4'-Hydroxy Atomoxetine-d3 Hemioxalate - 10mg

REF #: 4Z-A-254
Short description

4'-Hydroxy Atomoxetine-d3 Hemioxalate

Discover the power of 4'-Hydroxy Atomoxetine-d3 Hemioxalate, a versatile and high-purity chemical compound with a CAS number of 457634-21-8. This white to off-white solid boasts a molecular weight of 274.38 g/mol and a formula of C17H18NO2D3·C2H2O4, making it a valuable asset for your research and development needs. Handle with care, as it is classified as harmful if swallowed, in contact with skin, or inhaled, and may cause skin and eye irritation. Always store in a cool, well-ventilated area and wear appropriate protective equipment. Unlock the potential of this exceptional chemical in your next project and experience the precision and performance it offers.

  • CAS: 457634-21-8
  • Ref #: 4Z-A-254
  • Molecular Weight: 274.38 g/mol
  • Formula: C17H18NO2D3·C2H2O4
  • Color/Form: White To Off-White Solid
Quantity :
  • Procurenet Team Tshim Sha Tsui
    Hong Kong Hong Kong 3 years
Description

4'-Hydroxy Atomoxetine-d3 Hemioxalate

Unlock the versatile potential of 4'-Hydroxy Atomoxetine-d3 Hemioxalate, a meticulously crafted chemical compound that holds the key to unlocking new frontiers in scientific research and development. This deuterated impurity of the popular antidepressant drug Atomoxetine, identified by the CAS number 457634-21-8, offers a unique blend of properties that make it an invaluable asset for researchers across various disciplines.

At the heart of this compound lies a captivating molecular structure, featuring a deuterated (d3) hydroxy group attached to the Atomoxetine backbone. This subtle yet impactful modification imbues 4'-Hydroxy Atomoxetine-d3 Hemioxalate with a distinct set of characteristics, making it a valuable tool for in-depth investigations and cutting-edge applications.

Whether you're a pharmaceutical scientist exploring novel drug candidates, a material scientist seeking to develop advanced materials, or a chemist pushing the boundaries of synthetic chemistry, this versatile compound can be the catalyst for your next breakthrough. Its unique properties, combined with its high purity and meticulous quality control, ensure reliable and reproducible results in your research endeavors.

Unraveling the Mysteries of Atomoxetine Metabolism

As a deuterated impurity of Atomoxetine, 4'-Hydroxy Atomoxetine-d3 Hemioxalate holds immense potential in the realm of pharmaceutical research. By studying the metabolic pathways and pharmacokinetics of this compound, researchers can gain invaluable insights into the behavior and fate of the parent drug, Atomoxetine, within the human body.

The strategic placement of deuterium atoms in the molecule allows for the precise tracking of metabolic processes, enabling researchers to uncover the intricate mechanisms underlying drug absorption, distribution, metabolism, and elimination. This knowledge can inform the development of more effective and safer therapeutic interventions, ultimately benefiting patients suffering from a range of neurological and psychiatric conditions.

Advancing Material Science Innovations

Beyond its pharmaceutical applications, 4'-Hydroxy Atomoxetine-d3 Hemioxalate also holds immense potential in the field of material science. Its unique chemical structure, characterized by the presence of deuterium and the hemioxalate counterion, can be leveraged to engineer novel materials with enhanced properties.

Researchers in the material science domain can explore the use of this compound as a building block or additive in the synthesis of advanced polymers, coatings, or functional materials. The deuterium labeling can provide valuable insights into the behavior and performance of these materials under various conditions, leading to the development of innovative solutions with improved thermal stability, mechanical strength, or optical characteristics.

Unlocking the Potential of Synthetic Chemistry

For chemists and synthetic organic researchers, 4'-Hydroxy Atomoxetine-d3 Hemioxalate represents a versatile platform for exploring the boundaries of chemical reactivity and selectivity. Its distinct molecular architecture, with the deuterated hydroxy group and the hemioxalate counterion, can serve as a valuable starting point for the design and synthesis of novel compounds with tailored properties.

By leveraging the unique reactivity of this compound, chemists can develop innovative synthetic methodologies, expand the scope of existing transformations, and create a diverse array of molecular scaffolds. These advancements can lead to the discovery of new chemical entities with potential applications in pharmaceuticals, agrochemicals, or other specialized fields, ultimately driving scientific progress and expanding the frontiers of knowledge.

Ensuring Quality and Safety

At the core of 4'-Hydroxy Atomoxetine-d3 Hemioxalate's value lies its exceptional quality and purity. Meticulously synthesized and rigorously tested, this compound meets the highest standards of analytical and safety specifications, ensuring reliable and reproducible results in your research endeavors.

The detailed chemical information, including its molecular weight, formula, and physical appearance, provides a clear understanding of the compound's identity and characteristics. Furthermore, the comprehensive haz

Specifications
  • Color form: White To Off-White Solid
  • Formula: C17H18NO2D3·C2H2O4
  • H statements: H302:Harmful if swallowed.H312:Harmful in contact with skin.H315:Causes skin irritation.H319:Causes serious eye irritation.H332:Harmful if inhaled.
  • Long term storage: Keep refrigerated as specification of Certificate of Analysis. Keep container tightly closed in a dry and well-ventilated place.
  • Molecular weight: 274.38 90.04
  • Notes: This product is intended for laboratory use only, and it is not meant for human consumption.
  • P statements: P261:Avoid breathing dust, fumes, gas, mist, vapours, spray. [As modified by IV ATP].P271:Use only outdoors or in a well-ventilated area.P280:Wear protective gloves/protective clothing/eye protection/face protection.P302+P352:IF ON SKIN:Wash with plenty o
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