You use methyl-d3-amine hydrochloride to create new molecules in modern labs. Its deuterium labeling helps you track chemical changes with greater accuracy. High purity ensures your experiments stay reliable and repeatable. You rely on this compound as a key intermediate. It gives you a strong foundation for both synthesis and analysis in organic chemistry.
Key Takeaways
- Methyl-d3-amine hydrochloride is essential for creating new molecules in labs, providing high purity and reliable results.
- Deuterium labeling enhances your ability to track chemical reactions, improving accuracy in experiments and analysis.
- This compound supports drug development by creating deuterated drugs that offer better stability and effects in the body.
- Proper storage and safety practices are crucial for maintaining the integrity of methyl-d3-amine hydrochloride during experiments.
- Using this compound can lead to significant advancements in molecular research and drug analysis, making your work more effective.
Methyl-d3-amine hydrochloride: properties and structure
Molecular formula and synonyms
You work with methyl-d3-amine hydrochloride in many research labs. This compound stands out because of its clear structure and high purity. You can recognize it by these important details:
- Molecular Formula: CD3NH2·HCl
- CAS Number: 7436-22-8
- Molecular Weight: 70.54
- Appearance: White powder
- Purity: 99.5%
You might also see other names for this compound. Some common synonyms include (2H3)methylammonium chloride and trideuteriomethanamine hydrochloride. These names show that the compound contains deuterium atoms instead of regular hydrogen.
You can use several methods to check the quality of methyl-d3-amine hydrochloride. Scientists often use Fourier-transform infrared (FTIR) spectroscopy to measure isotopic purity. Liquid chromatography-mass spectrometry (LC-MS) helps you confirm the structure and purity of the compound.
Deuterium labeling benefits
Deuterium labeling gives you a powerful tool in organic chemistry. When you use methyl-d3-amine hydrochloride, you add deuterium atoms to your molecules. Deuterium is a heavier form of hydrogen. This small change makes a big difference in your experiments.
You can track chemical reactions more easily because deuterium acts like a marker. This helps you see how molecules change during a reaction. You also get better results in analytical techniques like NMR and mass spectrometry. The deuterium label makes it easier to spot your compound among many others.
Tip: Deuterium-labeled compounds like methyl-d3-amine hydrochloride help you study reaction pathways and improve the accuracy of your research.
You rely on this compound for its stability and clear labeling. It supports your work in creating new molecules and understanding how chemical reactions happen.
Uses in organic synthesis
Mechanistic studies
You can use methyl-d3-amine hydrochloride to study how chemical reactions work. The deuterium atoms in this compound act like tiny markers. When you add it to a reaction, you can see where the deuterium goes. This helps you understand which bonds break and which bonds form. You can follow the path of atoms during a reaction. This makes your research more accurate and helps you learn more about reaction mechanisms.
Note: Deuterium labeling lets you track molecules without changing their chemical behavior.
Labeled pharmaceuticals
You play an important role in drug development when you use methyl-d3-amine hydrochloride. Many scientists use this compound to make deuterated drugs. These drugs can have better stability and different effects in the body. You can also use it as a marker in pharmaceutical testing. Here are some ways you might use it:
- You can create deuterated active pharmaceutical ingredients for new medicines.
- You can use it as an isotopic marker in mass spectrometry to measure small molecules in drug samples.
- You can test antihistamines in medicine using special techniques like capillary electrophoresis.
This compound helps you make safer and more effective medicines.
Analytical techniques
You can improve your analysis with methyl-d3-amine hydrochloride. The deuterium label makes it easier to see your compound in NMR and mass spectrometry. You can separate your labeled molecules from others in a mixture. This helps you get clear results. You can also use it to measure how much of a compound is present. This makes your experiments more reliable and your data more accurate.
Tip: Deuterium-labeled compounds help you solve complex problems in organic chemistry.
You can trust methyl-d3-amine hydrochloride to support your work in synthesis, drug development, and advanced analysis.
Practical handling and sourcing
Storage and safety
You need to keep your chemicals safe and stable. Methyl-d3-amine hydrochloride stays pure when you store it the right way. Always keep the container tightly closed. Place it in a cool, dry spot. Avoid moisture and direct sunlight. This helps the compound last longer and keeps your results accurate.
Here is a quick guide for storage:
| Storage Condition | Recommendation |
|---|---|
| Temperature | Store at room temperature |
You should also follow basic safety steps. Wear gloves and goggles when you handle the powder. Work in a well-ventilated area. Wash your hands after use. Never eat or drink near your work area. If you spill any powder, clean it up right away. Dispose of waste according to your lab’s rules.
Tip: Always read the safety data sheet before you start your experiment.
Supplier information
You can find high-purity methyl-d3-amine hydrochloride from several suppliers. Leichi Chem offers this compound for research use. Other companies also provide it with different packaging and delivery times. Here is a table to help you compare:
| Supplier Name | Purity | Delivery Time | Packaging Options |
|---|---|---|---|
| Hangzhou Johoo Chemical Co., Ltd | 99.0% min | 1 week | 25kgs/drum, 200kg/drum |
You should check the purity and packaging before you order. Make sure the supplier meets your research needs. Always follow your institution’s guidelines when you buy chemicals.
Case studies and research impact
Molecular discoveries
You can see how scientists use methyl-d3-amine hydrochloride to make new discoveries in chemistry. This compound helps you study molecules in ways that were not possible before. Researchers use it to label molecules with deuterium. You can track changes in chemical reactions more easily. This makes your experiments more accurate.
Here is a table that shows how methyl-d3-amine hydrochloride helps in molecular research:
| Description | Why It Matters |
|---|---|
| Derivatization improves analysis of metabolites by LC–ESI-MS | You can identify and measure metabolites better |
| Suitable for metabolite identification and quantification | You get more reliable results in your research |
| Stable isotope labeling is convenient and economic | You save time and resources |
| Isotopic derivatives are ideal for differential metabolic analysis | You can compare samples with greater accuracy |
You can use these methods to study how molecules change in living things. This helps you understand biology and chemistry at a deeper level.
Tip: When you use stable isotope labeling, you make your research more cost-effective and precise.
Innovations in drug analysis
You can also use methyl-d3-amine hydrochloride to improve drug analysis. Scientists use this compound to create labeled drugs. You can test how medicines work in the body. The deuterium label helps you follow the path of a drug. You can measure how much of a drug is present in a sample. This makes your results more trustworthy.
Researchers use labeled compounds to study drug metabolism. You can see how a medicine breaks down in the body. This helps you design safer and more effective drugs. You can also use these techniques to check the purity of pharmaceuticals.
Note: Labeled drugs help you find new ways to treat diseases and improve patient safety.
You can rely on methyl-d3-amine hydrochloride to support your work in both molecular research and drug development. This compound gives you tools to make important discoveries and advance science.
You see how methyl-d3-amine hydrochloride helps you build new molecules and analyze chemical reactions. This compound gives you reliable results in organic synthesis and research. You use it to improve your experiments and discover new solutions.
- You gain better accuracy in analysis.
- You create safer and more effective medicines.
Remember to explore new ways to use this compound and always follow safe lab practices.
FAQ
What is Methyl-d3-amine hydrochloride used for?
You use Methyl-d3-amine hydrochloride in organic chemistry labs. It helps you trace reaction pathways, develop new drugs, and improve analytical techniques like NMR and mass spectrometry.
How should you store Methyl-d3-amine hydrochloride?
You should keep the container tightly closed. Store it in a cool, dry place. Avoid moisture and sunlight. This keeps the compound stable and pure for your experiments.
Is Methyl-d3-amine hydrochloride safe for human use?
You should not use this compound for humans. It is for research only. Always follow lab safety rules and read the safety data sheet before handling.
How does deuterium labeling help your research?
Deuterium labeling lets you track molecules during chemical reactions. You can see how atoms move and change. This makes your results more accurate and helps you understand complex processes.
Where can you buy Methyl-d3-amine hydrochloride?
You can order Methyl-d3-amine hydrochloride from chemical suppliers. Check the purity and packaging before you buy. Make sure the supplier meets your research needs.
Post time: Jan-13-2026
