10314-98-4, a molecule more formally known as diethyl-phosphoramidate, offers a unique prospect for examination across various disciplines. Initial evaluations suggest promising characteristics, particularly concerning its application as a emulsifier and its chance in sophisticated substances. A more assessment at its structure – displaying the impact of the diethyl groups on its functionality – is critical for fully realizing its true benefit. 10314-98-4 Further exploration into synthesis methods and usage plans will be necessary to optimize its impact and determine its long-term applicability.
10314-98-4: Characteristics , Applications , and Security Considerations
10314-98-4, also referred to as tetramethyl bis(trimethylsilyl)ammonium hydroxide, possesses a specific chemical profile . Its main trait is its strong pH level, rendering it an powerful reagent in various chemical reactions . Frequent applications encompass acting as a dehydrohalogenating agent in synthetic reactions , and promoting negatively charged substitution reactions . However its value, significant safety guidelines must be implemented. It is intensely reactive and can cause significant injuries upon exposure . Adequate safety gear, like gloves and ocular shielding , is mandatory during manipulation and needs to be coupled with proper exhaust to lessen risk to fumes .
Exploring the multi-faceted chemical 10314-98-4: a applications
While relatively obscure to most, substance 10314-98-4 demonstrates a remarkably broad range of applications. First developed for specific production techniques, researchers do increasingly discovered potential roles within fields like as modern materials study, healthcare creation, and potentially emerging innovations. Present studies focus its utility as a agent, a structural block for sophisticated substances, and a possible component within novel coatings. Further exploration suggests potentially larger revelations and expanded uses for said unique compound.
Understanding the Chemical Identity of 10314-98-4
Identifying the substance associated with the CAS identification 10314-98-4 necessitates careful examination of available data . This particular code points to a compound known as p-Aminobenzoic acid, also frequently referred as PABA. Its structural formula is C7H7NO2, and it's a organic compound with diverse roles ranging from nutritional supplements to radiation protection in sun blocks . Further study into its properties and reactions can be discovered through technical journals or trusted databases.
10314-98-4: A Comprehensive Technical Overview
The compound, identified by the CAS number 10314-98-4 , represents a crucial intermediate frequently found in the production of various agrochemicals . Its chemical structure is C14H18N2O3, indicating a specific arrangement of carbon, hydrogen, nitrogen, and oxygen atoms . Analytical data typically reveal a molar mass of approximately 262.31 g/mol, with a fusion temperature often reported between 70 and 72 degrees Celsius. Preservation requires protection from light and moisture , as degradation can happen under these environments. Further, its dissolution varies depending on the solvent , generally showing better blending with polar systems. Research continue to examine its potential roles in novel methodologies and materials science .
Research Spotlight: Current Advances with 10314-98-4
Recent studies 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 , reveal intriguing features regarding its environmental fate and theoretical impacts. Researchers are currently examining its movement in various earth types and aquatic systems , with a particular emphasis on detecting its presence in pollinator populations. Additionally , cutting-edge methods are being created to mitigate any adverse effects associated with this common chemical.