Unlock the Potential of (1Z)-1-Propen-1-ylphosphonic Acid
Discover the versatile applications and synthesis of this key organophosphorus compound for your chemical needs.
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(1Z)-1-Propen-1-ylphosphonic Acid
An essential organophosphorus compound, (1Z)-1-Propen-1-ylphosphonic acid, with a high purity of 98%, offers significant utility across various industries. Its unique chemical structure and water solubility make it a valuable ingredient, particularly in the cosmetics and pharmaceutical sectors. This fine chemical is recognized for its versatile properties, enabling diverse applications.
- Explore the uses in cosmetics of this phosphonic acid derivative, understanding its role in formulations.
- Delve into the organophosphorus compound synthesis methods that lead to high-purity chemicals like this.
- Learn about the pharmaceutical material applications where this compound's properties are critical for efficacy.
- Understand the fundamental properties of (Z)-1-propenyl-phosphonic acid to leverage its full potential in research and development.
Key Advantages
High Purity
Achieve reliable results with a minimum purity of 98%, ensuring consistent performance in your critical applications, essential for fine chemical applications medicine.
Versatile Applications
This compound's utility extends from cosmetics ingredients to pharmaceutical intermediates, showcasing its broad applicability.
Water Solubility
Benefit from enhanced formulation possibilities due to its excellent solubility in water, a key factor for many pharmaceutical material applications.
Key Applications
Cosmetics Formulations
Discover how this phosphonic acid derivative contributes to the efficacy and stability of various cosmetic products, leveraging its unique chemical profile.
Pharmaceutical Intermediates
As a critical intermediate, it plays a role in the synthesis of various pharmaceutical compounds, aiding in the development of new treatments.
Chemical Synthesis
Its reactive nature makes it a valuable building block in complex organophosphorus compound synthesis, enabling innovation in chemical research.
Medical Applications
Explore the potential of this compound in medicinal chemistry and its contribution to advancements in healthcare through its specific pharmaceutical material applications.