Azetidine-d7 - 10mg

REF #: 4Z-A-292002
Short description

Azetidine-d7

Discover the power of Azetidine-d7, a versatile deuterated compound with a molecular formula of C3D7N and a molecular weight of 64.14g/mol. This high-purity chemical offers a unique blend of stability and reactivity, making it an invaluable tool for advanced research and development. Carefully handled, Azetidine-d7 can unlock new possibilities in your laboratory, from isotopic labeling studies to specialized synthesis applications. Embrace the precision and performance of this exceptional compound, and elevate your scientific endeavors to new heights.

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  • Procurenet Team Tshim Sha Tsui
    Hong Kong Hong Kong 3 years
Description

Azetidine-d7

Azetidine-d7, with the CAS number 503-29-7 and the reference number 4Z-A-292002, is a highly specialized and deuterated chemical compound that holds immense value for researchers and scientists across various fields. This versatile molecule, with its unique chemical structure and properties, offers a wealth of potential applications, from pharmaceutical development to material science innovations.

At the core of Azetidine-d7 is its deuterated nature, which sets it apart from its non-deuterated counterparts. The replacement of seven hydrogen atoms with deuterium atoms, resulting in the molecular formula C3D7N, endows this compound with distinct physical and chemical characteristics. This deuteration can provide valuable insights into reaction mechanisms, kinetic isotope effects, and metabolic pathways, making Azetidine-d7 a crucial tool for in-depth scientific investigations.

Pharmaceutical Research and Development

In the realm of pharmaceutical research, Azetidine-d7 finds its niche as a valuable building block and probe molecule. Its deuterated structure can be leveraged to study the pharmacokinetics and pharmacodynamics of drug candidates, offering a deeper understanding of their absorption, distribution, metabolism, and excretion (ADME) profiles. By tracing the fate of the deuterium-labeled compound, researchers can gain insights into the metabolic pathways and potential mechanisms of action, ultimately aiding in the development of more effective and safer therapeutic agents.

Furthermore, the unique properties of Azetidine-d7 can be exploited in the synthesis of novel pharmaceutical compounds. Its reactivity and selectivity make it a versatile reagent, enabling the construction of complex molecular structures with tailored biological activities. This versatility opens up new avenues for the discovery and optimization of drug candidates targeting a wide range of health conditions.

Material Science and Chemical Synthesis

Beyond the pharmaceutical realm, Azetidine-d7 also finds applications in the field of material science and chemical synthesis. Its deuterated structure can be leveraged to study the effects of isotopic substitution on the physical and chemical properties of materials, such as thermal stability, optical characteristics, and reactivity.

In the realm of chemical synthesis, Azetidine-d7 serves as a valuable tool for researchers exploring the development of new materials and compounds with enhanced performance. Its unique reactivity and selectivity can be harnessed to create novel substances with tailored properties, opening up possibilities for advancements in areas like energy storage, catalysis, and advanced functional materials.

Technical Specifications and Handling

Azetidine-d7 has a molecular weight of 64.14 g/mol and a chemical formula of C3D7N. This product is intended for laboratory use only and is not meant for human consumption.

When handling Azetidine-d7, it is crucial to adhere to standard laboratory safety protocols. Appropriate personal protective equipment (PPE), such as gloves, lab coat, and eye protection, should be worn to minimize exposure. Additionally, the compound should be stored in a cool, well-ventilated area to maintain its stability and purity over the long term.

Unlocking the Potential

Azetidine-d7 is a remarkable chemical compound that holds immense potential for researchers and scientists across various disciplines. Its deuterated structure and unique properties make it a valuable tool for exploring the frontiers of pharmaceutical development, material science, and chemical synthesis. By leveraging the capabilities of Azetidine-d7, researchers can unlock new possibilities, drive innovation, and contribute to the advancement of scientific knowledge. Embrace the power of this versatile compound and embark on your next groundbreaking discovery.

Specifications
  • Formula: C3D7N
  • Molecular weight: 64.14
  • Notes: This product is intended for laboratory use only, and it is not meant for human consumption.
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