1,1,2,2-Tetrachloroethane-d2: Properties and Applications in Research
Explore the critical role of deuterated tetrachloroethane in advanced chemical analysis and synthesis.
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1,1,2,2-Tetrachloroethane-d2
This deuterated organic compound serves as a vital NMR solvent and reagent, significantly reducing background noise and enhancing signal clarity in spectroscopic analyses. Its precise isotopic labeling is crucial for various research applications in organic chemistry and material science.
- Leveraging 1,1,2,2-tetrachloroethane-d2 NMR solvent capabilities allows researchers to achieve unparalleled signal resolution in complex molecular studies.
- The synthesis of 1,1,2,2-tetrachloroethane-d2 involves precise deuterium incorporation methods, ensuring high isotopic purity for analytical accuracy.
- Understanding the CAS 33685-54-0 properties is key to its effective utilization in chemical synthesis and research environments.
- As a deuterated solvent, it plays a critical role in advanced NMR spectroscopy for detailed structural elucidation.
Key Advantages
Enhanced Spectroscopic Clarity
Utilizing this deuterated compound as an NMR solvent significantly minimizes proton interference, leading to cleaner spectra and more accurate data for chemical synthesis and analysis.
Precise Isotopic Labeling
The high deuterium content ensures its effectiveness in tracing reaction pathways and studying reaction mechanisms in organic chemistry, benefiting from specific isotopic labeling.
Versatile Research Applications
Beyond NMR, its unique properties make it valuable in various research fields, including material science and the development of new chemical entities.
Key Applications
NMR Spectroscopy
As a crucial NMR solvent, it provides a deuterated environment that is essential for obtaining clear spectral data in organic chemistry research.
Chemical Synthesis
This compound is employed as a reagent or solvent in specific chemical synthesis processes, aiding in the creation of complex molecules.
Material Science Research
Its unique properties make it useful in the study and development of advanced materials, contributing to innovations in electronics and other fields.
Isotopically Labeled Studies
The deuterated nature makes it an ideal candidate for studies requiring precise tracing of molecules and reaction mechanisms.
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