声明
1Chapter Introduction
2Chapter LiteratureReview When Silicon Materials Meet Natural Sources: Opportunities and Challenges for Low-cost Lithium Storage
2.1 Introduction
2.2Natural Sources for Silicon Nanostructure
2.2.1Agricultural Sources
2.2.2Plant Sources
2.2.3Sand Sources
2.2.4Natural Clay Sources
2.3Waste Sources for Silicon Nanostructure
2.3.1Waste of Solar Power Industry
2.3.2Other Industrial Waste
2.3.3Straw Ash
2.3.4Fly Ash
2.4Synthesis Methods of Silicon Nanomaterial
2.4.1Reduction Methods
2.4.2Surface modification of Si nanostructures
2.5Summary and Outlook
3Chapter Instrumentand Experimental Procedures
3.1Material and Flow
3.2Cell Assembly
3.2.1Electrode Material casting on copper foil
3.2.2Cell preparation
3.2.3Specific capacity and Cycle number testing
3.2.4CV and EISmeasurements
3.3Material Characterizations
3.3.1X-ray Diffraction(XRD)
3.3.2Transmission electron microscopy(TEM)
3.3.3Field emission scanning electron microscopy(FESEM)
3.3.4Raman spectroscopy
3.3.5BET and BJH analysis
3.3.6Thermal gravimetric(TG) analysis
3.3.7X-Ray Photoelectron Spectroscopy(XPS)
4Chapter Experimental Work Corncob Derived Carbon Anode for Long Term Cycling
4.1 Introduction
4.2Material and Methods
4.2.1Preparation of Corncob Derived Carbon Composite(CDCC)
4.3Results and Discussions
4.4 Conclusions
5Chapter Experimental Work Leaching processPrior CDCC synthesisof Corncob to remove impurities
5.1 Introduction
5.2Materials and Methods
5.2.1Leaching process of corncob
5.2.2Preparation of Corncob derive carbon composite(L-CDCC)
5.3Results and Discussions
5.4 Conclusions
6Chapter Conclusion and Future Suggestions
6.1 Conclusion
6.2Future Suggestions
参考文献
Published Work
致谢
东华大学;
