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3-CHLOROISONICOTINALDEHYDE CAS:72990-37-5
3-Chloroisonicotinaldehyde is an organic compound with a molecular formula of C7H6ClN and features a pyridine ring containing both a chloro substituent and an aldehyde functional group. This compound is notable for its potential applications in organic synthesis, particularly in the development of pharmaceutical intermediates. The presence of the chlorinated position enhances the reactivity of the molecule, allowing it to participate in various chemical reactions, such as nucleophilic substitutions and condensation reactions. Understanding its properties and reactivity is essential for chemists involved in synthesizing new compounds with potential biological activities.
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3-Pyridinecarboxaldehyde, 6-ethoxy- (9CI) CAS:97455-61-3
3-Pyridinecarboxaldehyde, 6-ethoxy- (9CI) is a chemical compound with the molecular formula C10H11NO2. It features a pyridine ring substituted with an aldehyde and an ethoxy group at specific positions. This compound is utilized in various organic synthesis applications, particularly in the pharmaceutical and agrochemical industries. Its unique structure allows for reactivity that can be exploited in further chemical reactions, making it a valuable intermediate. Understanding its properties and behavior under different conditions aids chemists in developing new compounds and improving methodologies in synthetic processes.
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2-Methyl-5-nitropyridine CAS:21203-68-9
2-Methyl-5-nitropyridine is an organic compound with the molecular formula C6H6N2O2. This compound features a pyridine ring that has a methyl group at the 2-position and a nitro group at the 5-position. The presence of both electron-donating (methyl) and electron-withdrawing (nitro) groups creates interesting electronic properties, influencing the compound’s reactivity. 2-Methyl-5-nitropyridine serves as an important intermediate in organic synthesis, particularly in the pharmaceutical industry, where it can be used to develop various biologically active compounds. Understanding its chemical properties and reactivity is essential for chemists working on new synthetic methodologies and drug discovery.
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2,4-Dibromopyridine CAS:58530-53-3
2,4-Dibromopyridine is an organic compound with the molecular formula C5H3Br2N. It features a pyridine ring substituted with bromine atoms at the 2- and 4-positions. This dibrominated derivative plays a significant role in organic synthesis, particularly as an intermediate in the preparation of various pharmaceuticals and agrochemicals. The presence of two bromine atoms enhances its reactivity, allowing it to participate in a variety of chemical reactions, such as nucleophilic substitutions and cross-coupling reactions. Understanding the properties and behavior of 2,4-dibromopyridine is essential for chemists working on developing new compounds with potential biological activities.
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Furaneol CAS:3658-77-3
Furaneol, also known as 4-hydroxy-2,5-dimethyl-3(2H)-furanone, is a naturally occurring compound characterized by its sweet, caramel-like aroma reminiscent of cooked fruit. With the molecular formula C6H8O3, furaneol features a furan ring with hydroxy and methyl substituents, which contribute to its unique flavor profile. Widely used in the food industry, furaneol serves as a flavoring agent in various products, including candies, baked goods, and beverages. Additionally, its pleasant scent makes it valuable in the fragrance industry. Ongoing research aims to explore its production methods and potential applications in diverse sectors, emphasizing its significance in sensory enhancement.
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5-Methyl furfural CAS:620-02-0
5-Methyl furfural (5-MF) is an organic compound derived from the dehydration of carbohydrates, particularly hexoses like glucose and fructose. With the molecular formula C6H6O2, it features a furan ring substituted with a methyl group at the 5-position and an aldehyde functional group. 5-MF is recognized for its sweet, caramel-like aroma, making it valuable in flavoring and fragrance applications. It is also a significant platform chemical in biomass conversion processes, serving as a precursor for various chemicals and materials. Ongoing research into 5-methyl furfural focuses on its production methods and potential uses in sustainable chemistry.
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Benzothiazole CAS:95-16-9
Benzothiazole is a heterocyclic compound characterized by a fused benzene and thiazole ring, which contributes to its unique chemical properties. It features a nitrogen and sulfur atom within the thiazole component, imparting interesting reactivity and functionality. Benzothiazole derivatives are prevalent in various applications, including pharmaceuticals, agrochemicals, and material science, due to their biological activity and ability to act as building blocks for synthesizing more complex molecules. The compound exhibits antimicrobial, anticancer, and anti-inflammatory properties, making it a subject of extensive research in medicinal chemistry.
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Tetrahydrothiophen-3-one CAS:1003-04-9
Tetrahydrothiophen-3-one is a sulfur-containing heterocyclic compound characterized by a five-membered ring that includes both carbon and sulfur atoms. With the molecular formula C5H8OS, this compound features a ketone functional group at the 3-position of the thiophene-like structure. It has garnered attention in various fields due to its unique chemical properties and potential applications. Tetrahydrothiophen-3-one is primarily explored for its use in organic synthesis, fragrance formulations, and possibly as a bioactive compound in pharmaceuticals. Its intriguing structure and properties make it an interesting subject of study within medicinal chemistry and materials science.
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Difurfuryl sulfide CAS:13678-67-6
Difurfuryl sulfide is an organic compound characterized by the presence of two furfuryl groups bonded to a sulfur atom. With the molecular formula C10H10O2S, this compound exhibits unique chemical properties due to the combination of sulfur and furan-derived functionalities. Difurfuryl sulfide has gained attention in various fields, including materials science, polymer chemistry, and pharmaceuticals. Its distinctive structure imparts interesting reactivity, making it a valuable intermediate in organic synthesis. Moreover, due to its potential applications as a flavoring agent and in agrochemicals, difurfuryl sulfide continues to be a subject of research for exploring its diverse uses.
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5-Hydroxymethylfurfural CAS:67-47-0
5-Hydroxymethylfurfural (HMF) is an organic compound with the molecular formula C6H6O3, recognized for its significance in carbohydrate chemistry and biomass conversion processes. It is derived from the dehydration of sugars like glucose and fructose and features both hydroxymethyl and furan functional groups. HMF is noteworthy for its role as a platform chemical that can be converted into various valuable products, including fuels, solvents, and other chemicals. Its potential applications span multiple industries, including food, pharmaceuticals, and biofuels. Ongoing research focuses on improving its production methods and exploring its reactivity in synthetic chemistry.
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Ethyl furaneol CAS:27538-10-9
Ethyl furaneol, also known as 4-ethyl-5-methyl-2-furancarboxaldehyde, is an organic compound recognized for its pleasant, sweet aroma reminiscent of caramel and cooked fruit. With the molecular formula C8H10O3, this compound is a furan derivative containing both an ethyl group and a methyl group, which contribute to its unique flavor profile. Ethyl furaneol is widely used in the food industry as a flavoring agent and in the fragrance industry due to its appealing scent. Ongoing research seeks to explore its synthesis and potential applications in various sectors, emphasizing its significance in enhancing sensory experiences.
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5-Methyl-2-acetylfuran CAS:1193-79-9
5-Methyl-2-acetylfuran is an organic compound featuring a furan ring substituted with a methyl and an acetyl group. With the molecular formula C7H8O2, it belongs to the class of acetylfurans, compounds known for their diverse applications in flavoring, fragrance, and pharmaceuticals. This compound is characterized by its sweet, nutty aroma, making it valuable in food and cosmetics industries. Additionally, 5-methyl-2-acetylfuran has garnered interest in synthetic chemistry due to its potential as a building block for more complex molecules. Ongoing research aims to explore its biological activities and further practical applications.
