Tin is able to lithiate and delithiate reversibly with a high theoretical specific capacity, which makes it a promising candidate to supersede graphite as the state-of-the-art negative electrode material in lithium ion battery technology. Nevertheless, it still suffers from poor cycling stability and high irreversible capacities. In this contribution, we show the synthesis of three different nano-sized core/shell-type particles with crystalline tin cores and different amorphous surface shells consisting of SnO x and organic polymers. The spherical size and the surface shell can be tailored by adjusting the synthesis temperature and the polymer reagents in the synthesis, respectively. We determine the influence of the surface modifications with respect to the electrochemical performance and characterize the morphology, structure, and thermal properties of the nano-sized tin particles by means of high-resolution transmission electron microscopy, x-ray diffraction, and the...
Guido Schmuelling, Nikolas Oehl, Martin Knipper, Joanna Kolny-Olesiak, Thorsten Plaggenborg, Hinrich-Wilhelm Meyer, Tobias Placke, Jürgen Parisi and Martin Winter
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Guido Schmuelling, Nikolas Oehl, Martin Knipper, Joanna Kolny-Olesiak, Thorsten Plaggenborg, Hinrich-Wilhelm Meyer, Tobias Placke, Jürgen Parisi and Martin Winter
Click for full article
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