1-Amino-3,3-diethoxypropane: A Versatile Fine Chemical for Advanced Applications
Explore the critical role of this fine chemical in biomedical research, pharmaceuticals, and advanced material science.
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1-Amino-3,3-diethoxypropane
1-Amino-3,3-diethoxypropane (CAS 41365-75-7) is a vital chemical intermediate known for its application in diverse scientific fields. Its unique molecular structure makes it an effective modulator of alginate and chitosan-based hydrogels, significantly impacting tissue engineering and regenerative medicine. Furthermore, its utility extends to the pharmaceutical industry, where it acts as a key component in creating advanced drug delivery systems and facilitating transfection studies for gene therapy.
- Discover the role of 1-amino-3,3-diethoxypropane uses in creating advanced hydrogel formulations for biomedical applications.
- Understand the intricacies of 3,3-diethoxypropan-1-amine synthesis and its implications for chemical production efficiency.
- Explore the diverse cas 41365-75-7 applications, ranging from pharmaceutical research to material science innovations.
- Learn how this essential chemical intermediate is crucial for developing cutting-edge solutions in the field of chemical synthesis.
Key Advantages Offered
Biomedical Hydrogel Modulation
The compound serves as a key chemical intermediate, enabling the precise modulation of alginate and chitosan-based hydrogels, vital for enhancing cartilage regeneration.
Pharmaceutical Innovation
It is instrumental in the pharmaceutical industry for the generation of polyethylene glycol (PEG) polyethylenimine (PEI) polyplexes, furthering research in transfection studies and drug delivery.
Versatile Chemical Synthesis
Its role as a pharmaceutical material intermediate highlights its versatility in chemical synthesis, allowing for the creation of specialized pH-sensitive PEG derivatives for targeted therapeutic agents.
Key Applications
Tissue Engineering
Leveraging its function as a biomedical hydrogel modulator, it aids in the development of advanced scaffolds for cell growth and tissue regeneration.
Drug Delivery Systems
The compound is a crucial component in developing sophisticated drug delivery systems, particularly those designed for targeted release based on pH sensitivity.
Regenerative Medicine
Its application in modifying hydrogels for bone marrow stromal cell delivery underscores its importance in advancing regenerative medicine techniques.
Gene Therapy Research
It plays a role in transfection studies within hepatocellular carcinoma cell cultures, contributing to progress in gene therapy development.