PAMAM dendrimer, ethylenediamine core, generation 7.0 solution
5 wt. % in methanol
Reagent
Code: #94540
blur_circular Chemical Specifications
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Molecular Information
Weight
116493 g/mol
Formula
NH₂CH₂₂NH₂G₇PAMAMNH₂₅₁₂
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Registry Numbers
MDL Number
MFCD00197936
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Storage & Handling
Density
0.8 g/mL at 25 °C
Storage
2-8°C
description Product Description
PAMAM dendrimer, ethylenediamine core, generation 7.0 solution, is widely used in drug delivery systems due to its highly branched structure and nanoscale size. It acts as a carrier for targeted delivery of therapeutic agents, improving the efficiency and reducing side effects of treatments. In gene therapy, it facilitates the transfer of genetic material into cells, enhancing the effectiveness of gene editing and silencing techniques. Additionally, it is employed in diagnostic imaging as a contrast agent, providing high-resolution images in medical scans. Its surface can be modified to bind specific molecules, making it useful in biosensors for detecting diseases or environmental pollutants. In material science, it is utilized to create advanced nanocomposites with enhanced mechanical and thermal properties.
format_list_bulleted Product Specification
| Test Parameter | Specification |
|---|---|
| Appearance | liquid |
| Concentration | 5 wt. % |
| Infrared Spectrum | Conforms to Structure |
| NMR | Conforms to Structure |
shopping_cart Available Sizes & Pricing
PAMAM dendrimer, ethylenediamine core, generation 7.0 solution
PAMAM dendrimer, ethylenediamine core, generation 7.0 solution, is widely used in drug delivery systems due to its highly branched structure and nanoscale size. It acts as a carrier for targeted delivery of therapeutic agents, improving the efficiency and reducing side effects of treatments. In gene therapy, it facilitates the transfer of genetic material into cells, enhancing the effectiveness of gene editing and silencing techniques. Additionally, it is employed in diagnostic imaging as a contrast agent, providing high-resolution images in medical scans. Its surface can be modified to bind specific molecules, making it useful in biosensors for detecting diseases or environmental pollutants. In material science, it is utilized to create advanced nanocomposites with enhanced mechanical and thermal properties.
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