder standard sample (manufactured by NIST, 640c) is defined as 1, the value for the ratio of XRD peak top intensity is at least 0.13, and the light transmissivity is at least 45%.

A thermal transfer recording medium includes a base, a release layer disposed on or above the base, and a thermally fusible ink layer disposed on or above the release layer. The release layer includes wax and ethylene-propylene-ethylidene norbornene rubber.

The peel-off sheet according to the present disclosure includes a first substrate and a peel-off layer, wherein the peel-off layer contains a vinyl chloride-vinyl acetate copolymer and a crystalline polyester, or the peel-off sheet includes a structural component containing particles, wherein the particle size distribution of the particles contained in the structural component which is determined with a laser diffraction scattering particle size distribution analyzer has a maximum peak at a position of more than 0.2 μm and 5 μm or less.

A thermal transfer sheet is provided, which allows for forming an image favorable to any transfer objects having a poor smoothness or a high smoothness. The thermal transfer sheet according to the present invention includes a substrate, and a transfer layer. The transfer layer includes a release layer, a colorant layer and an adhesive layer. The release layer includes a polyethylene glycol having a number average molecular weight Mn in a range of 8000 or more to 23000 or less, and the colorant layer includes a colorant and a vinyl chloride-vinyl acetate copolymer.

A visual security feature is provided that is disposed on a target. The visual security feature includes two substantially transparent layers. At least one of the two substantially transparent layers is present in an image-wise pattern.

The present disclosure relates to a thermal transfer sheet including a first substrate and a first adhesive layer, in which the first adhesive layer is a layer to be transferred from the thermal transfer sheet by heating, and the first adhesive layer contains a crystalline polyester.

Provided are a combination of a thermal transfer sheet and an intermediate transfer medium which is capable of accurately transferring only a transfer layer of the intermediate transfer medium desired to be transferred onto a transfer receiving article in the production of a print, and a thermal transfer sheet which is used in combination with an intermediate transfer medium. Also provided are a method for producing a print, comprising accurately transferring only a transfer layer of an intermediate transfer medium desired to be transferred onto a transfer receiving article, and a thermal transfer printer which is used in this method for producing a print. In the thermal transfer sheet which is used in combination with an intermediate transfer medium, inhibit layer 2 is disposed on substrate 1, and the inhibit layer 2 contains a carnauba wax.

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. 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 thermal transfer sheet, a combination of an intermediate transfer medium and a thermal transfer sheet, method for producing a printed material using the thermal transfer sheet, and a decorative material, wherein the thermal transfer sheet includes a transfer layer on one surface of a substrate, the transfer layer having a single layer structure consisting only of a heat seal layer or a multilayer structure including a heat seal layer, and in a case where the transfer layer has the multilayer structure, the heat seal layer among the layers constituting the transfer layer is positioned closest to the substrate. The heat seal layer contains one or both of (i) a polyester having a glass transition temperature (Tg) of 55° C. or more and a number average molecular weight (Mn) of 15000 or less, and (ii) a polyester having a glass transition temperature (Tg) of less than 55° C.

A thermal transfer sheet that yields three-color black printed matter having an extremely high density, and a method for producing printed matter using the thermal transfer sheet are provided. The thermal transfer sheet includes a substrate film and a dye layer containing a magenta dye disposed on one surface of the substrate film, and the magenta dye includes at least one of an anthraquinone-based dye represented by general formula (1) below and an anthraquinone-based dye represented by general formula (2) below. An image is formed by a thermal transfer method using the thermal transfer sheet. (In general formula (1), R.sup.1 is a phenyl group which may have a substituent. In general formula (2), R.sup.2 is a hydrogen atom or an alkyl group having 1 to 4 carbon atoms. R.sup.a and R.sup.b are each independently a hydrogen atom or a nitro group.)

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