Acid sensitive dye

Carbonless Copy Paper. In carbonless copy paper, also referred to as pressure-sensitive record sheet, an acid-sensitive dye precursor, such as crystal violet lactone or /V-hen2oy11eucomethy1ene blue, is microencapsulated with a high boiling solvent or oil within a cross-linked gelatin (76,83,84) or in synthetic mononuclear microcapsules. Microcapsules that have a starch binder are coated onto the back of the top sheet. This is referred to as a coated-back (CB) sheet. The sheet intended to receive the image is treated on the front (coated-front (CF)) with an acid. When the top sheet is mechanically impacted, the dye capsules mpture and the dye solution is transferred to the receiving sheet where the acid developer activates the dye. 

To apply the Equilibrium Law to acid solutions, a chemist must know the numerical value of the equilibrium constant, KA. Experiments which provide this information require the measurement of hydrogen ion concentration. Acid-sensitive dyes, such as litmus, offer the easiest estimate of [H+]. 

For example, conversion of PBOCST to PHOST is accompanied by an increase in absorption at ca. 280 nm (Fig. 170). Furthermore, UV absorbing polymer end groups can sometimes be detected. As mentioned earlier, UV spectroscopy is highly useful in determination of acid concentration when employed in conjunction with an acid sensitive dye. 

Barbituric acid — see also Pyrimidine-2,4,6-trione, perhydro-acidic pK, 3, 60 bromination, 3, 70 fluorination, 3, 70 structure, 3, 68 tautomerism, 2, 27 in thermography, 1, 392 Barbituric acid, iV-alkyl-chlorination, 3, 70 Barbituric acid, 5-aminomethylene-synthesis, 3, 524 Barbituric acid, 5-arylidene-pyridopyrimidines from, 3, 227 Barbituric acid, 1,3-dicyclohexyl-synthesis, 3, 113 Barbituric acid, 2-thio-sensitizing dye... 

A less accurate but more colorful way to measure pH uses a universal indicator, which is a mixture of acid-base indicators that shows changes in color at different pH values (Figure 13.5, p. 359). A similar principle is used with pH paper. Strips of this paper are coated with a mixture of pH-sensitive dyes these strips are widely used to test the pH of biological fluids,... 

Various methods have been used for the reoxidation of vat leuco dyeings atmospheric skying, hypochlorite, chlorite and acidified dichromate are now rarely employed. Atmospheric oxidation can be difficult to control and thus uneven with some dyes it is also too slow, particularly for continuous methods. Sodium hypochlorite is used only for those few black dyes that tend to become dark green when oxidised with peroxide obviously hypochlorite should be avoided with the many chlorine-sensitive dyes. Similarly sodium chlorite, acidified to below pH 5 with acetic acid, can only be used with certain dyes, although with these it certainly gives rapid oxidation. Dye selectivity is also a drawback with... 

Fluorescence resonance energy transfer (FRET) has also been used very often to design optical sensors. In this case, the sensitive layer contains the fluorophore and an analyte-sensitive dye, the absorption band of which overlaps significantly with the emission of the former. Reversible interaction of the absorber with the analyte species (e.g. the sample acidity, chloride, cations, anions,...) leads to a variation of the absorption band so that the efficiency of energy transfer from the fluorophore changes36 In this way, both emission intensity- and lifetime-based sensors may be fabricated. 

The pH optical fiber sensor without any pH-sensitive dye was also described70. Porous silica layer made by the sol-gel method was cladded onto optical fibre core and was exploited as the optical transducer. Acid-base properties of silica surface caused that the surface charge of silica changed with pH of the solution. For example saturation of the sol-gel layer with cations leads to an increase of the electron density of the film, hence, the refractive index of the film. Since the surface charge of silica depends on pH, the refractive index of silica film varies also with pH. Thus, changes of... 

Dye oxidation (e.g., tetrazolium reductase activity with 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl tetrazolium bromide, MTT 2-[4-iodophenyl]-3-[4-nitrophenyl]-5-[2,4-disulfophenyl]-2H tetrazolium monosodium salt, WST-1 3- (4,5 -carboxymethoxyphenyl) -2-(4-sulfophenyl)-2 H-tetra-zolium, MTS 2,3-bis(2-methoxy-4-nitro-5-sulfophenyl)-2H-tetrazolium-5-carboxanilide inner salt, XTT 2,2 -di-p-nitrophenyl-5,5 -diphenyl-3,3 -(3,3 -dimethoxy-4,4 -diphe-nylenej-ditetrazolium chloride, NET), Alamar blue assays, ATP concentration (e.g., luciferase assay), oxygen consumption (e.g., oxygen electrodes, phosphorescent oxygen-sensitive dyes), mitochondrial protein and nucleic acid synthesis mitochondrial mass (e.g., mitotracker dyes) mitochondrial membrane potential (e.g., tetramethylrho-damine methyl ester, TMRM tetramethylrhodamine ethyl ester, TMRE)... 

Historically, pH sensitive dyes have been extensively used as indicators in acid-base titrations and in simple spot test papers, even leading to a common phrase in our everyday language, when people or topics are described as having passed the litmus test . The use of complexometric titrations for metal ions was a later but widely... 

A variety of methods are available to detect proteins separated by electrophoresis or to measure the concentration of total protein in a solution. These methods are normally based on the binding of a dye to one of the amino acids in protein, or a color reaction with an amino acid side chain. The most commonly used stains for protein detection on gels are Coomassie Brilliant Blue (98) and silver stain (99,100). These methods detect any protein residues, either in solution or on an electrophoresis gel. Their main requirement is sensitivity, not specificity. New, more sensitive dyes are being developed for the proteomic analysis of protein structure and sequence, for example Ruby Red (101). 

HPTS is a highly water-soluble, pH-sensitive dye with a pK of 7.5 in aqueous solution [8], When in alkaline medium, pH > 7.5, acid-base equilibrium is totally displaced toward the anion form (3sPyO ) of the dye. The electronic character of 3sPyO remains unchanged after photo-excitation, and corresponds to a singlet-excited state [9], Fluorescence from this state undergoes a fast 0.4 ps Stokes shift and has a maximum at 515 nm and a lifetime of 5.3 0.1 ns [10],... 

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