Understanding the Basics: Properties and Applications of Sodium Dichloroacetate
Sodium Dichloroacetate (DCA), identified by its CAS number 2156-56-1, is a chemical compound with distinct properties and a range of applications, particularly as a fine chemical intermediate. Understanding its basic characteristics is the first step towards appreciating its utility in various scientific and industrial fields.
Physically, DCA presents as a white powder. Its purity is notably high, typically 99.0%min, which is crucial for applications where precise chemical composition is paramount, such as in pharmaceutical research and synthesis. DCA exhibits good solubility in cold water, making it easier to handle and incorporate into aqueous solutions for experiments or formulations. Its melting point is recorded at 198°C, providing a stable characteristic for identification and quality control.
Chemically, its molecular formula is C2HCl2NaO2, with a molecular weight of 150.92. These identifiers are fundamental for accurate chemical tracking and regulatory compliance. As a chemical intermediate, DCA serves as a foundational component in the synthesis of more complex organic molecules. This role is vital across various chemical manufacturing processes.
Beyond its function as an intermediate, DCA has garnered significant interest for its biological activities. It is known to inhibit cell growth and has been explored for its therapeutic potential, particularly in modulating cellular metabolism. Its impact on the Warburg effect and its role in inducing apoptosis have made it a subject of study in cancer research. Furthermore, it has found application in managing certain medical conditions like lactic acidosis, showcasing its versatility.
The availability of high-quality Sodium Dichloroacetate from reputable suppliers, such as manufacturers in China, ensures researchers and industries have access to a reliable source of this essential compound. Whether for academic research, drug discovery, or industrial synthesis, understanding the fundamental properties of DCA is key to its effective utilization.
In conclusion, Sodium Dichloroacetate is a valuable fine chemical intermediate characterized by its purity, solubility, and distinct melting point. Its broad applications, ranging from chemical synthesis to its biological roles in metabolic regulation and potential therapeutic interventions, underscore its importance in scientific and industrial endeavors.
Physically, DCA presents as a white powder. Its purity is notably high, typically 99.0%min, which is crucial for applications where precise chemical composition is paramount, such as in pharmaceutical research and synthesis. DCA exhibits good solubility in cold water, making it easier to handle and incorporate into aqueous solutions for experiments or formulations. Its melting point is recorded at 198°C, providing a stable characteristic for identification and quality control.
Chemically, its molecular formula is C2HCl2NaO2, with a molecular weight of 150.92. These identifiers are fundamental for accurate chemical tracking and regulatory compliance. As a chemical intermediate, DCA serves as a foundational component in the synthesis of more complex organic molecules. This role is vital across various chemical manufacturing processes.
Beyond its function as an intermediate, DCA has garnered significant interest for its biological activities. It is known to inhibit cell growth and has been explored for its therapeutic potential, particularly in modulating cellular metabolism. Its impact on the Warburg effect and its role in inducing apoptosis have made it a subject of study in cancer research. Furthermore, it has found application in managing certain medical conditions like lactic acidosis, showcasing its versatility.
The availability of high-quality Sodium Dichloroacetate from reputable suppliers, such as manufacturers in China, ensures researchers and industries have access to a reliable source of this essential compound. Whether for academic research, drug discovery, or industrial synthesis, understanding the fundamental properties of DCA is key to its effective utilization.
In conclusion, Sodium Dichloroacetate is a valuable fine chemical intermediate characterized by its purity, solubility, and distinct melting point. Its broad applications, ranging from chemical synthesis to its biological roles in metabolic regulation and potential therapeutic interventions, underscore its importance in scientific and industrial endeavors.
Perspectives & Insights
Bio Analyst 88
“Understanding its basic characteristics is the first step towards appreciating its utility in various scientific and industrial fields.”
Nano Seeker Pro
“0%min, which is crucial for applications where precise chemical composition is paramount, such as in pharmaceutical research and synthesis.”
Data Reader 7
“DCA exhibits good solubility in cold water, making it easier to handle and incorporate into aqueous solutions for experiments or formulations.”