Provided herein are compounds that are able to bind metal ions (e.g., free metal ions or metal ions bound to low affinity ligands) in a sample or subject. Also provided herein are methods of using the compounds for chelating metal ions and for the treatment of diseases associated with abnormal levels of metal ions. Methods of preparing the compounds and pharmaceutical compositions are also provided.

Disclosed is a fluorescently labeled polysaccharide. The fluorescently labeled polysaccharide is formed by covalently coupling a polysaccharide to a fluorescent dye having a structure as shown in Formula I. A stable covalent bond is form between the polysaccharide molecule and the fluorescent dye molecule. The fluorescently labeled polysaccharide has high stability in serum and other detection environments, has high biocompatibility, and is applicable to the detection of carbohydrate molecules inside and outside cells. Due to a large Stokes shift of the fluorescent dye molecule, the fluorescently labeled polysaccharide has advantages of high fluorescence stability, high fluorescence quantum yields, and achieves high signal-to-noise ratios in imaging results. Further disclosed is a method for preparing the fluorescently labeled polysaccharide. The method has mild reaction conditions and high reaction selectivity, is simple to execute, and can be used to prepare a fluorescently labeled polysaccharide in high yield.

Provided herein are compounds that are able to bind metal ions (e.g., free metal ions or metal ions bound to low affinity ligands) in a sample or subject. Also provided herein are methods of using the compounds for chelating metal ions and for the treatment of diseases associated with abnormal levels of metal ions. Methods of preparing the compounds and pharmaceutical compositions are also provided.

The present invention pertains to the field of optical functional materials, in particular relates to a fluorescent dye having a structure as shown in Formula (I). The fluorescent dye having the structure is covalently bonded to the biological macromolecule, and is stable. The fluorescent dye has high sensitivity, and can be used for different applications, such as cell imaging, fluorescent probes, laser dyes, and fluorescence sensors, and exhibits excellent utility. The preparation method provided by the present invention has low raw material costs, high yields, and employs a simple process that does not produce pollution, simple process. The prepared fluorescent dye has a novel structure and excellent properties, and is suitable for wide range of applications in the fields of biology and environmental science.

A squarylium compound has high transmittance in a visible wavelength spectrum of light and is configured to selectively absorb light in an infrared/near infrared wavelength spectrum of light.

Compositions and methods for visualizing tissue under illumination with fusion compounds of near-infrared radiation using near IR, closed chain, sulfo-cyanine dyes and prostate specific membrane antigen ligands are provided.

A method of near infrared (NIR) laser processing a resin based article includes the steps of applying a composition including a specific optothermal converting agent on a surface of the article, and exposing at least part of the applied optothermal converting agent with a NIR laser. The specific optothermal converting has an improved stability towards the environment and therefore renders the laser processing method more reliable.

The present application relates to photoacoustic agents, to kits comprising such photoacoustic agents and to uses thereof such as in methods for detecting a presence of a target in a subject. The photoacoustic agents comprise a photoacoustically active moiety (for example, a near infrared dye) that is coupled to a first bioorthogonal reactive group and optionally a targeting entity for a target that is coupled to a second bioorthogonal reactive group.

Provided are dyes and compositions which are useful in a number of applications, such as the detection and monitoring protein aggregation, kinetic studies of protein aggregation, neurofibrillary plaques analysis, evaluation of protein formulation stability, and analysis of molecular chaperone activity.

Compositions and methods for visualizing tissue under illumination with fusion compounds of near-infrared radiation using near IR, closed chain, sulfo-cyanine dyes and prostate specific membrane antigen ligands are provided.