Deuterated 2-Ethyl-d5 pyridine

$375.00

  • Pack size: 1g, For larger quantity, please enquire.
  • Availability: Lead time 4-6 weeks
  • Catalogue number: RM-D-364
  • Synonyms: 2-Ethylpyridine-d5, Ethylpyridine-d5, 2-Ethylpyridine (d5), Deuterated 2-Ethylpyridine, Pyridine, 2-ethyl-d5-, 2-Ethyl-d5-pyridine.
  • Price Match Policy: We match verified competitor quote prices.
SKU: RM-D-364 Category:

Deuterated 2-Ethyl-d5 Pyridine

Deuterated 2-Ethyl-d5 Pyridine is a stable isotope-labeled analog of 2-ethylpyridine in which five hydrogen atoms are replaced with deuterium (²H). This isotopically enriched compound retains the same chemical behavior as the non-labeled molecule while exhibiting a distinct mass shift, making it an indispensable tool for modern analytical chemistry, pharmaceutical research, environmental analysis, and bioanalytical method development.

At ResolveMass Laboratories Inc., we provide high-quality deuterated reference standards manufactured to meet the demanding requirements of research laboratories, pharmaceutical companies, CROs, academic institutions, and analytical testing facilities. Our isotope-labeled compounds are designed to support accurate quantification, method validation, instrument calibration, and regulatory-compliant analytical workflows.

Chemical Characteristics

Property Value
Chemical Name Deuterated 2-Ethyl-d5 Pyridine
Molecular Formula C₇Hā‚„Dā‚…N
Molecular Weight 112.18 g/mol
Appearance Clear, colorless liquid
Chemical Class Stable isotope-labeled pyridine

Applications in Mass Spectrometry

Stable isotope-labeled compounds are considered the gold standard for quantitative mass spectrometric analysis. Deuterated 2-Ethyl-d5 Pyridine is widely employed as an internal standard in GC-MS and LC-MS/MS methods due to its nearly identical chromatographic behavior compared with unlabeled 2-ethylpyridine.

Using an isotopically labeled internal standard significantly improves analytical accuracy by correcting for:

  • Sample preparation losses
  • Matrix suppression or enhancement
  • Instrument response variability
  • Extraction efficiency differences
  • Injection volume inconsistencies
  • Day-to-day analytical variation

These advantages make Deuterated 2-Ethyl-d5 Pyridine an essential component of validated analytical methods used across research and industrial laboratories.

Pharmaceutical Research Applications

Pharmaceutical laboratories rely heavily on isotope-labeled reference materials throughout drug discovery and development. Deuterated 2-Ethyl-d5 Pyridine supports numerous research activities involving pyridine-containing compounds and related chemical entities.

Typical pharmaceutical applications include:

  • Analytical method development
  • Quantitative LC-MS/MS assays
  • Drug metabolism investigations
  • Impurity profiling
  • Stability studies
  • Pharmacokinetic research
  • Bioanalytical method validation
  • Quality control testing

The use of stable isotope standards improves confidence in quantitative results while supporting regulatory expectations for robust analytical methods.

Environmental and Industrial Testing

Pyridine derivatives are widely used in chemical manufacturing, agricultural products, specialty chemicals, and industrial processes. Consequently, laboratories frequently monitor these compounds in environmental and industrial samples.

Deuterated 2-Ethyl-d5 Pyridine serves as an internal standard for the determination of pyridine derivatives in:

  • Water samples
  • Wastewater
  • Soil extracts
  • Industrial emissions
  • Chemical manufacturing products
  • Process intermediates
  • Environmental monitoring studies

Its use improves quantitative reliability across complex sample matrices where matrix effects may otherwise compromise analytical accuracy.

Research and Academic Applications

Universities and research institutions use isotope-labeled compounds extensively in analytical chemistry and chemical research. Deuterated 2-Ethyl-d5 Pyridine is valuable for studies involving:

  • Stable isotope labeling
  • Reaction mechanism investigations
  • Spectroscopic analysis
  • Mass spectrometry education
  • Method optimization
  • Chromatographic method development
  • Isotope dilution experiments
  • Chemical kinetics research

Its predictable analytical behavior makes it suitable for both fundamental and applied scientific investigations.

Benefits of Stable Isotope Labeling

Replacing hydrogen atoms with deuterium provides several analytical advantages while maintaining nearly identical chemical properties.

Key benefits include:

  • Distinct molecular mass for selective detection
  • Excellent chromatographic similarity to the native analyte
  • Improved quantitative precision
  • Enhanced analytical reproducibility
  • Reduced analytical variability
  • Better correction for matrix effects
  • Increased confidence in trace-level measurements

These characteristics explain why isotope dilution mass spectrometry remains one of the most accurate quantitative analytical techniques available.

Role in Method Validation

Analytical laboratories developing validated GC-MS or LC-MS/MS methods require reliable internal standards to demonstrate method performance. Deuterated 2-Ethyl-d5 Pyridine assists in evaluating critical validation parameters including:

  • Accuracy
  • Precision
  • Recovery
  • Linearity
  • Selectivity
  • Sensitivity
  • Repeatability
  • Intermediate precision
  • Robustness

These validation studies are essential for pharmaceutical, environmental, forensic, and industrial laboratories operating under regulated quality systems.

Quality Considerations

Reliable analytical results begin with high-quality reference materials. Laboratories selecting isotope-labeled standards should consider factors such as:

  • Isotopic enrichment
  • Chemical purity
  • Structural identity
  • Batch consistency
  • Storage stability
  • Certificate of Analysis availability
  • Comprehensive product documentation

High-quality isotope-labeled standards help minimize experimental uncertainty while supporting reproducible analytical performance over the lifetime of a research project.

Why Choose ResolveMass Laboratories Inc.

ResolveMass Laboratories Inc. is committed to supplying premium stable isotope-labeled compounds that support advanced analytical research across multiple scientific disciplines. Our products are intended for research and laboratory use and are manufactured with strict quality standards to meet the evolving needs of pharmaceutical, biotechnology, environmental, and academic laboratories.

Researchers choose ResolveMass because of our commitment to:

  • High-purity isotope-labeled reference materials
  • Reliable batch-to-batch consistency
  • Support for LC-MS/MS and GC-MS applications
  • Excellent technical expertise
  • Comprehensive analytical documentation
  • Responsive customer service
  • Efficient global distribution

Whether you are developing a new analytical method, validating a quantitative assay, or conducting advanced research involving pyridine derivatives, our isotope-labeled standards provide the accuracy and reliability required for high-quality analytical results.

Order Deuterated 2-Ethyl-d5 Pyridine

ResolveMass Laboratories Inc. supplies Deuterated 2-Ethyl-d5 Pyridine to support analytical chemistry, pharmaceutical development, environmental testing, and academic research. Our stable isotope-labeled reference standards are designed to help laboratories achieve precise quantification, reproducible analytical performance, and dependable mass spectrometric results.

For product specifications, technical information, pricing, availability, or customized isotope-labeled solutions, contact ResolveMass Laboratories Inc. Our scientific team is available to help identify the appropriate reference standard for your analytical and research requirements.

 

Learn more about Deuterated Chemiclas through,

PubChem Substance ID:

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