[6]Cycloparaphenylene
98%
- Product Code: 94561
CAS:
156980-13-1
| Molecular Weight: | 456.59 g./mol | Molecular Formula: | C₃₆H₂₄ |
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| Melting Point: | Boiling Point: | ||
| Density: | Storage Condition: | room temperature, in an inert gas |
Product Description:
Used in the field of nanotechnology for the creation of carbon nanotubes due to its unique structure that mimics the curvature of these tubes. It serves as a precursor or template in the synthesis process, enabling precise control over the diameter and chirality of the resulting nanotubes. This precision is crucial for applications in electronics, where the electrical properties of nanotubes are highly dependent on their structure. Additionally, it finds use in molecular electronics as a component for constructing nanoscale devices, leveraging its ability to conduct electricity and its mechanical strength. In materials science, it is explored for the development of new organic semiconductors and photovoltaic materials, where its electronic properties can be harnessed for improved performance in solar cells and light-emitting diodes. Its application in drug delivery systems is also being investigated, where it could be used to encapsulate and transport therapeutic agents to specific targets within the body, taking advantage of its hollow structure and potential for functionalization.
Product Specification:
| Test | Specification |
|---|---|
| APPEARANCE | Light yellow to Brown powder to crystal |
| PURITY | 97.5-100 |
| Infrared spectrum | Conforms to Structure |
Sizes / Availability / Pricing:
| Size (g) | Availability | Price | Quantity |
|---|---|---|---|
| 0.010 | 10-20 days | ฿15,980.00 |
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[6]Cycloparaphenylene
Used in the field of nanotechnology for the creation of carbon nanotubes due to its unique structure that mimics the curvature of these tubes. It serves as a precursor or template in the synthesis process, enabling precise control over the diameter and chirality of the resulting nanotubes. This precision is crucial for applications in electronics, where the electrical properties of nanotubes are highly dependent on their structure. Additionally, it finds use in molecular electronics as a component for constructing nanoscale devices, leveraging its ability to conduct electricity and its mechanical strength. In materials science, it is explored for the development of new organic semiconductors and photovoltaic materials, where its electronic properties can be harnessed for improved performance in solar cells and light-emitting diodes. Its application in drug delivery systems is also being investigated, where it could be used to encapsulate and transport therapeutic agents to specific targets within the body, taking advantage of its hollow structure and potential for functionalization.
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