Pseudotropine (CAS 135-97-7): A Key Intermediate for Advanced UV Absorbers
Pseudotropine, identified by its CAS number 135-97-7, is a crucial chemical compound widely recognized for its application in the field of UV-curing materials, particularly as a building block for potent UV absorbers. As a leading manufacturer and supplier in China, NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to providing high-quality Pseudotropine that meets the stringent demands of the chemical industry. This compound, also known by synonyms such as Tropine or 3-beta-tropanol, possesses a unique chemical structure that makes it indispensable for creating products that offer superior protection against ultraviolet radiation.
The efficacy of UV absorbers is directly linked to the purity and structural integrity of their precursor compounds. Pseudotropine's well-defined properties, including its molecular formula C8H15NO and a molecular weight of 141.21 g/mol, ensure consistent performance in complex synthesis pathways. By incorporating Pseudotropine into formulations, manufacturers can achieve enhanced photostability in coatings, plastics, and other materials, thereby extending their lifespan and preserving their aesthetic and functional qualities. This makes it a valuable asset for companies looking to purchase Pseudotropine for innovative product development.
Beyond its role in UV absorbers, Pseudotropine also finds utility as a fine chemical intermediate in various other sectors, including pharmaceuticals. Its versatility allows it to be a key component in the synthesis of a range of complex organic molecules. Understanding the precise chemical and physical properties of Pseudotropine is vital for chemists and formulators aiming to optimize their synthesis processes and achieve desired product characteristics. NINGBO INNO PHARMCHEM CO.,LTD. offers reliable access to this essential compound, supporting businesses in their pursuit of advanced material solutions. When considering the procurement of such critical chemical intermediates, partnering with a reputable supplier is paramount for ensuring product quality and supply chain reliability.
The efficacy of UV absorbers is directly linked to the purity and structural integrity of their precursor compounds. Pseudotropine's well-defined properties, including its molecular formula C8H15NO and a molecular weight of 141.21 g/mol, ensure consistent performance in complex synthesis pathways. By incorporating Pseudotropine into formulations, manufacturers can achieve enhanced photostability in coatings, plastics, and other materials, thereby extending their lifespan and preserving their aesthetic and functional qualities. This makes it a valuable asset for companies looking to purchase Pseudotropine for innovative product development.
Beyond its role in UV absorbers, Pseudotropine also finds utility as a fine chemical intermediate in various other sectors, including pharmaceuticals. Its versatility allows it to be a key component in the synthesis of a range of complex organic molecules. Understanding the precise chemical and physical properties of Pseudotropine is vital for chemists and formulators aiming to optimize their synthesis processes and achieve desired product characteristics. NINGBO INNO PHARMCHEM CO.,LTD. offers reliable access to this essential compound, supporting businesses in their pursuit of advanced material solutions. When considering the procurement of such critical chemical intermediates, partnering with a reputable supplier is paramount for ensuring product quality and supply chain reliability.
Perspectives & Insights
Nano Explorer 01
“This compound, also known by synonyms such as Tropine or 3-beta-tropanol, possesses a unique chemical structure that makes it indispensable for creating products that offer superior protection against ultraviolet radiation.”
Data Catalyst One
“The efficacy of UV absorbers is directly linked to the purity and structural integrity of their precursor compounds.”
Chem Thinker Labs
“Pseudotropine's well-defined properties, including its molecular formula C8H15NO and a molecular weight of 141.”