10314-98-4, a substance more formally known as bis(2-ethylhexyl) -phosphoramidate derivative, shows a remarkable prospect for copyrightination across multiple areas. Early studies suggest positive traits, especially concerning its function as a dispersant and its possibility in advanced materials. A more look at its makeup – highlighting the impact of the diethyl groups on its functionality – is critical for fully realizing its true value. Further exploration into creation methods and deployment plans will be necessary to maximize its influence and define its sustainable feasibility.
10314-98-4: Characteristics , Uses , and Safety Aspects
10314-98-4, also referred to as tetramethyl ammonium hydroxide, exhibits a unique chemical composition . Its primary characteristic is its high basicity , rendering it an efficient reagent in various industrial methods. Common functions encompass functioning as a base agent in synthetic chemistry , and promoting negatively charged replacement reactions . Nevertheless its usefulness , important security protocols must be followed . It is extremely reactive and might lead to significant damage upon exposure . Adequate PPE , like gloves and ocular defense, is mandatory during handling and must be coupled with sufficient exhaust to reduce exposure to fumes .
Exploring this versatile substance 10314-98-4: a uses
Despite quite obscure to many, compound 10314-98-4 possesses a surprisingly wide spectrum of applications. Initially created for specific production methods, analysts do increasingly identified promising roles within sectors including as advanced elements research, healthcare development, and potentially new technologies. Current research center its effectiveness as a agent, a structural unit for complex substances, and a likely ingredient within novel coatings. Further analysis promises potentially greater findings and expanded functions of this unique chemical.
Understanding the Chemical Identity of 10314-98-4
Identifying the substance associated with the CAS registry 10314-98-4 involves careful analysis of available data . This particular identifier points to the compound known as p-Aminobenzoic acid, also frequently referred as PABA. Its chemical formula is C7H7NO2, and it's this organic acid with diverse applications ranging from nutritional supplements to sunlight protection in cosmetics. More investigation into its properties and reactions can be located through scientific journals or trusted databases.
10314-98-4: A Comprehensive Technical Overview
The compound, identified by the CAS number the chemical, represents a significant intermediate frequently utilized in the production of various fine chemicals. Its chemical structure is C14H18N2O3, indicating a precise arrangement of carbon, hydrogen, nitrogen, and oxygen atoms . Analytical data typically reveal a molecular weight of approximately 262.31 g/mol, with a solidification point often reported between 70 and 75 degrees Celsius. Preservation requires protection from light and moisture , as here degradation can happen under these circumstances . Further, its dissolution varies depending on the liquid , generally showing better affinity with aqueous systems. Studies continue to explore its potential applications in novel methodologies and advanced materials .
Research Spotlight: Current Progress with 10314-98-4
Recent investigations focusing on the chemical compound 10314-98-4, also known as 6-Chloro-3-(2-chloro-1-(3-chloro-2-pyridinyl)-1-methylethyl)-5-methylpyridine , highlight intriguing features regarding its environmental fate and potential impacts. Investigators are currently analyzing its movement in various earth types and aquatic systems , with a particular focus on measuring its presence in insect populations. Moreover, cutting-edge methods are being created to reduce any negative effects associated with this prevalent chemical.