
Carbon Nanotube Film for Electrochemical Energy Storage Devices
An Introduction to Carbon Nanotube, Supercapacitor and Lithium-ion Battery
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				This book is an introduction to carbon nanotube synthesis and properties; working principles of supercapacitor and lithium-ion battery; as well as the applications of carbon nanotube film in various electrochemical energy storage devices. In Chapter 2, a simple method to fabricate tandem structure of porous silicon film on carbon nanotube film to significantly improve cycling stability of silicon film as lithium-ion battery anode material was demonstrated. With the new structure, both reversible specific capacity and cycling stability are remarkably improved. Carbon nanotube films also exhibit...
This book is an introduction to carbon nanotube synthesis and properties; working principles of supercapacitor and lithium-ion battery; as well as the applications of carbon nanotube film in various electrochemical energy storage devices. In Chapter 2, a simple method to fabricate tandem structure of porous silicon film on carbon nanotube film to significantly improve cycling stability of silicon film as lithium-ion battery anode material was demonstrated. With the new structure, both reversible specific capacity and cycling stability are remarkably improved. Carbon nanotube films also exhibit a promising application in stretchable supercapacitors based on buckled carbon nanotube film electrodes for unusual power source applications in Chapter 3. The stretchability depends on the level of pre-stain applied on the PDMS substrate, which could be as high as 30%. This stretchable supercapacitor just enlightens a broad area of stretchable energy storage devices, which are naturally compatible with the developed stretchable electronics.
     
					 
					 
					 
					 
					 
					 
					 
					 
					