One of the weaknesses of silicon-based batteries is the rapid deterioration of the charge-storage capacity with increasing cycle numbers. Pure silicon anodes tend to suffer from poor cycling ability due to the pulverization of the crystal structure after repeated charge and discharge cycles. In this work, we present the synthesis of a hollow nanostructured SiO2 material for lithium-ion anode applications to counter this drawback. To improve the understanding of the synthesis route, the crucial synthesis step of removing the ZnO template core is shown using an in situ closed gas-cell sample holder for transmission electron microscopy. A direct visual observation of the removal of the ZnO template from the SiO2 shell is yet to be reported in ...
Silicon has been proven to be one of the most promising anode materials for the next generation of l...
Metal oxide hollow structures have received great attention because of their many promising applicat...
A new approach has been designed to convert typical Stober silica spheres to Zn2Ti3O8 (ZTO) hollow s...
Due to poor electrical conductivity and significant volume change during the lithiation/delithiation...
Inorganic tubular materials have an exceptionally wide range of applications, yet developing a simpl...
Hollow nanostructured materials have attracted considerable interest as lithium ion battery electrod...
Silicon negative electrode for lithium ion battery was designed in the form of self-organized 1D cor...
Hollow nanostructured materials have attracted considerable interest as lithium ion battery electrod...
The engineering of hollow nanostructures is a promising approach to addressing instabilities in sili...
While SnO2 is regarded as a good material for Li ion storage because of its high theoretical capacit...
Hollow nanostructured materials have attracted considerable interest as lithium ion battery electrod...
This paper describes a new synthesis and lithium ion charge–discharge property of tin dioxide (SnO<s...
The synthesis of hollow Sb nanoparticles as a high-performance Lithium battery anode material, using...
Here we demonstrate a strategy of obtaining tin oxide (SnO2) nanoparticles, via a typical hard templ...
International audienceSilicon negative electrode for lithium ion battery was designed in the form of...
Silicon has been proven to be one of the most promising anode materials for the next generation of l...
Metal oxide hollow structures have received great attention because of their many promising applicat...
A new approach has been designed to convert typical Stober silica spheres to Zn2Ti3O8 (ZTO) hollow s...
Due to poor electrical conductivity and significant volume change during the lithiation/delithiation...
Inorganic tubular materials have an exceptionally wide range of applications, yet developing a simpl...
Hollow nanostructured materials have attracted considerable interest as lithium ion battery electrod...
Silicon negative electrode for lithium ion battery was designed in the form of self-organized 1D cor...
Hollow nanostructured materials have attracted considerable interest as lithium ion battery electrod...
The engineering of hollow nanostructures is a promising approach to addressing instabilities in sili...
While SnO2 is regarded as a good material for Li ion storage because of its high theoretical capacit...
Hollow nanostructured materials have attracted considerable interest as lithium ion battery electrod...
This paper describes a new synthesis and lithium ion charge–discharge property of tin dioxide (SnO<s...
The synthesis of hollow Sb nanoparticles as a high-performance Lithium battery anode material, using...
Here we demonstrate a strategy of obtaining tin oxide (SnO2) nanoparticles, via a typical hard templ...
International audienceSilicon negative electrode for lithium ion battery was designed in the form of...
Silicon has been proven to be one of the most promising anode materials for the next generation of l...
Metal oxide hollow structures have received great attention because of their many promising applicat...
A new approach has been designed to convert typical Stober silica spheres to Zn2Ti3O8 (ZTO) hollow s...