Composite of Tin and Silicon with Nanostructure as High Performance Lithium-Ion Battery Anode

Composite of nanobranches-Si and nanospheres-Sn (denoted as Sn#nb-Si) with an appearance of “fruit-branch” is successfully synthesized by two-step method at room-temperature. This two-step method, i.e. dealloying followed by depositing, constructs an intact network of nanobranches-Si (nb-Si) with a harmonious depositing of nanospheres-Sn. The structural design at the nanoscale level buffers the expansion during lithiation/delithiation process, and the depositing of nanospheres-Sn improves the rate of Li+ transfer (an increase of 145% compared to pure nb-Si), remedying inherent poor conductivity of Si and achieving enhanced electrochemical performance. As a result, Sn#nb-Si exhibits a reversible capacity of 1525.9 mA h g-1 at 100 mA g-1 after 55 cycles with decent rate performance. Furthermore, Sn#nb-Si deepens research on the composite of Si and Sn, while dealloying followed by depositing, which is generally facile and uncomplicated, offers a novel guideline to cultivate structural design and paves the way for the synthesis of advanced energy storage materials.