1. NMR Spectroscopy: Deuterated compounds like Phenol D5 are frequently used as NMR (Nuclear Magnetic Resonance) solvents or reference compounds. They provide sharp NMR signals and can serve as standards for chemical shifts, aiding in the analysis and characterization of other compounds.
2. Spectroscopic Analysis: Phenol D5 is employed in various spectroscopic techniques, including infrared (IR) and Raman spectroscopy, where it can serve as a reference material or a standard for calibration. Its distinct spectral properties can assist in the characterization of other compounds.
3. Chemical Research: Researchers may use Phenol D5 as a reactant, solvent, or reagent in chemical reactions. The deuterium substitution can affect reaction pathways and mechanisms, making it useful in mechanistic studies.
4. Isotope Labeling: In certain chemical and biochemical studies, deuterated compounds like Phenol D5 can be used as isotopic labels to trace the behavior and pathways of molecules in reactions or biological systems.
5. Calibration Standards: Phenol D5 can be used as a calibration standard for analytical instruments, ensuring accurate and consistent measurements in various applications, including mass spectrometry.
6. Pharmaceutical and Medicinal Chemistry: It may find applications in pharmaceutical research, particularly in the development and analysis of drug compounds. Isotopic labeling can help in tracking specific functional groups in drug molecules.
7. Polymer and Material Science: Phenol D5 can be used in studies related to polymers and materials, where its properties can influence the characteristics of the resulting materials.
8. Environmental and Analytical Chemistry: In some cases, Phenol D5 or its derivatives can be used as internal standards in analytical chemistry for the quantification of compounds in environmental or industrial samples.
9. Biology and Biochemistry: Phenol D5 can be used in studies related to biological molecules, including proteins and nucleic acids, where its deuterium substitution can be employed for structural and functional investigations.
The choice to use Phenol D5 or any deuterated compound depends on the specific requirements of the experiment or analysis and should be made with consideration of safety and regulatory guidelines.
Phen-d5-ol
https://pubchem.ncbi.nlm.nih.gov/substance/?source=chemidplus&sourceid=0004165622
ChemIDplus Chemical Information Classification
https://pubchem.ncbi.nlm.nih.gov/source/ChemIDplus
4165-62-2
https://echa.europa.eu/information-on-chemicals/cl-inventory-database/-/discli/details/215816
Phenol-D5
https://spectrabase.com/spectrum/E28ueuYe9se
Phenol-D5
https://spectrabase.com/spectrum/9uAJK3CN3aK
Q63408938
https://www.wikidata.org/wiki/Q63408938
PubChem
https://pubchem.ncbi.nlm.nih.gov/substance/313057434#section=Information-Sources
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