10314-98-4, a molecule more formally known as bis(2-ethylhexyl) -phosphoramidic ester, offers a remarkable chance for study across several fields. Preliminary research suggest encouraging properties, particularly concerning its function as a emulsifier and its possibility in innovative formulations. A more assessment at its structure – highlighting the effect of the diethyl groups on its functionality – is critical for fully unlocking its complete value. Further scrutiny into creation methods and usage strategies will be necessary to maximize its effect and determine its lasting feasibility.
10314-98-4: Properties , Uses , and Safety Points
10314-98-4, also known as tetramethyl bis(trimethylsilyl)ammonium hydroxide, demonstrates a unique structural profile . Its primary property is its high alkalinity , rendering it an effective reagent in various chemical methods. Typical functions include serving as a neutralizing compound in synthetic transformations, and facilitating anionic substitution conversions. Nevertheless its utility , important security guidelines are followed . It is highly damaging and might lead to severe injuries upon contact . Suitable PPE , such as safeguards and ocular shielding , is required during handling and needs to be combined with sufficient airflow to reduce hazard to vapors .
Exploring this versatile compound 10314-98-4: a uses
While relatively obscure to many, compound 10314-98-4 exhibits a remarkably broad range of functions. Initially created for specialized manufacturing methods, scientists are steadily identified viable positions for sectors including as cutting-edge components science, pharmaceutical development, and potentially developing innovations. Present research emphasize a utility as a agent, a construction block for complex molecules, and a likely component for unique surfaces. Further analysis suggests potentially larger discoveries and increased applications regarding the distinct chemical.
Understanding the Chemical Identity of 10314-98-4
Identifying the substance associated with the CAS number 10314-98-4 involves careful analysis of available records. This particular designation points to such compound known as Para-aminobenzoic acid, also frequently referred as PABA. Its structural formula is C7H7NO2, and it's an organic acid with diverse roles ranging from dietary supplements to sunlight protection in sunscreens . Further research into its properties and behavior can be discovered through chemical publications or credible databases.
10314-98-4: A Comprehensive Technical Overview
The compound, identified by the CAS number 10314984 , represents website a vital intermediate frequently employed in the manufacture of various pharmaceuticals . Its composition is C14H18N2O3, indicating a precise arrangement of carbon, hydrogen, nitrogen, and oxygen moieties . Analytical data typically reveal a molecular weight of approximately 262.31 g/mol, with a solidification point often reported between 68 and 78 degrees Celsius. Preservation requires protection from light and water, as degradation can happen under these circumstances . Further, its solubility varies depending on the liquid , generally showing better affinity with polar systems. Studies continue to explore its potential applications in novel chemical processes and materials science .
Research Spotlight: Current Developments 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 characteristics regarding its ecological fate and potential impacts. Researchers are currently examining its degradation in various ground types and aquatic environments , with a particular focus on measuring its presence in pollinator populations. Furthermore , cutting-edge methods are being developed to reduce any adverse effects associated with this common chemical.