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碳纳米管复合物的合成与特性及应用研究

摘要第9-10页
ABSTRACT第10页
Table of Contents第11-15页
List of Figures第15-17页
List of Tables第17-19页
Chapter 1 Introduction第19-41页
    1.1 Research Purpose and Significance第19-20页
    1.2 Thesis outline第20页
    1.3 Carbon Nanotubes第20-22页
        1.3.1 Structure第21-22页
    1.4 Growth and Synthesis第22-25页
        1.4.1 Growth of Carbon nanotube第22-25页
        1.4.2 Synthesis of carbon nanotubes composites第25页
    1.5 Characterizations Technique第25-33页
        1.5.1 Field Emission Scanning Electron Microscopy第25-26页
        1.5.2 Transmission Electron Microscope (TEM)第26-27页
        1.5.3 X-ray Diffraction (XRD)第27-29页
        1.5.4 UV-visible spectroscopy第29-30页
        1.5.5 X-Ray Photoelectron Spectroscopy (XPS)第30-31页
        1.5.6 Fourier Transform Infrared Spectroscopy第31-32页
        1.5.7 Raman Spectroscopy第32-33页
    1.6 Application of carbon nanotubes composites第33-41页
        1.6.1 Energy bandgap of carbon nanotubes composites第34-35页
        1.6.2 Laser produced plasma EUV source第35-37页
        1.6.3 Sonocatalytic and photocatalytic Properties第37页
        1.6.4 Superhydrophobic surfaces第37-39页
        1.6.5 Anti-diabetic activity第39-41页
Chapter 2 Wet chemistry synthesis of SnO2/MWCNTs nanocomposites and their tuning energy bandgap properties第41-51页
    2.1 Introduction第41-42页
    2.2 Materials and methods第42-43页
    2.3 Results and Discussion第43-50页
    2.4 Conclusion第50-51页
Chapter 3 Comparison of EUV Radiation signal from Nd:YAG laser produced pure Sn and low density SnO2/CNTs nanocomposites plasma第51-59页
    3.1 Introduction第51-52页
    3.2 Experimental第52-54页
        3.2.1 Target Fabrication第52-53页
        3.2.2 EUV Set Up第53-54页
    3.3 Results and Discussions第54-58页
    3.4 Conclusion第58-59页
Chapter 4 Sonocatalytic degradation of Organic pollutants by SnO2/MWCNT nanocomposite第59-76页
    4.1 Introduction第59-61页
    4.2 Experimental第61-62页
        4.2.1 Materials and methods第61-62页
        4.2.2 Sonocatalytic activity第62页
    4.3 Results and Discussions第62-75页
    4.4 Conclusion第75-76页
Chapter 5 Study of Optical properties of SiO2/SnO2/MWCNT tricomposites superhydrophobic thin film on ITO substrate第76-84页
    5.1 Introduction第76-77页
    5.2 Experimental Section第77-78页
        5.2.1 Materials and Methods第77-78页
        5.2.2 Characterizations第78页
    5.3 Results and Discussions第78-83页
    5.4 Conclusion第83-84页
Chapter 6 Functionalization of Agglomerated MWCNTs by a facile chemical oxidation and its biological application as anti-diabetic activity第84-96页
    6.1 Introduction第84-86页
    6.2 Experimental第86-88页
        6.2.1 Functionalization of MWCNT第86-87页
        6.2.2 Enzymatic Essay第87-88页
    6.3 Results and Discussions第88-95页
    6.4 Conclusion第95-96页
Chapter 7 Conclusion and Future Work第96-97页
Reference第97-118页
Publications第118-119页
Acknowledgement第119-120页

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