Exploring Iodo-1-P-Tolyl-Propan-1-One (C10H11IO): Structure, Properties, and Applications
Iodo-1-P-Tolyl-Propan-1-One, with its chemical formula C10H11IO, belongs to the family of organic compounds known for their diverse applications and unique chemical properties. In this article, we will delve into the structure of Iodo-1-P-Tolyl-Propan-1-One, explore its properties, and examine its potential applications in various fields.
Chemical Structure: Iodo-1-P-Tolyl-Propan-1-One, when dissected by its IUPAC nomenclature, reveals essential information about its chemical structure. The presence of "Iodo-" indicates the inclusion of an iodine atom. "1-P-Tolyl-" signifies a p-tolyl group attached at the first carbon position, referring to a methylbenzene ring substituted at the para-position. "Propan-1-One" denotes a ketone structure with three carbon atoms, the carbonyl group positioned at the first carbon.
The structural formula of C10H11IO showcases the arrangement of atoms in Iodo-1-P-Tolyl-Propan-1-One, providing a visual representation of its molecular composition.
Properties: Understanding the properties of Iodo-1-P-Tolyl-Propan-1-On
Physical Properties:
The
Chemical Reactivity:
The chem
Toxicity and Safety Considerations:
Understanding the toxicity profile of the com
Applications: Iodo-1-P-Tolyl-Propan-1-O
Chemical Synthesis:
The com
Pharmaceuticals:
Comp
Materials Science:
The unique chemical structure of Iodo-1-P-Tolyl-Propan-1-One might make it sui
Research and Development:
The comp
Challenges and Considerations: As with any chemical compound, there are challenges and considerations associated with the use of Iodo-1-P-Tolyl-Propan-1-One:
Synthesis Challenges:
Th
Toxicity Assessment:
Given the presence of iodine and the potential for interactions in biological systems, a thorough toxicity assessment is essential before considering applications in pharmaceuticals or consumer products.
Regulatory Compliance:
Any potential appli
Conclusion:
In conclusion, Iodo-1-P-Tolyl-Propan-1-One, with its intriguing chemical structure and properties, holds promise for applications in various scientific and industrial domains. The compound's potential contributions to chemical synthesis, pharmaceuticals, materials science, and research make it a subject of interest for researchers and innovators seeking to explore new frontiers in organic chemistry. As the understanding of its properties deepens, future discoveries and applications may emerge, unlocking novel possibilities in the world of molecular science.
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