HydroxyMethylene Diphosphonic Acid Disodium Salt (CAS 14255-61-9): A Comprehensive Guide
Explore the critical properties and applications of this essential pharmaceutical intermediate.
Get a Quote & SampleProduct Core Value
HydroxyMethylene Diphosphonic Acid Disodium Salt
This compound serves as a crucial building block in the pharmaceutical industry, recognized for its utility in chemical synthesis and as a reference standard for quality control.
- Explore the key properties of HydroxyMethylene diphosphonic acid disodium salt CAS 14255-61-9 in pharmaceutical applications.
- Understand its role as a critical chemical synthesis raw material for various compounds.
- Leverage this disodium (hydroxymethylene)diphosphonate as a reliable reference standard in pharmaceutical testing.
- Investigate the potential of oxidronate sodium in advanced chemical formulations.
Key Advantages
High Purity
Achieve reliable results in your research and development by utilizing this compound, known for its high purity levels suitable for demanding applications.
Versatile Applications
Discover the wide-ranging utility of this pharmaceutical intermediate, serving as a foundational component in numerous synthesis pathways.
Quality Assurance
Ensure the integrity of your products by using this chemical synthesis raw material, which meets stringent industry standards for consistency and performance.
Key Applications
Chemical Synthesis
Utilize HydroxyMethylene diphosphonic acid disodium salt CAS 14255-61-9 as a fundamental component for synthesizing complex molecules in various industries.
Pharmaceutical Intermediates
Incorporate this vital compound into your processes as a key pharmaceutical intermediate, driving innovation in drug development.
Reference Standard
Employ disodium (hydroxymethylene)diphosphonate as an accurate reference standard for quality control and analytical testing in pharmaceutical research.
Specialty Chemicals
Explore the potential of oxidronate sodium in the creation of specialty chemicals, leveraging its unique chemical structure and properties.