Method of making an aqueous aniline-free or aniline-free and N-methylaniline-free leucoindigo solution from an aqueous leucoindigo solution comprising aniline or aniline and N-methylaniline, the concentration of aniline or aniline and N-methylaniline being determined according to ISO 14362-1:2017(E), wherein said leucoindigo is in the form of an alkali metal salt, the method comprising at least steps (A) to (C): (A) providing a liquid stream comprising said aqueous leucoindigo solution comprising said amine(s); (B) providing a purification stream; (C) bringing into contact said liquid stream with said purification stream.

Aqueous leucoindigo solution comprising an aromatic amine in the form of aniline or aniline and N-methylaniline, wherein said leucoindigo is in the form of an alkali metal salt;

wherein the concentration of the aromatic amine is below 40 ppm determined according to ISO 14362-1:2017(E); and
wherein the concentration of the leucoindigo salt is in a concentration range of from 15 to 45% by weight based on the total weight of the solution, and wherein the solution is stable at a temperature of 23 C.; or
wherein the concentration of the leucoindigo salt is in a concentration range of from 45 to 65% by weight based on the total weight of the solution, and wherein the solution is stable at a temperature of 60 C.

Apparatus, systems, and methods for delivery of an automatically clearing composition in a balloon.

This application discloses the approach of synthesizing cellulose acetate nanoparticles and rods which may have a chemically functionalized surface and an encapsulated cargo load. Functionalization and/or loading of the cargo are made through a physical mixing of the functionalizing and/or cargo components in the synthesizing bath. This can result in particles with functionalized surfaces with various functional groups, as well as active cargo load encapsulated in the particles. The encapsulated cargo includes but is not limited to biologically, chemically, and optically active substances.

A method of manufacturing an electrowetting element. A first fluid is dispensed. A second fluid immiscible with the first fluid is dispensed. A fluid coating around the first fluid and the second fluid is dispensed. The fluid coating is hardened to form a capsule containing the first and the second fluid.

An optical filter is provided with a structure that contains a green coloring matter and a black coloring matter and satisfies the following requirements (i) and (ii). Further a device is provided with such an optical filter. (i) An average transmittance of light in the wavelength range of 400 to 730 nm is 2% or less. (ii) A continuous 50 nm wavelength range where an average transmittance is 80% or more exists in the wavelength range of 800 to 1000 nm.

A staining composition is provided with improved staining intensity. The composition comprises a vital dye and hyaluronic acid, wherein the vital dye comprises Chicago Sky Blue and Trypan Blue. The staining composition is used to stain the lens capsule during cataract surgery and provides sufficient contrast such that no air bubble needs to be injected in the anterior chamber during cataract surgery.

An ink jet recording method including the steps of a first recording step for applying a first ink to a recording medium and a second recording step for applying a second ink to the recording medium so as to overlap at least a region provided with the first ink, wherein the first ink is an aqueous ink containing silver particles, the second ink is an aqueous ink containing a dye, a time difference between applications of the first ink and the second ink to the recording medium is 1 sec or more to 7,200 sec or less, and the dye is a predetermined dye.

Provided are photoacoustic imaging contrast agents that include at least one radiation-absorbing component comprising a bacteriochlorin, a metallobacteriochlorin, a derivative thereof, or a combination thereof. Also provided are methods for using the disclosed photoacoustic imaging contrast agents either singly or in combination for generating an image of a volume, optionally a subject or a body part, cell, tissue, or organ thereof. Further provided are compositions and methods for multiplex photoacoustic imaging of a volume, optionally a subject or a body part, cell, tissue, or organ thereof using photoacoustic imaging contrast agents that include a plurality of the presently disclosed bacteriochlorins, metallobacteriochlorins, and/or derivatives thereof simultaneously.

The object of the present invention is to develop a reagent for optical resolution for the analysis of chiral amino acids wherein quenching is not exhibited. This object is achieved by providing a novel compound for optical resolution wherein quenching is not exhibited. The present invention relates to a novel compound, a reagent for optical resolution comprising the novel compound, a method for optically resolution comprising a step of reacting the novel compound, and optical isomers obtained by reacting the novel compound with amino acids.