Controlling Polymorphism and Orientation of NU-901/NU-1000 Metal-Organic Framework Thin Films

Chemistry

• Zirconium 100%
• Metal Organic Framework 100%
• Liquid Film 100%
• Purity 100%
• Pore Size 66%
• Nucleation 66%
• Solvothermal Method 66%
• Electrocatalysis 66%
• Application 66%
• Group 66%
• Density 66%
• Synthesis (Chemical) 66%
• Self Assembled Monolayer 33%
• Aqueous Solution 33%
• Scanning Electron Microscopy 33%
• Meso Porosity 33%
• Nitrogen 33%
• Tin Oxide 33%
• Heterogeneous Catalysis 33%
• Powder X-Ray Diffraction 33%
• Fluorine 33%
• Adsorption Isotherm 33%
• Rod Like Crystal 33%
• Membranes Separation 33%
• Gas 33%
• Structure 33%
• Volume 33%
• Storage 33%
• Heating 33%
• Crystal Engineering 33%
• Impurity 33%

INIS

• thin films 100%
• organometallic compounds 100%
• orientation 100%
• substrates 100%
• crystals 66%
• synthesis 50%
• zirconium 50%
• size 33%
• applications 33%
• control 33%
• density 33%
• nucleation 33%
• scanning electron microscopy 16%
• engineering 16%
• nitrogen 16%
• growth 16%
• x-ray diffraction 16%
• nanostructures 16%
• fabrication 16%
• volume 16%
• storage 16%
• membranes 16%
• solutions 16%
• gases 16%
• drug delivery 16%
• heating 16%
• fluorine 16%
• heterogeneous catalysis 16%
• doped materials 16%
• impurities 16%
• rods 16%
• tin oxides 16%
• adsorption isotherms 16%

Material Science

• Thin Films 100%
• Metal-Organic Framework 100%
• Crystallite 50%
• Pore Size 50%
• Crystal 50%
• Density 50%
• Membrane 25%
• Self Assembled Monolayer 25%
• Impurity 25%
• Polymorphism 25%
• Pore Volume 25%
• Powder X-Ray Diffraction 25%
• Scanning Electron Microscopy 25%
• Nitrogen Adsorption 25%
• Solvothermal Synthesis 25%
• Gas 25%
• Crystal Growth 25%
• Rod 25%
• Tin Oxide 25%