Cas no 362049-61-4 (Piperazine-d10)

Piperazine-d10 is a deuterated analog of piperazine, where ten hydrogen atoms are replaced with deuterium. This isotopic labeling enhances the compound's utility in NMR spectroscopy and mass spectrometry, providing distinct spectral signatures for precise tracking in metabolic and pharmacokinetic studies. Its high isotopic purity (typically ≥98%) ensures minimal interference from non-deuterated species, making it valuable for quantitative analysis. Piperazine-d10 is commonly employed as an internal standard or tracer in pharmaceutical and biochemical research, improving accuracy in detection and quantification. The compound's stability under standard laboratory conditions further supports its use in long-term experimental workflows.
Piperazine-d10 structure
Piperazine-d10 structure
Product Name:Piperazine-d10
CAS No:362049-61-4
MF:C4H10N2
MW:96.197217464447
MDL:MFCD01861593
CID:297095
PubChem ID:49849344
Update Time:2025-05-20

Piperazine-d10 Chemical and Physical Properties

Names and Identifiers

    • Piperazine-d10
    • 362049-61-4
    • (~2~H_10_)Piperazine
    • DTXSID50678652
    • 1,2,2,3,3,4,5,5,6,6-decadeuteriopiperazine
    • D98051
    • MDL: MFCD01861593
    • Inchi: 1S/C4H10N2/c1-2-6-4-3-5-1/h5-6H,1-4H2/i1D2,2D2,3D2,4D2/hD2
    • InChI Key: GLUUGHFHXGJENI-YQMDOBQVSA-N
    • SMILES: N1([2H])C([2H])([2H])C([2H])([2H])N([2H])C([2H])([2H])C1([2H])[2H]

Computed Properties

  • Exact Mass: 96.147165787g/mol
  • Monoisotopic Mass: 96.147165787g/mol
  • Isotope Atom Count: 10
  • Hydrogen Bond Donor Count: 2
  • Hydrogen Bond Acceptor Count: 2
  • Heavy Atom Count: 6
  • Rotatable Bond Count: 0
  • Complexity: 26.5
  • Covalently-Bonded Unit Count: 1
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • XLogP3: -1.5
  • Topological Polar Surface Area: 24.1?2

Piperazine-d10 Pricemore >>

Related Categories No. Product Name Cas No. Purity Specification Price update time Inquiry
TRC
P479901-10mg
Piperazine-d10
362049-61-4
10mg
$ 64.00 2023-09-06
TRC
P479901-50mg
Piperazine-d10
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$ 144.00 2023-04-15
TRC
P479901-100mg
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$ 196.00 2023-04-15
AstaTech
D98051-0.1/G
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0.1g
$357 2023-09-19
AstaTech
D98051-0.25/G
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$515 2023-09-19
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$912 2023-09-19

Additional information on Piperazine-d10

Introduction to Piperazine-d10 (CAS No. 362049-61-4)

Piperazine-d10, with the chemical formula C4H8D10N2, is a deuterated derivative of piperazine, a compound that has garnered significant attention in the field of pharmaceutical and biochemical research. The use of deuterated compounds, such as Piperazine-d10, has become increasingly prevalent due to their unique properties that make them valuable in various scientific applications. This introduction aims to provide a comprehensive overview of Piperazine-d10, its applications, and the latest research findings that highlight its importance in modern science.

The name Piperazine-d10 itself is indicative of its molecular structure, which includes ten deuterium atoms replacing hydrogen atoms in the original piperazine molecule. This modification enhances the compound's stability and longevity in analytical techniques, making it particularly useful in mass spectrometry and nuclear magnetic resonance (NMR) spectroscopy. The CAS number 362049-61-4 is a unique identifier that ensures precise classification and tracking of this compound in scientific literature and databases.

One of the most compelling aspects of Piperazine-d10 is its utility as an internal standard in analytical chemistry. Internal standards are substances added to a sample to aid in quantitative analysis by providing a reference point for measurement. Due to its stable isotope composition, Piperazine-d10 allows researchers to accurately quantify piperazine derivatives in complex mixtures without interference from other compounds. This capability has been particularly valuable in metabolomics studies, where precise measurement of metabolic pathways is crucial.

Recent advancements in drug development have highlighted the importance of Piperazine-d10 in preclinical studies. Its deuterated nature makes it an excellent tool for studying drug metabolism and pharmacokinetics. For instance, researchers have utilized Piperazine-d10 to investigate the metabolic pathways of drugs that contain piperazine moieties. By tracking the degradation products of these drugs, scientists can gain insights into their potential side effects and optimize their formulations for better efficacy and safety.

The name Piperazine-d10 has also found applications in the field of environmental science. Its stability under various environmental conditions makes it an ideal candidate for tracing pollutants and studying their degradation processes. In one notable study, researchers used Piperazine-d10 to monitor the breakdown of piperazine-based pollutants in aquatic systems. The findings revealed that these compounds undergo biodegradation over time, but their persistence can pose significant environmental risks if not properly managed.

In addition to its analytical and environmental applications, Piperazine-d10 has been explored for its potential role in therapeutic development. Piperazine derivatives are known for their broad spectrum of biological activities, including antifungal, antibacterial, and antiviral properties. The deuterated version of piperazine offers a way to study these activities without the interference of hydrogen isotopes, providing clearer insights into their mechanisms of action.

One area where Piperazine-d10 has shown promise is in the development of antifungal agents. Fungal infections are a growing concern due to the rise of drug-resistant strains. Researchers have synthesized various piperazine-based compounds and used Piperazine-d10 as an internal standard to evaluate their efficacy against different fungal species. These studies have identified several promising candidates that could lead to new treatments for fungal infections.

The CAS number 362049-61-4 associated with Piperazine-d10 underscores its significance as a research-grade chemical. This unique identifier ensures that researchers around the world can reliably obtain and utilize this compound for their studies. The availability of high-purity Piperazine-d10 from reputable suppliers has facilitated numerous research projects across academia and industry.

Another interesting application of Piperazine-d10 is in the field of material science. Deuterated compounds are often used to study the structural properties of materials using NMR spectroscopy. By analyzing the NMR spectra of materials containing Piperazine-d10, scientists can gain insights into their molecular structure and dynamics. This information is crucial for developing new materials with enhanced properties such as strength, durability, and conductivity.

The versatility of Piperazine-d10 extends to its use as a ligand in coordination chemistry. Piperazine derivatives can form stable complexes with metal ions, which are essential for various catalytic processes. Researchers have used Piperazine-d10 to study these metal complexes and understand how they influence chemical reactions. Such studies have led to the development of more efficient catalysts for industrial applications.

In conclusion, Piperazine-d10 (CAS No. 362049-61-4) is a multifaceted compound with significant applications across multiple scientific disciplines. Its deuterated structure enhances its utility as an internal standard in analytical chemistry, a tool for studying drug metabolism, and a marker for environmental pollutants. Furthermore, its potential in therapeutic development and material science underscores its importance as a research-grade chemical.

As research continues to evolve, the applications of Piperazine-d10 are likely to expand further. The ongoing development of new analytical techniques and pharmaceuticals will undoubtedly rely on this compound's unique properties to drive innovation forward. For scientists and researchers working in these fields, access to high-quality Piperazine-d10 will remain invaluable.

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