35 results about "Sulfathiazole" patented technology

The invention discloses a method and special immune affinity adsorbent for extracting quinolone compound and/or sulfonamide compound. The immune affinity adsorbent consists of a solid-phase carrier and Norfloxacin monoclonal antibody and/or sulfamethoxazole monoclonal antibody coupled with the carrier, wherein the Norfloxacin monoclonal antibody and the sulfamethoxazole monoclonal antibody are obtained by taking Norfloxacin hapten, sulfamethoxazole hapten and carrier protein conjugate as immunogen; the quinolone compound is at least one of the following 13 types of compounds: Ciprofloxacin, Norfloxacin, Pefloxacin, Ofloxacin, Enoxacin, Marbofloxacin, Lomefloxacin, Danofloxacin, Enrofloxacin, Sarafloxacin, Difloxacin, Oxolinic acid and Flumequine; and the sulfonamide compound is at least one of the following 6 types of compounds: sulfapyridine, sulfathiazole, sulphapyridine, sulfamethizole, sulfamonomethoxine and sulfamethoxazole.

The invention provides a rapid detection method of sulfathiazole in an animal body, and a Raman characteristic peak of sulfathiazole is determined by using a density functional theory. The method comprises a step of establishing a quantitative analysis curve according to the characteristic peak intensity with high Raman peak intensity and good peak pattern. Standard recovery experiments show thatthe method is good in accuracy and precision. According to the method, the lowest detection concentration of sulfathiazole in an animal body is 1 mg/L. According to the method, the sulfonamide antibiotic residues in the animal body are qualitatively and quantitatively analyzed, single sample detection is completed within 3 min, and a rapid and convenient detection method is provided for rapid qualitative screening and preliminary quantitative detection of the sulfonamide thiazole residues in the animal body.

The invention discloses a Fe/Co-Nx/TiO2 photocatalyst. The photocatalyst contains a Fe/Co-Nx chelate on a TiO2 {001} crystal plane. The invention further discloses a preparation method of the Fe/Co-Nx/TiO2 photocatalyst. The preparation method comprises the following step of performing a pyrolysis reaction on the Fe/CoPcS and TiO2 nanosheets at high temperature according to a required mass ratio to obtain a Fe/Co-Nx/TiO2 nanomaterial containing the Fe/Co-Nx chelate on the TiO2 {001} crystal plane. The invention finally discloses application of the Fe/Co-Nx/TiO2 photocatalyst to catalytic degradation of sulfathiazole in water. The modified Fe/Co-Nx/TiO2 photocatalyst has a very high capability of degrading the sulfathiazole in water in both visible light and ultraviolet light; meanwhile, adegraded product has lower toxicity.

The invention provides a novel method for rapidly detecting and calculating content of sulfanilamide by detecting luminous intensity of sulfanilamide medicament imaging and establishing working curves, in order to solve the problems existed in the prior art for sulfanilamide medicament detection. The method can be used for accurately and economically detecting contents of sulfanilamide medicaments in animal food, especially is suitable for detecting contents of four sulfanilamide medicaments including sulfathiazole, sulfapyridine, sulphadiazine and sulfamerazine. The invention provides applications of the accurate, economic, high efficient, rapid and portable determination of residuals of the four sulfanilamide medicaments in animal food.

The invention relates to a method of extracting medicine residues of seven sulfonamides from chicken by utilization of an ionic liquid and achieving an objective of purification during extraction purification, through adjusting the pH value, the water amount and the salt amount in the ionic liquid to achieve homogeneous phase extraction and layered purification, wherein the seven sulfonamides residues comprise sulfathiazole (ST), sulfamerazine (SMR), sulfamethizole (STZ), sulfadimidine (SDMD), sulfachlorpyridazine (SCP), sulfamethoxazolum (SMZ), and sulfisoxazole (SIX). Liquid chromatographic analysis results show that the recovery rate of each of the sulfonamides is 82.1%-108%, and the relative standard deviation is 0.5%-5.9%. The green and simple extracting method is established so as to reduce pollution or harm of traditional organic solvent extraction methods to the environment and to experiment persons.

The invention discloses a preparation method of an immunoaffinity column. The immunoaffinity column is a compound affinity column which is mainly prepared from three types of immunoaffinity columns through mixed packing in a volume ratio being 1:1:1, and the three types of immunoaffinity columns are prepared from three antibodies and a coupling matrix through coupling and wet packing. The column capacity of the immunoaffinity column is 2,500 ng, the immunoaffinity column is good in purification effect and can be repeatedly used three times, and average recovery rate is 67%-107%. The compound immunoaffinity column has good specific adsorption property for at least 12 sulfonamides including sulfaquinoxaline, sulfadiazine, sulfapyridine, sulfametoxydiazine, sulfadimidine, sulfamethoxazole, sulfafurazole, sulfadimethoxypyrimidine, sulfathiazole, sulfamerazine, sodium N-sulphanilamidate and sulfamonomethoxine. The immunoaffinity column which is high in coupling rate, specific adsorption property, column capacity and recovery rate is prepared, and a sensitive, rapid and simple analysis method capable of detecting residues of the 12 sulfonamides simultaneously is provided.

The invention discloses the one-step hydrothermal synthesis based on ionic liquid novel fluorescent carbon dots and the detection application of one-step hydrothermal synthesis for sulfathiazole. Theone-step hydrothermal synthesis is characterized by taking 1-allyl-3-vinyl imidazole tetrafluoroborate as a carbon source, the malonic acid as a passivating agent, and synthesizing the novel fluorescent carbon dots capable of specifically recognizing sulfathiazole through a high-temperature hydrothermal reaction. A novel sulfathiazole fluorescent probe synthesized by the invention is simple in preparation process, low in cost and high in selectivity, has high sensitivity and accuracy in the detection of the trace sulfathiazole remained in an environmental sample, and has a wide application prospect in the field of analysis and detection of sulfathiazole.

The invention discloses a seven-into-one sulfanilamide detection method which comprises a kit and reagents, wherein the reagents comprise sulfathiazole, trimethoprim, sulfaquinoxaline, phthalylsulfathiazole, sulfamethythiadiazole, sulfamethazine, sulfamethoxazole, sulfamerazine, sulfadimethoxypyrimidine, a sulfachlorpyridazine carrier, m-sulfamethoxydiazine, sulfaquinoxaline, sulfadiazine, sulfamethoxypyridazine and sulfametoxydiazine. According to the seven-into-one sulfanilamide detection method and the kit, the sulfathiazole, the trimethoprim, the sulfaquinoxaline, the phthalylsulfathiazole, the sulfamethythiadiazole, the sulfamethazine, the sulfamethoxazole, the sulfamerazine, the sulfadimethoxypyrimidine, the sulfachlorpyridazine carrier, the m-sulfamethoxydiazine, the sulfaquinoxaline, the sulfadiazine, the sulfamethoxypyridazine and the sulfametoxydiazine in a proportioning part of a weight unit are combined in match in a glass container, and convenience can be brought to seven-into-one sulfanilamide detection.

The invention relates to an acidizing corrosion inhibitor for stratum acidification blockage removal, which is prepared from the following components in parts by weight: 30 to 40 parts of mercaptobenzothiazole, 15 to 25 parts of 2-methoxythiazole, 5 to 10 parts of polyacrylic acid, 10 to 20 parts of diethanol amine, 5 to 8 parts of octadecanol polyethylene oxide polyoxypropylene ether, 6 to 10 parts of octylphenol polyoxyethylene ether OP-15, 10 to 20 parts of sulfathiazole and 2 to 4 parts of phenolic resin. 25 to 30 parts of isopropanol, 200 to 350 parts of water and 25 to 35 parts of anti-corrosion fermentation liquor. The invention further provides a preparation method of the corrosion inhibitor, and the corrosion inhibitor has a more efficient corrosion inhibition effect and can be combined with a stratum blocking remover for use.

The invention provides a preparation method and application of a zero-valent-copper-modified reinforced zero-valent-iron-carbon micro-electrolysis material, and relates to the technical field of environmental governance, the preparation method of the nano zero-valent-iron-carbon-copper micro-electrolysis material specifically comprises the following steps: (1) preparation of a Fe0/C micro-electrolysis material: mixing glucose, ferric citrate and deionized water to obtain a mixed solution, and carrying out ultrasonic treatment on the mixed solution to obtain a Fe0/C micro-electrolysis material; carrying out ultrasonic treatment, heating and constant-temperature reaction on the mixed solution, and then cooling, cleaning and drying to obtain an iron-carbon micro-electrolysis material precursor; and (2) preparation of the Fe0/C-coated Cu0 micro-electrolysis material: mixing the iron-carbon micro-electrolysis material precursor with basic cupric carbonate, and calcining to obtain the Fe0/C-coated Cu0 micro-electrolysis material which is a novel heterogeneous catalyst which is simple to prepare, green and efficient, has the characteristics of microporous structure, high activity and high degradation rate, and can be applied to degradation of sulfathiazole.

The invention discloses a magnetic nano composite material, a preparation method thereof and application in SERS (Surface Enhanced Raman Scattering) detection, the magnetic nano composite material comprises MXene as well as Fe3O4 and Ag nano particles distributed on the surface of the MXene, and the surfaces of the Ag nano particles are coated with citric acid radicals. The material has a good application prospect in an SERS substrate, can integrate separation, enrichment and detection, has the characteristics of high analysis speed, good selectivity, high sensitivity and good accuracy, is simple to operate and high in practicability, can be used for SERS rapid analysis of the phthalocyanine thiazole and the sulfadiazine silver, and has a wide application prospect in the field of SERS analysis of the phthalocyanine thiazole and the sulfadiazine silver. The method is helpful for solving the problem of rapid detection of sulfonamide antibiotics in various samples (especially aquatic products), and has relatively high practical application value.