9,12-Octadecadiynoic Acid (Ro 3-1314)
98%
- Product Code: 107431
CAS:
2012-14-8
| Molecular Weight: | 276.4 g./mol | Molecular Formula: | C₁₈H₂₈O₂ |
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| Density: | Storage Condition: | -20°C, airtight, dry |
Product Description:
9,12-Octadecadiynoic Acid (Ro 3-1314) is primarily utilized in research and development within the field of organic chemistry, particularly in the synthesis of specialized polymers and advanced materials. Its unique structure, featuring conjugated diyne groups, makes it a valuable precursor for creating polymers with specific optical, electronic, or mechanical properties. These polymers are often explored for applications in optoelectronics, such as organic light-emitting diodes (OLEDs) or photovoltaic devices, where tailored molecular structures are critical for performance. Additionally, its ability to undergo controlled polymerization reactions allows for the development of materials with precise architectures, which can be used in nanotechnology or as coatings with enhanced durability and functionality. In biochemical studies, this compound may also serve as a model for investigating lipid metabolism or membrane interactions due to its fatty acid-like structure. Overall, its applications are largely centered around advanced material science and experimental research.
Sizes / Availability / Pricing:
| Size (g) | Availability | Price | Quantity |
|---|---|---|---|
| 0.001 | 10-20 days | ฿29,799.00 |
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9,12-Octadecadiynoic Acid (Ro 3-1314)
9,12-Octadecadiynoic Acid (Ro 3-1314) is primarily utilized in research and development within the field of organic chemistry, particularly in the synthesis of specialized polymers and advanced materials. Its unique structure, featuring conjugated diyne groups, makes it a valuable precursor for creating polymers with specific optical, electronic, or mechanical properties. These polymers are often explored for applications in optoelectronics, such as organic light-emitting diodes (OLEDs) or photovoltaic devices, where tailored molecular structures are critical for performance. Additionally, its ability to undergo controlled polymerization reactions allows for the development of materials with precise architectures, which can be used in nanotechnology or as coatings with enhanced durability and functionality. In biochemical studies, this compound may also serve as a model for investigating lipid metabolism or membrane interactions due to its fatty acid-like structure. Overall, its applications are largely centered around advanced material science and experimental research.
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