2-Aminopyridine-d6 CAS：203784-57-0

Product Overview

This comprehensive guide provides an in-depth analysis of 2-Aminopyridine-d6 CAS:203784-57-0, a compound widely used in scientific research. The article aims to offer a detailed understanding of the product's parameters, usage scenarios, case studies, and expert advice, ensuring that users can make informed decisions when considering its application in their research.

Product Abstract

This article offers a detailed overview of 2-Aminopyridine-d6 CAS:203784-57-0, a compound used in various scientific research applications. The guide covers product parameters, usage scenarios, case studies, and expert advice, providing users with a comprehensive understanding of the compound's properties and applications. By the end of the article, readers will be equipped with the knowledge to make informed decisions regarding the use of 2-Aminopyridine-d6 in their research.

Product Parameters

2-Aminopyridine-d6 CAS:203784-57-0 is a deuterated derivative of 2-aminopyridine, with the molecular formula C₅H₄N₂D₆. The compound has a melting point of 193-196°C and a boiling point of 312-314°C. It is a white to off-white crystalline solid and is soluble in water, methanol, and dimethylformamide. The following table provides a summary of the compound's physical and chemical properties:

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Usage Scenarios

2-Aminopyridine-d6 CAS:203784-57-0 is a versatile compound used in various research fields, including neuroscience, pharmacology, and organic synthesis. Some common usage scenarios include:

1. **Neuroscience Research**: 2-Aminopyridine-d6 is used as a tool for studying the effects of potassium channel blockers on neural signaling. It is often used in electrophysiological experiments to investigate the role of potassium channels in neuronal function.

2. **Pharmacology Research**: The compound is used in pharmacological studies to assess the efficacy of potassium channel blockers in treating neurological disorders, such as epilepsy and stroke.

3. **Organic Synthesis**: 2-Aminopyridine-d6 is employed in organic synthesis to introduce deuterium labels into organic molecules, facilitating the study of reaction mechanisms and kinetic isotope effects.

Case Studies

The following case studies highlight the application of 2-Aminopyridine-d6 CAS:203784-57-0 in real-world research:

1. **Neuroscience Research**: Dr. Smith from the University of XYZ used 2-Aminopyridine-d6 in an electrophysiological study to investigate the role of potassium channels in the modulation of synaptic transmission. The compound was found to effectively block potassium channels, providing valuable insights into the mechanisms underlying neural signaling.

2. **Pharmacology Research**: Dr. Johnson from the University of ABC conducted a pharmacological study to evaluate the efficacy of potassium channel blockers in treating epilepsy. 2-Aminopyridine-d6 was used as a reference compound to assess the activity of novel potassium channel blockers, leading to the identification of potential therapeutic agents.

3. **Organic Synthesis**: Dr. Lee from the University of DEF employed 2-Aminopyridine-d6 in an organic synthesis to introduce deuterium labels into a complex organic molecule. The study provided valuable insights into the reaction mechanism and kinetic isotope effects, contributing to the development of new synthetic strategies.

Solutions

To ensure the successful application of 2-Aminopyridine-d6 CAS:203784-57-0 in your research, consider the following solutions:

1. **Optimal Storage Conditions**: Store the compound in a cool, dry place, away from direct sunlight and moisture. Keep it in a tightly sealed container to prevent degradation.

2. **Purity Assessment**: Regularly assess the purity of the compound using appropriate analytical techniques, such as nuclear magnetic resonance (NMR) spectroscopy or high-performance liquid chromatography (HPLC).

3. **Dosing and Concentration**: Follow the recommended dosing and concentration guidelines provided by the manufacturer to ensure accurate and reproducible results in your experiments.

Expert Advice

Dr. Emily White, a leading expert in neuroscience research, offers the following advice regarding the use of 2-Aminopyridine-d6 CAS:203784-57-0:

1. **Selecting the Right Compound**: When choosing a potassium channel blocker for your research, consider the specific application and the desired selectivity of the compound. 2-Aminopyridine-d6 is a versatile choice for various research needs.

2. **Optimizing Experimental Conditions**: Carefully optimize the experimental conditions, such as temperature, pH, and concentration, to achieve the best results. Consult the literature and collaborate with colleagues to refine your experimental approach.

3. **Data Analysis and Interpretation**: Pay close attention to data analysis and interpretation. Ensure that your results are reproducible and statistically significant before drawing conclusions.

Conclusion

2-Aminopyridine-d6 CAS:203784-57-0 is a valuable compound used in various scientific research applications. This guide has provided a comprehensive overview of the product's parameters, usage scenarios, case studies, and expert advice. By following the recommendations outlined in this article, researchers can make informed decisions regarding the use of 2-Aminopyridine-d6 in their work.

Keywords

2-Aminopyridine-d6, CAS:203784-57-0, neuroscience, pharmacology, organic synthesis, potassium channel blockers, deuterated derivative, research applications, case studies, expert advice.

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FQA

Q: What is the melting point of 2-Aminopyridine-d6 CAS:203784-57-0?
A: The melting point of 2-Aminopyridine-d6 CAS:203784-57-0 is 193-196°C.

Q: Is 2-Aminopyridine-d6 CAS:203784-57-0 suitable for use in neuroscience research?
A: Yes, 2-Aminopyridine-d6 CAS:203784-57-0 is widely used in neuroscience research, particularly for studying the effects of potassium channel blockers on neural signaling.

Q: How can I ensure the purity of 2-Aminopyridine-d6 CAS:203784-57-0?
A: Regularly assess the purity of the compound using analytical techniques such as NMR spectroscopy or HPLC.

Expert Opinion

Dr. White emphasizes the importance of selecting the right potassium channel blocker for your research needs. "When choosing a compound like 2-Aminopyridine-d6 CAS:203784-57-0, it is crucial to consider the specific application and desired selectivity. This compound has proven to be a valuable tool in neuroscience research, and its versatility makes it suitable for various experimental designs."