Catalog |
name |
Description |
price |
R-M-058 |
MIL-53(Sc),Materials of Institut Lavoisier-53(scandium) |
MIL-53(Sc),Materials of Institut Lavoisier-53(scandium) from ruixi.MIL-53 (SC) metal organic framework compound was synthesized by changing the metal center and ligand functional groups.MIL-53 showed good adsorption capacity for CO2 and H2S, which could be separated from the mixed system. In atmospheric environment, MIL-53 can separate harmful gas H2S. The annealed MIL-53 material has better adsorption performance. Because the adsorption process is exothermic, the adsorption capacity of MIL-53 for gas will decrease with the increase of temperature. |
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R-M-059 |
UiO-66(Ce),CAS:1801427-51-9 |
Universitetet i Oslo-66(cerium),UiO-66(Ce) from ruixi.UiO-66(Ce) is a kind of metal organic framework material.UiO-66(Ce) has been used as an efficient redox catalyst because of its excellent oxidation and reduction activity.UiO series MOFs have ultra-high thermal stability and chemical stability due to their stable zr-o bond and ultra-high coordination number. They are widely used in chemical catalysis, photocatalysis, gas adsorption, gas separation, liquid phase adsorption of organic pollutants, fluorescence, sensing, medicine and capacitors. |
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R-M-060 |
Universitetet i Oslo-66(hafnium) |
UiO-66(Hf),Universitetet i Oslo-66(hafnium) from ruixi.Uio-66 is a typical nano porous metal organic framework (MOF) with high specific surface area and thermal stability.UiO-66(Hf) has high chemical stability in various solvent systems.UiO-66(Hf) has significant catalytic activity for the synthesis of solvent ketals. The active material can be used as solid heterogeneous catalyst.
HF MOFs can be used as advanced adsorbents for high performance CO2 related separation. |
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R-M-061 |
UiO-66(Th),Universitetet i Oslo-66(thorium) |
UiO-66(Th),Universitetet i Oslo-66(thorium) from ruixi.Uio-66 is a typical nano porous metal organic framework (MOF) with high specific surface area and thermal stability.UiO series MOFs have ultra-high thermal stability and chemical stability due to their stable zr-o bond and ultra-high coordination number. They are widely used in chemical catalysis, photocatalysis, gas adsorption, gas separation, liquid phase adsorption of organic pollutants, fluorescence, sensing, medicine and capacitors. |
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R-M-062 |
UiO-66(Ti),Universitetet i Oslo-66(titanium) |
UiO-66(Ti),Universitetet i Oslo-66(titanium) from ruixi.Uio-66 is a typical nano porous metal organic framework (MOF) with high specific surface area and thermal stability.The CO2 permeability of uio-66 (TI) is strong, up to 153%. The Ti exchange of uio-66 affects the outer surface of MOF, which enhances the interaction between polymer and MOF and improves the thermal stability of MOF.The photocatalytic performance of uio-66 metal organic frameworks (MOFs) can be greatly improved by introducing titanium into the framework. |
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R-M-063 |
Im-UiO-66,Imidazole-Universitetet i Oslo-66 |
Im-UiO-66, Imidazole-Universitetet i Oslo-66 from ruixi.Uio-66 is a typical nano porous metal organic framework (MOF) with high specific surface area and thermal stability.Im-uio-66 has higher CO2 adsorption capacity than uio-66. |
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R-M-064 |
UiO-67,Universitetet i Oslo-67 |
UiO-67,Universitetet i Oslo-67 from ruixi.The rigid structure of uio-67 is a good catalyst carrier.It can be used as gas storage material and adsorption material.UiO series MOFs have ultra-high thermal stability and chemical stability due to their stable zr-o bond and ultra-high coordination number. They are widely used in chemical catalysis, photocatalysis, gas adsorption, gas separation, liquid phase adsorption of organic pollutants, fluorescence, sensing, medicine and capacitors.UiO-67,Universitetet i Oslo-67 from ruixi.The rigid structure of uio-67 is a good catalyst carrier.It can be used as gas storage material and adsorption material.UiO series MOFs have ultra-high thermal stability and chemical stability due to their stable zr-o bond and ultra-high coordination number. They are widely used in chemical catalysis, photocatalysis, gas adsorption, gas separation, liquid phase adsorption of organic pollutants, fluorescence, sensing, medicine and capacitors. |
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R-M-065 |
UiO-68 |
UiO-68,Universitetet i Oslo-68 from ruixi.UiO series MOFs have ultra-high thermal stability and chemical stability due to their stable zr-o bond and ultra-high coordination number. They are widely used in chemical catalysis, photocatalysis, gas adsorption, gas separation, liquid phase adsorption of organic pollutants, fluorescence, sensing, medicine and capacitors. |
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R-M-066 |
UiO-15,Universitetet i Oslo-15 |
UiO-15,Universitetet i Oslo-15 from ruixi.UiO series MOFs have ultra-high thermal stability and chemical stability due to their stable zr-o bond and ultra-high coordination number. They are widely used in chemical catalysis, photocatalysis, gas adsorption, gas separation, liquid phase adsorption of organic pollutants, fluorescence, sensing, medicine and capacitors. |
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R-M-067 |
UiO-7,Universitetet i Oslo-7 |
UiO-7,Universitetet i Oslo-7 from ruixi.Uio-7 is a novel microporous molecular sieve material with zon topology.UiO series MOFs have ultra-high thermal stability and chemical stability due to their stable zr-o bond and ultra-high coordination number. They are widely used in chemical catalysis, photocatalysis, gas adsorption, gas separation, liquid phase adsorption of organic pollutants, fluorescence, sensing, medicine and capacitors. |
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