What are the uses of Iodobenzene D5 ?


Iodobenzene D5, also known as perdeuterioiodobenzene, is a compound that sparks intrigue and captivates the minds of scientists across the globe. Here, we aim to provide you with a comprehensive and enlightening exploration of this unique chemical, delving into its properties, applications, and the cutting-edge research surrounding it. Join us on this scientific journey, as we uncover the wonders of Iodobenzene D5 and its significant role in the realm of chemistry.



What are the uses of Iodobenzene D5 ?

Iodobenzene D5, a deuterated form of iodobenzene with five deuterium atoms, finds versatile uses in various scientific and industrial applications. One of its primary uses is as a powerful labeled compound in organic and medicinal chemistry. Its unique deuterium labeling allows researchers to conduct isotope tracing and identify reaction intermediates, enabling a deeper understanding of complex chemical processes and reaction mechanisms. Additionally, Iodobenzene D5 is employed in drug metabolism studies, where it serves as a valuable tool to investigate the metabolic pathways and biotransformation of pharmaceutical agents. Incorporating the labeled compound into drug candidates aids in gaining insights into their metabolic fate and potential drug interactions, contributing to the development of safer and more effective medications.

Another significant application of Iodobenzene D5 lies in its role as an NMR standard for deuterium NMR spectroscopy. Its distinctive chemical shift in NMR spectra allows for precise calibration and referencing of deuterium-related measurements. This property is essential in various fields, including analytical chemistry, where accurate NMR analysis is crucial for identifying and characterizing compounds.

Moreover, Iodobenzene D5 is utilized in the synthesis of labeled compounds and intermediates for research purposes. By incorporating the deuterium-labeled compound into molecules of interest, scientists can conduct studies in fields like drug discovery, materials science, and catalysis, providing valuable insights into reaction mechanisms and improving our understanding of chemical processes. In the realm of material science, Iodobenzene D5 contributes to the synthesis of labeled polymers and dendrimers, enabling investigations into their structural properties and behaviors, leading to the development of innovative materials with tailored characteristics.



  • Perdeuterioiodobenzene
  • Deuterated iodobenzene
  • Deuterioiodobenzene
  • Iodobenzene-d5
  • D5-iodobenzen

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