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2-Bromo-2′-fluoroacetophenone CAS:655-15-2
2-Bromo-2′-fluoroacetophenone is an aromatic ketone featuring a bromine atom and a fluorine atom as substituents on the acetophenone structure. This compound exhibits unique chemical properties due to the presence of these halogen atoms, making it valuable in organic synthesis and medicinal chemistry. Its reactivity allows for various transformations that can lead to the development of more complex molecules, including pharmaceuticals and agrochemicals. Research into 2-bromo-2′-fluoroacetophenone continues to explore its applications in drug discovery and materials science, emphasizing its potential as a versatile building block in synthetic strategies.
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5-Bromo-3-methoxypicolinic acid CAS:1142191-66-9
5-Bromo-3-methoxypicolinic acid is an organic compound belonging to the category of picolinic acids, which are derivatives of pyridine. This compound has garnered attention in various fields, including medicinal chemistry and agricultural sciences, due to its potential therapeutic applications and roles in biosynthesis. It exhibits interesting biological activities, including effects on neurotransmitter systems and possible anti-inflammatory properties. Research into 5-bromo-3-methoxypicolinic acid continues to explore its mechanisms of action, synthesis methods, and potential uses in drug development and crop protection, highlighting its importance in both pharmaceutical and agricultural contexts.
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5-Bromo-3-nitropyridine-2-carbonitrile CAS:573675-25-9
5-Bromo-3-nitropyridine-2-carbonitrile is a heterocyclic organic compound featuring a pyridine ring substituted with a bromine atom, a nitro group, and a cyano group. This complex structure renders it of particular interest in medicinal chemistry and materials science due to its potential biological activity and utility as a building block for various chemical syntheses. The presence of multiple functional groups allows for diverse reactivity, promoting its application in drug discovery and the development of novel materials. Continued research into this compound explores its pharmacological properties, synthesis methods, and potential applications in agrochemicals and fine chemicals.
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2,4-Difluorobenzaldehyde CAS:1550-35-2
2,4-Difluorobenzaldehyde is an aromatic aldehyde characterized by the presence of two fluorine substituents at the 2 and 4 positions on a benzene ring, along with a formyl group (-CHO). With the molecular formula C7H4F2O, this compound exhibits unique chemical properties due to the electron-withdrawing effects of the fluorine atoms. Its reactivity makes it valuable in organic synthesis for producing various bioactive compounds and intermediates in pharmaceuticals. Additionally, 2,4-difluorobenzaldehyde is utilized in material science and agrochemicals, where its distinct characteristics can influence the properties of resultant materials and formulations.
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3,3′-Sulfonyldianiline CAS:599-61-1
3,3′-Sulfonyldianiline is an organic compound with the chemical formula C12H12N2O2S. It features two aniline units connected by a sulfonyl (-SO2-) bridge. This structure imparts unique properties that make it useful in various applications, notably in dye manufacturing and as a key intermediate in polymer chemistry. The presence of both aromatic amine groups and the sulfonyl group allows for interesting reactivity, making it suitable for synthesis processes aimed at producing high-performance materials. Research continues to explore its biological activities and potential applications in pharmaceuticals, making it a compound of growing interest in multiple fields.
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thiosemicarbazide CAS:6610-29-3
Thiosemicarbazide is an organic compound with the molecular formula CH₅N₃S, featuring a thiosemicarbazide functional group characterized by the presence of a thiol (-SH) and a semicarbazide moiety. This compound is known for its diverse biological activities, including antimicrobial, antitumor, and antiviral properties. Thiosemicarbazide acts as a versatile building block in medicinal chemistry, facilitating the synthesis of various bioactive derivatives. Its ability to form coordination complexes with metal ions further enhances its significance in pharmacology and materials science. Ongoing research continues to explore its potential applications in drug development and therapeutic interventions.
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6-Aminonicotinic acid CAS:3167-49-5
6-Aminonicotinic acid, also known as 6-aminopyridine-3-carboxylic acid, is an organic compound with the molecular formula C6H6N2O2. This pyridine derivative features a carboxylic acid group and an amino group at the 6 and 3 positions, respectively, on the pyridine ring. Its unique structure imparts significant biological activity, making it valuable in pharmaceutical research and development. The compound has potential applications in synthesizing various biologically active molecules, particularly in treatments for neurodegenerative diseases and other health conditions. Due to its role in modifying neurotransmitter systems, 6-aminonicotinic acid is of considerable interest in medicinal chemistry.
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Benzyl Triethyl Ammonium Chloride CAS:56-37-1
Benzyl Triethyl Ammonium Chloride (BTEAC) is a quaternary ammonium compound widely utilized in various industrial and laboratory settings. Characterized by its cationic nature, BTEAC is formed through the alkylation of triethylamine with benzyl chloride. This compound exhibits surfactant properties, making it effective as an emulsifier, stabilizer, and antibacterial agent. It is particularly valued in biochemical applications for its ability to facilitate the solubilization of hydrophobic compounds and enhance the penetration of substances across biological membranes. Its versatility promotes its use in pharmaceuticals, cosmetics, and agricultural formulations, underscoring its importance in both research and commercial products.
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Benzethonium chloride CAS:121-54-0
Benzethonium chloride is a synthetic quaternary ammonium compound known for its antimicrobial and antiseptic properties. With the chemical formula C21H36ClN, it consists of a benzyl group, a phenolic moiety, and a quaternary nitrogen atom, contributing to its effectiveness as a disinfectant. Commonly used in both pharmaceutical and personal care products, benzethonium chloride is valued for its ability to inhibit the growth of bacteria, fungi, and viruses. Its applications range from skin antiseptics and hand sanitizers to preservatives in various formulations, reflecting its importance in enhancing hygiene and safety in healthcare and consumer products.
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Phenylhydrazine hydrochloride CAS:59-88-1
Phenylhydrazine hydrochloride is an organic compound with the molecular formula C6H8ClN3. It is a hydrazine derivative featuring a phenyl group and exists as a white crystalline salt. This compound is widely used in laboratories for its reactivity and ability to form hydrazones, azines, and other derivatives through condensation reactions with carbonyl compounds. Additionally, phenylhydrazine hydrochloride has applications in medicinal chemistry, particularly in the synthesis of antitumor agents and in the study of carbohydrate metabolism. Its biological properties and synthetic versatility make it a valuable reagent in both research and industrial applications.
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Benzoyl cyanide CAS:613-90-1
Benzoyl cyanide is an organic compound with the chemical formula C8H5NO, recognized for its unique properties and applications in synthetic chemistry. This colorless or yellowish liquid has a characteristic aromatic odor and is primarily used as an intermediate in the production of various pharmaceuticals, agrochemicals, and fine chemicals. Benzoyl cyanide plays a significant role in the synthesis of benzamide derivatives, which are essential in numerous biochemical pathways. Its reactivity and ability to participate in diverse chemical reactions make it an important reagent in laboratory settings, particularly in the development of complex organic molecules.
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Nizatidine CAS:76963-41-2
Nizatidine is a potent histamine H2-receptor antagonist used primarily in the treatment of conditions related to excess stomach acid, such as peptic ulcers and gastroesophageal reflux disease (GERD). With the molecular formula C₁₄H₁₈N₄O₂S, nizatidine works by inhibiting the action of histamine on H2 receptors of gastric parietal cells, thereby reducing gastric acid secretion. This mechanism helps alleviate symptoms associated with acid-related disorders and promotes healing of the gastrointestinal lining. Nizatidine’s pharmacokinetics, efficacy, and safety profile make it a valuable option in managing acid-related diseases.
