119391-92-3

Basic information

• Product Name: N-TERT-BUTYL-D9-PHENYL-D5-NITRONE
• Synonyms: N-TERT-BUTYL-D9-PHENYL-D5-NITRONE;(Spin Trap)
• CAS NO: 119391-92-3
• Molecular Formula: C₁₁H₁₅NO
• Molecular Weight: 191.33
• Mol File: 119391-92-3.mol
• Article Data: 1

Chemical Properties

• Appearance: /
• CAS DataBase Reference: N-TERT-BUTYL-D9-PHENYL-D5-NITRONE(CAS DataBase Reference)
• NIST Chemistry Reference: N-TERT-BUTYL-D9-PHENYL-D5-NITRONE(119391-92-3)
• EPA Substance Registry System: N-TERT-BUTYL-D9-PHENYL-D5-NITRONE(119391-92-3)

Safety Data

• Hazardous Substances Data: 119391-92-3(Hazardous Substances Data)

Usage

Description

N-TERT-BUTYL-D9-PHENYL-D5-NITRONE, with the CAS number 119391-92-3, is an isotopically labeled research compound that is utilized in various scientific studies and experiments. It is a derivative of nitrone, a class of organic compounds known for their applications in chemistry and biochemistry.

Uses

Used in Research and Development:
N-TERT-BUTYL-D9-PHENYL-D5-NITRONE is used as a research compound for its isotopically labeled properties, which allow for the tracking and analysis of specific chemical reactions and processes in various scientific investigations.
Used in Chemical Reactions:
In the field of chemistry, N-TERT-BUTYL-D9-PHENYL-D5-NITRONE is used as a reactant or intermediate in the synthesis of other compounds, particularly those involving the study of reaction mechanisms and the development of new synthetic pathways.
Used in Biochemical Studies:
In biochemistry, N-TERT-BUTYL-D9-PHENYL-D5-NITRONE is employed as a tool to investigate the structure and function of biological molecules, such as proteins and enzymes, by providing insights into their interactions and reaction dynamics.
Used in Pharmaceutical Research:
N-TERT-BUTYL-D9-PHENYL-D5-NITRONE is also used in the pharmaceutical industry for the development of new drugs and therapeutic agents, as its isotopically labeled nature can aid in understanding the pharmacokinetics and pharmacodynamics of potential drug candidates.
Used in Analytical Chemistry:
In analytical chemistry, N-TERT-BUTYL-D9-PHENYL-D5-NITRONE serves as a valuable tracer and standard for the calibration of analytical instruments and the validation of experimental methods, ensuring the accuracy and reliability of chemical measurements.
Used in Environmental Science:
In environmental science, N-TERT-BUTYL-D9-PHENYL-D5-NITRONE can be employed as a tracer to study the fate and transport of pollutants in the environment, as well as to monitor the effectiveness of remediation strategies.
Used in Material Science:
In the field of material science, N-TERT-BUTYL-D9-PHENYL-D5-NITRONE may be used to investigate the properties and behavior of various materials, such as polymers and nanocomposites, by providing insights into their molecular structure and interactions.

Upstream product

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Relevant articles and documents

Enhanced Diagnostic EPR and ENDOR Spectroscopy of Radical Spin Adducts of Deuterated α-Phenyl N-tert-Butyl Nitrone

Deuterated analogues of C-phenyl N-tert-butyl nitrone (PBN) were synthesized to provide significant gains in spectral sensitivity and resolution in electron paramagnetic resonance (EPR) and electron nuclear double resonance (ENDOR) applications.Three deuterated α-phenyl N-tert-butyl nitrones (PBNs) were prepared.EPR spectra of the corresponding radical spin adducts with the phenyl ring (PBN-d5-R.) or tert-butyl moiety (PBN-d9-R.) deuterated were found to enhance disclosure of the structure of the added radical.The most dramatic increases in EPR resolution, however, were not realized until both the phenyl and tert-butyl groups were deuterated (PBN-d14-R.).Here, baseline resolution of unique long-range (e.g. γ- and δ-) hyperfine splittings from the radical addend could be displayed.Representative radical spin adducts of PBN-d14 (methyl, hydroxyl, aminyl, cyanyl, carbamoyl, and vinyl) were prepared and compared with those of PBN to illustrate this point.It is also shown that when even higher spin adduct resolution is desired the combination of spin trap deuteration and ENDOR may be applied to advantage. - Keywords: EPR Free radicals ENDOR Deuterated spin traps High resolution