2,3,6,7,14,15-Hexaaminotriptycene hexahydrochloride
97%
- Product Code: 71301
CAS:
1353682-29-7
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Density: | Storage Condition: | room temperature |
Product Description:
This compound is primarily utilized in the field of materials science, particularly in the development of advanced organic frameworks and porous materials. Its unique structure, featuring multiple amino groups, makes it an effective building block for constructing highly stable and functionalized networks. These networks are often employed in gas storage and separation applications, where they can selectively adsorb specific gases like carbon dioxide or methane. Additionally, its properties are explored in catalysis, where it can act as a ligand or support for metal catalysts, enhancing reaction efficiency. Researchers also investigate its potential in creating conductive or semiconductive materials for electronic devices, owing to its ability to form well-organized molecular architectures. Its application in supramolecular chemistry is notable as well, where it contributes to the design of complex molecular systems with tailored functionalities.
Product Specification:
Test | Specification |
---|---|
APPEARANCE | White to Off-white to Yellow to Light brown Solid |
PURITY | 96.5-100 |
Infrared spectrum | Conforms to Structure |
NMR | Conforms to Structure |
Sizes / Availability / Pricing:
Size (g) | Availability | Price | Quantity |
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0.250 | 10-20 days | $468.70 |
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1.000 | 10-20 days | $1,378.86 |
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2,3,6,7,14,15-Hexaaminotriptycene hexahydrochloride
This compound is primarily utilized in the field of materials science, particularly in the development of advanced organic frameworks and porous materials. Its unique structure, featuring multiple amino groups, makes it an effective building block for constructing highly stable and functionalized networks. These networks are often employed in gas storage and separation applications, where they can selectively adsorb specific gases like carbon dioxide or methane. Additionally, its properties are explored in catalysis, where it can act as a ligand or support for metal catalysts, enhancing reaction efficiency. Researchers also investigate its potential in creating conductive or semiconductive materials for electronic devices, owing to its ability to form well-organized molecular architectures. Its application in supramolecular chemistry is notable as well, where it contributes to the design of complex molecular systems with tailored functionalities.
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