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锆基超稳多孔材料的功能化、表征和催化/吸附应用研究

摘要第5-7页
Abstract第7-8页
CHAPTER 1. Introduction第17-49页
    1.1 Porous Silica第18-20页
    1.2 Zeolites第20-21页
    1.3 Activated Carbon第21-22页
    1.4 Zirconia第22-25页
    1.5 Metal-organic Frameworks第25-41页
        1.5.1 Advantages of MOFs第26-29页
        1.5.2 MOF Synthesis第29-30页
        1.5.3 Modulated Synthesis of MOFs第30页
        1.5.4 Functionalization of MOFs第30-32页
        1.5.5 MOFs as Catalysts第32-33页
        1.5.6 MOFs as Adsorbents第33-34页
        1.5.7 Metal-Nanoparticles Hybrid MOFs第34-35页
        1.5.8 MOF-Heteropoly Acid Composites第35-36页
        1.5.9 Zirconium MOFs第36-41页
    1.6 Solid Acid Catalysis第41-46页
        1.6.1 Heteropoly Acids第42页
        1.6.2 Keggin Structure第42-43页
        1.6.3 Supported HPA Catalysis第43-44页
        1.6.4 Mechanism of Heteropoly Acid Catalysis第44-46页
    1.7 Research Objectives/ Scope of Work第46-49页
CHAPTER 2. Materials, Instrumentation and Characterization第49-65页
    2.1 Materials第49页
    2.2 Instrumentation and Characterization第49-65页
        2.2.1 Elemental Analysis第49-50页
        2.2.2 Powder X-ray Diffraction第50-52页
        2.2.3 Surface Area Analysis第52-54页
        2.2.4 Thermogravimetric Analysis第54-55页
        2.2.5 Transmission Electron Microscopy第55-56页
        2.2.6 Scanning Electron Microscopy第56-57页
        2.2.7 Energy Dispersive X-ray Analysis第57-58页
        2.2.8 Infrared Spectroscopy第58-59页
        2.2.9 X-ray Photoelectron Spectroscopy第59-60页
        2.2.10 Acidity Determination Studies第60-63页
        2.2.11 Nuclear Magnetic Resonance Spectroscopy第63-65页
CHAPTER 3. Phosphotungstic Acid Niched in Zr-MOF: A Stable and EfficientCatalyst for Friedel-Crafts Acylation第65-83页
    3.1 Introduction第65-66页
    3.2 Experimental第66-67页
        3.2.1 Preparation of Zr(BTC)第66页
        3.2.2 Preparation of HPW@Zr(BTC)第66页
        3.2.3 Catalytic Tests第66-67页
    3.3 Results and Discussions第67-81页
        3.3.1 Catalyst Characterization第67-75页
        3.3.2 Catalytic Tests第75-81页
    3.4 Conclusions第81-83页
CHAPTER 4. MOF-driven Pd-Nanoparticles Efficient Catalysis of Suzuki-MiyauraCross-Coupling Reactions in Aqueous Solvent第83-103页
    4.1 Introduction第83-84页
    4.2 Experimental第84-86页
        4.2.1 Modulated Synthesis of Zr(BTC)第84页
        4.2.2 Loading of Palladium Nanoparticles on Zr(BTC)第84-86页
        4.2.3 General Procedure for Suzuki-Miyaura Cross-coupling Reactions第86页
    4.3 Results and Discussions第86-102页
        4.3.1 Catalyst Characterization第86-96页
        4.3.2 Catalytic Reactions第96-102页
    4.4 Conclusions第102-103页
CHAPTER 5. Highly Efficient Adsorption of Benzothiophene from Model Fuel on aMOF Modified with HPW第103-127页
    5.1 Introduction第103-106页
    5.2 Experimental第106-110页
        5.2.1 Synthesis of Zr(BTC)第106页
        5.2.2 Post-synthetic HPW Loading第106-107页
        5.2.3 Adsorbate Solutions Preparation第107页
        5.2.4 Adsorption Experiments第107-109页
        5.2.5 Reusability of the Adsorbents第109-110页
        5.2.6 Quantum Chemical Calculations第110页
    5.3 Results and Discussions第110-125页
        5.3.1 Adsorbents Characterization第110-113页
        5.3.2 Benzothiophene Adsorption第113-125页
    5.4 Conclusions第125-127页
CHAPTER 6. Pd-Promoted Molybdovanadophosphoric Acid Supported onMesoporous Zirconia:A Stable Bifunctional Catalyst for Oxidative Deep-Desulfurization of Model Fuel第127-155页
    6.1 Introduction第127-130页
    6.2 Experimental第130-133页
        6.2.1 Synthesis of Mesoporous Zirconia (mZrO_2)第130页
        6.2.2 Synthesis of Molybdovanadophosphoric Acid第130页
        6.2.3 Supporting molybdovanadophosphoric acid on mZrO_2第130-131页
        6.2.4 Palladium doping of PMV/mZrO_2 catalysts第131页
        6.2.5 Oil Preparation第131-132页
        6.2.6 CODS Catalytic Reactions第132页
        6.2.7 Catalyst Recycling第132-133页
    6.3 Results and Discussions第133-153页
        6.3.1 Catalyst Characterization第133-143页
        6.3.2 Catalytic Tests第143-153页
    6.4 Conclusions第153-155页
CHAPTER 7. General Research Conclusions and Outlook第155-159页
    7.1 General Research Conclusions第155-156页
    7.2 General Research Outlook第156-159页
Nomenclature in Alphabetical Order第159-161页
References第161-179页
Resume第179-183页
Acknowledgements第183-184页

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