Provided are novel rhodol-based compounds, the preparation method thereof, and use thereof in Tl.sup.+ flux assays. The fluorescent thallium ion sensor compounds have a rhodol fluorophore attached to an amino dicarboxylic acid metal binding moiety. The compounds are prepared in the “pro-dye” form, with the rhodol oxygen and the carboxylic acids of the metal binding unit masked by protecting groups. The disclosed compounds may be used as more red-shifted and less pH-sensitive variants of Thallos.

Provided are a lithographic printing plate precursor comprising: an image-recording layer on a support, in which the image-recording layer includes a dye compound having a decomposable group that is decomposed by an acid, heat, or both and a structure in which decomposition of the decomposable group opens a ring or desorbs a leaving group and an electron-donating polymerization initiator, a method for producing a lithographic printing plate in which the lithographic printing plate precursor is used, and a color-developing composition including a dye compound having a decomposable group that is decomposed by an acid, heat, or both and a structure in which decomposition of the decomposable group opens a ring or desorbs a leaving group and an electron-donating polymerization initiator.

A composition includes a functionalized fluorescent dye. The functionalized fluorescent dye includes an isothiocyanate-containing dye functionalized with a functional group. The functional group includes an aromatic compound with a primary amine. The functionalized fluorescent dye can be mixed with a fluid to form a tracer fluid for tracing fluid flow in a subterranean formation.

The present invention relates to compounds of formula (A), wherein Z is NR.sup.10 or O. These compounds represent novel acridinium and xanthylium salts having an unprecedented substituted heterocyclic core. They are useful as fluorescent dyes or precursors thereof in different applications including various imaging and sensing techniques, and, in particular, as photosensitizers and hereby preferably as photocatalysts. The present invention further relates to processes for preparing the inventive compounds via 1,5-organodimetallic reagents from double directed ortho-metalation reactions or combined halogen-metal exchange/directed ortho-metalation reactions. ##STR00001##

[Problems] To provide a reversibly thermochromic composition having excellent contrast between a colored state and a decolored state, and excellent light resistance, and a reversibly thermochromic microcapsule pigment encapsulating the reversibly thermochromic composition.

[Solution] Disclosed is a reversibly thermochromic composition including: (a) an electron-donating color-developing organic compound; (b) a combination of a compound having a specific structure as an electron-accepting compound; and (c) a reaction medium which reversibly induces an electron transfer reaction between the component (a) and the component (b) in a specific temperature range, and a reversibly thermochromic microcapsule pigment encapsulating the reversibly thermochromic composition.

According to one method, a sample with cells contains a phototagging agent. The sample is imaged to identify at least one target cell to be isolated. The identified target cell in the sample is selectively irradiated with photo-activating light for selectively activating the phototagging agent in the target cell to change its fluorescence response. The irradiated target cell is isolated from other cells in the sample based on a difference in its fluorescence response compared to non-activated phototagging agent in the other cells. Further aspects are directed to a corresponding microscope system and chemical compound for use as the phototagging agent.

The present invention relates to compounds of formula (A), wherein Z is NR.sup.10 or O. These compounds represent novel acridinium and xanthylium salts having an unprecedented substituted heterocyclic core. They are useful as fluorescent dyes or precursors thereof in different applications including various imaging and sensing techniques, and, in particular, as photosensitizers and hereby preferably as photocatalysts. The present invention further relates to processes for preparing the inventive compounds via 1,5-organodimetallic reagents from double directed ortho-metalation reactions or combined halogen-metal exchange/directed ortho-metalation reactions.

##STR00001##

A compound can be a pro-fluorophore peroxynitrite sensor that generates a fluorophore when cleaved by peroxynitrite, having a structure of Formula A: ##STR00001## wherein: moiety A is an ER-targeting fluorophore; Y is a linker; and moiety B is a phenol, substituted or unsubstituted, wherein the structure of Formula A is less fluorescent than the ER-targeting fluorophore moiety A.

Provided are a lithographic printing plate precursor comprising: an image-recording layer on a support, in which the image-recording layer includes a dye compound having a decomposable group that is decomposed by an acid, heat, or both and a structure in which decomposition of the decomposable group opens a ring or desorbs a leaving group and an electron-donating polymerization initiator, a method for producing a lithographic printing plate in which the lithographic printing plate precursor is used, and a color-developing composition including a dye compound having a decomposable group that is decomposed by an acid, heat, or both and a structure in which decomposition of the decomposable group opens a ring or desorbs a leaving group and an electron-donating polymerization initiator.

A compound can be a pro-fluorophore peroxynitrite sensor that generates a fluorophore when cleaved by peroxynitrite, having a structure of Formula A:

##STR00001## wherein: moiety A is an ER-targeting fluorophore; Y is a linker; and moiety B is a phenol, substituted or unsubstituted, wherein the structure of Formula A is less fluorescent than the ER-targeting fluorophore moiety A.