The disclosure provides dyes for marking hydrocarbon compositions. More particularly, the disclosure relates to non-mutagenic dyes for marking hydrocarbon compositions.

A liquid candle dye and a method for producing liquid candle dye related to the field of dye technology are provided, wherein the liquid candle dye by weight comprises: 40˜80 parts of an oil-soluble dye; 30˜80 parts of a solvent; and 10-20 parts of an auxiliary agent. The method for producing liquid candle dye of which a preparation method is as follows is provided: step 1: preparing materials according to any one of claims 1 to 3; step 2: soaking the oil-soluble dye in the solvent to dissolve; step 3: putting a soaked mixture in step 2 into a stirring device for stirring and then filtering; and step 4: adding the auxiliary agent to a filtered mixture in step 3, stirring evenly, and then forming a finished product.

Provided are processes for producing fluorescent naphthalimide diesters of Formula (I), useful as fluorescent tracer dyes for fluid system leak detection, wherein each of R.sup.1 and R.sup.2 is, independently of the other, a saturated, linear hydrocarbon chain having from 2 to 10 carbon atoms; and each of Z.sup.1 and Z.sup.2 is, independently of the other, a fatty acid moiety having a saturated or unsaturated, linear or branched, hydrocarbon chain having from 8 to 24 carbon atoms, and from 0 to 4 double bonds. Also provided are compositions of the aforesaid diesters of Formula (I). ##STR00001##

The present disclosure discloses application of a deep eutectic solvent in textile dyeing, belonging to the technical field of ecological dyeing and finishing of textiles. A natural hydrophobic deep eutectic solvent system (HDES) is first used as a dyeing medium to perform reactive dyeing on cotton. Firstly, the prepared natural hydrophobic deep eutectic solvent is mixed with a small amount of dye aqueous solution at high speed to prepare dye liquor, and then cotton fabric soaked with alkali liquor is put into a dye bath for dyeing. The dyeing method doesn't require addition of inorganic salts and other dyeing auxiliaries, but uses a small amount of water and alkali agent to achieve the same dyeing effect as traditional water bath, and the dyeing medium is safe and environment-friendly. After dyeing, cyclic dyeing can be achieved by simply separating the dye bath, which truly realizes green dyeing of reactive dyes.

The invention relates to a malodor counteractancy or counteracting (MOC) method that resorts to the use of specific malodor counteracting (MOC) mixtures of fragrance ingredients. More particularly, the invention relates to new MOC compositions capable of neutralizing or masking in an efficient manner malodors of a large variety of such as body or as malodors, kitchen malodors, toilet and bathroom malodors, and tobacco malodor. The novel MOC compositions of the invention contain at least one nitrite material in combination with another fragrance material and can be used in any finished consumer products such as air fresheners, kitchen or toilet/bathroom cleaning or freshening products, textile treatment products and products for application on the human skin or hair, or on animal fur, litter containers or cages.

The disclosure provides dyes for marking hydrocarbon compositions. More particularly, the disclosure relates to non-mutagenic dyes for marking hydrocarbon compositions.

The disclosure provides dyes for marking hydrocarbon compositions. More particularly, the disclosure relates to non-mutagenic dyes for marking hydrocarbon compositions.

The present invention concerns a method for the partial dyeing, in particular for the colour laser engraving, of plastic components, in particular thermoplastic plastic components, more particularly thermoplastic plastic components, comprising a layer construction as well as the resulting partially dyed, preferably colour laser engraved plastic components, in particular thermoplastic plastic components.

The present invention concerns a method for the partial dyeing, in particular for the colour laser engraving, of plastic components, in particular thermoplastic plastic components, more particularly thermoplastic plastic components, comprising a layer construction as well as the resulting partially dyed, preferably colour laser engraved plastic components, in particular thermoplastic plastic components.

A liquid concentrate of pigments of mineral and organic hybrid solid particles of 0.5 to 2 m, including a copolymer consisting of: 5 to 40 wt % of anchor sequence(s) consisting of a linear copolymer formed from a first monomer with a basic nitrogenous group added from compound(s) selected from vinylpyridines, and a second monomer of the anchor sequence consists of an ethylene monomer containing an aromatic group, the weight content of the first monomer relative to the second monomer being 40-60 wt %, 25 to 90 wt % of the hydrophobic sequence(s) obtained from a polymer-substituted ethylene macromonomer of which the monomer units contain COOR.sub.10 groups, where R.sub.10 is an optionally substituted C1-C10 alkyl, and 5 to 70 wt % of hydrophilic sequence(s) obtained from an ethylene macromonomer substituted by a hydrophilic sequence comprising a polyethylene glycol sequence substituted by a terminal alkoxy group, or connected to a polypropylene glycol sequence.