Catalog |
name |
Description |
price |
R-M-001 |
NT-COF,NT-covalent organic framework |
NT-COF,NT-covalent organic framework from ruixi.NT-COF is a covalent organic framework material connected by naphthalene diimide (NDI)and triphenylamine(TPA) units. It is also a bifunctional material with light absorption and reversible electrochemical energy storage.Nt-cof was filled with two-dimensional porous nanosheets with a high specific surface area of 1276 m2/ g. |
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R-M-002 |
PI-COF-1,polyimide-covalent organic framework-1 |
PI-COF-1,polyimide-covalent organic framework-1 from ruixi.Covalent organic frameworks (COFS) are a new kind of porous crystalline polymers.PI-COF has high specific surface area, high temperature resistance and thermal stability up to 530 °C.PI-COF-1,polyimide-covalent organic framework-1 is a 2D crystal COF material with 33 hexagonal holes. |
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R-M-003 |
py-py-cof,Pyrene-pyrene-covalent organic framework |
The three-dimensional py COF with fluorescent topological structure has good conductivity.The novel (3D py COF) is a two-layer interpenetrating PTS topology.3D py COF has narrow pore size distribution, high specific surface area and selective CO2 absorption on N2. 3D py COF is the first fluorescent 3D-COF. |
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R-R-4847 |
TTO-COF Cas.2417140-95-3 |
TTO-COF/TTO-Covalent organic framework/Cas.2417140-95-3 is the name of a conjugated organic framework (COF), where "TTO" represents the specific organic unit or structure contained in the COF structure. COF is a two- or three-dimensional structure with a periodic conjugated structure. polymer. Usually composed of organic molecules that are linked to each other by covalent bonds. COFs have a wide range of applications in gas adsorption, catalysis, separation, and electronic devices due to their porosity, high surface area, and controllable pore structure. |
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R-R-4848 |
TTI-COF Cas No.2000996-35-8 |
TTI-COF/TTI-Covalent organic framework/Cas No.2000996-35-8 is the name of a conjugated organic framework (COF), where "TTO" represents the specific organic unit or structure contained in the COF structure. COF is a two- or three-dimensional structure with a periodic conjugated structure. polymer. Usually composed of organic molecules that are linked to each other by covalent bonds. COFs have a wide range of applications in gas adsorption, catalysis, separation, and electronic devices due to their porosity, high surface area, and controllable pore structure. |
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R-R-4849 |
TPB-TP-COF Cas.1262433-88-4 |
TPB-TP-COF/TPB-TP-covalent organic framework/Cas.1262433-88-4 stands for Tetraphenylbenzidine-Triptycene-Covalent Organic Framework. This material is a type of covalent organic framework (COF) that is designed with specific organic building blocks to create a structured and porous network held together by strong covalent bonds.The combination of these building blocks in TPB-TP-COF results in a well-defined and potentially tunable material with tailored electronic and structural properties. COFs like TPB-TP-COF are of interest in various applications such as gas storage, catalysis, and sensing due to their ordered structure, porosity, and potential for selective adsorption of molecules. |
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R-R-4850 |
DAAQ-TFP COF Cas No.1477485-46-3 |
DAAQ-TFP COF/2,6-Diaminoanthraquinone-1,3,5-Triformylphloroglucinol covalent organic framework/Cas No.1477485-46-3 from ruixi. The covalent organic framework (COF) formed by 2,6-diaminoanthraquinone (DAAQ) and 1,3,5-triformylphloroglucinol is a unique structured material with specific properties derived from the combination of these two key building blocks. 2,6-Diaminoanthraquinone is a molecule containing two amino groups attached to an anthraquinone core. 1,3,5-Triformylphloroglucinol is a molecule with three aldehyde functional groups arranged on a phloroglucinol backbone. When these two components are combined through covalent bonds to create a COF, they form a well-defined and potentially porous network with specific properties.The resulting COF structure offers advantages such as tunable porosity, stability, and potential for selective adsorption of molecules due to its ordered and structured framework. This COF can find applications in areas such as gas storage, catalysis, or as a platform for controlled release or separation of molecules. |
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R-R-4851 |
TAPB-DHTP-COF |
TAPB-DHTP-COF refers to a Covalent Organic Framework (COF) constructed using TAPB (1,3,5-tris(4-aminophenyl)benzene) and DHTP (2,6-dihydroxyterephthalaldehyde) as building blocks. This combination results in a structured material with specific properties derived from these components.1,3,5-tris(4-aminophenyl)benzene (TAPB) is a molecule with three amine groups attached to a benzene core, while 2,6-dihydroxyterephthalaldehyde (DHTP) contains two hydroxyl groups linked to a terephthalaldehyde backbone. When these components are linked through covalent bonds to form a COF, they create an ordered framework with potential porosity and specific chemical properties.The TAPB-DHTP-COF structure offers advantages such as tunable porosity, potential for molecular sieving, and tailored chemical reactivity due to its designed framework. These properties make it potentially useful in applications such as gas storage, catalysis, membrane technology, or sensing where controlled interactions with molecules are crucial. |
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R-R-4852 |
COF-367-Cu |
COF-367-Cu/Covalent Organic Framework-367-Cu refers to a specific type of Covalent Organic Framework (COF) that incorporates copper (Cu) atoms into its structure. COF-367 itself is a well-known COF characterized by its unique properties and applications.COF-367 is typically composed of organic building blocks that are linked together through strong covalent bonds, forming a porous and crystalline structure. The introduction of copper (Cu) atoms into this framework can enhance certain properties or introduce new functionalities due to the interaction of copper with the organic components.The incorporation of copper in COF-367-Cu can lead to improved catalytic properties, enhanced stability, or modified electronic properties compared to the non-metalated version of the COF. This can expand the potential applications of COF-367-Cu in areas such as catalysis, gas storage, sensing, or as a platform for controlled release of molecules. |
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R-R-5117 |
Melamine CAS No.:108-78-1 |
Melamine/CAS No.:108-78-1, a versatile chemical compound, finds abundant applications in scientific research. Its unique properties make it ideal for use in manufacturing fire-resistant materials, adhesives, coatings, and even kitchenware. With its increasing importance, exploring melamine further holds promising prospects for innovation and advancement in various scientific fields.
Please inquire in advance to purchase this product. |
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