Catalog |
name |
Description |
price |
R-M1-8155 |
INDEX NAME NOT YET ASSIGNED,CAS: 2369053-64-3 |
CAS: 2369053-64-3 is an important synthetic intermediate in organic synthesis, Through catalytic asymmetric de aromatization reactions, it is possible to directly construct the skeleton from pyrrole compounds. |
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R-M1-8161 |
RCC3 |
RCC3 is a Porous organic cages (POCs) material.The RCC3 porous organic cage displayed a pore size of approximately 5.4 Å and a high specific surface area of 442.3 m2 g−1, which provided amine-rich subnanochannels for the rapid penetration of CO2. The excellent separation performance provided a more economical solution for CO2 capture from flue gas or natural gas purification.Meanwhile, the unique structure of RCC3 (molecular-level size, organic framework and rich –NH– groups) helps to achieve molecular-level mixing between polymer chains and individual caged molecules in the membrane, thus overcoming the problem of interfacial defects. Furthermore, the membrane possessed excellent long-term stability, which underlined the promising potential in practical application. |
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R-M1-8163 |
3,3-Dioctyl-2,25,2-terthiophene,CAS:155166-89-5 |
3,3-Dioctyl-2,2 5,2-terthiophene (DOT) is a novel organic compound with potential applications in a variety of fields. It is a polycyclic aromatic hydrocarbon (PAH) that has a planar, aromatic structure and a wide range of physical and chemical properties. DOT is a highly versatile compound, and its unique properties make it an attractive candidate for a variety of applications in materials science, pharmaceuticals, and biochemistry. |
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R-M1-8198 |
MIL-88A(Fe)-RB |
Iron-based Metal Organic Framework, MIL-88A, as a Heterogeneous Persulfate Catalyst for Decolorization of Rhodamine B in Water. |
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R-M1-8367 |
MOF-74-Mn |
Metal organic frameworks (MOFs), as a relatively new type of porous materials, have the advantages of structural tailoring, diversity and high specific surface area. At the same time, it has the advantages of homogeneous catalyst and heterogeneous catalyst, so it has potential application prospects in catalysis.Mof-74 can expose a large number of coordinative unsaturated metal sites (CUS) as catalytic active sites for no reduction. |
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R-M1-8392 |
2,6,10-Triphenylenetricarboxylic acid |
2,6,10-Triphenylene tricarboxylic acid,triphenylene-2,6,10-tricarboxylic acid,triphenylene-2,6,10-tricarboxylic acid can be used as ligands for the synthesis of MOF materials.
2,6,10-Triphenylenetricarboxylic acid is often used as a building block or precursor in the synthesis of functional materials and organic semiconductors due to its unique structural and electronic properties. It can act as a chromophore and exhibit fluorescence properties, making it useful in optoelectronic devices, dyes, and sensors. Additionally, its rigid and planar structure provides enhanced stability and stacking ability in various applications. |
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R-M1-8479 |
2,6,10-Triphenylenetricarboxylic acid,cas:239455-23-3 |
2,6,10-Triphenylenetricarboxylic acid,cas:239455-23-3 is a versatile compound with applications in organic synthesis, liquid crystals, polymers, optoelectronics, and sensors. Its unique structure and properties make it valuable in various fields of science and technology. |
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R-M1-8620 |
UiO-66(Ce)-CH3 |
A series of functionalized metal–organic frameworks (MOFs):UiO-66(Ce)-CH3/Universitetet i Oslo-66(cerium)-CH3 for the photocatalytic oxidation of benzylamine under visible light. And it has a high conversion rate. The quantity and the acid strength of coordinatively unsaturated Ce sites as Lewis acid sites are modulated by ligand functionalization, both following the order of UiO-66(Ce)-CH3 > UiO-66(Ce)-H > UiO-66(Ce)-Br > UiO-66(Ce)-NO2, which is closely related to photocatalytic performance. |
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R-M1-8621 |
Ce-UiO-66-NH2 |
UiO-66(Ce)-NH2/UiO-66-NH2 (Ce) has a catalytic effect on the reaction of CO2 with epoxy propane. It was found that the addition of Ce ions can effectively reduce the number of UiO-66-NH2 connections The BET results show that the specific surface area first increases and then decreases with the increase of Ce content When the Ce/Zr molar ratio is 5%, UiO-66-NH2 (Zr/Ce) has the highest catalytic activity, because its larger specific surface area and pore volume are more conductive to catalytic reactions.Depositing Ce-UiO-66-NH2/UiO-66-NH2 (Ce) on diatomaceous earth composite materials and then forming a self-assembled membrane as a functional layer can improve the performance of the membrane. |
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R-M1-8622 |
Ce-UiO-66-Br |
Ce-UiO-66-Br/UiO-66(Ce)-Br/Universitetet i Oslo-66(cerium)-Br is a metal organic framework (MOFs), which has high surface area, large pore volume, catalytic function, and can be used as a catalyst. |
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