Fabrication of Cu@MxOy (M = Cu,Mn, Co,Fe) Nanocable Arrays for Lithium‐Ion Batteries with Long Cycle Lives and High Rate Capabilities |
| |
Authors: | Tianou He Xingtai Qin Guang Yang Mingshang Jin |
| |
Institution: | 1. Frontier Institute of Science and Technology and Center for Advancing Materials Performance from the Nanoscale (CAMP‐Nano), Xi'an Jiaotong University, Xi'an, Shaanxi, P. R. China;2. Electronic Materials Research Laboratory, Key Laboratory of the Ministry of Education & International Center for Dielectric Research, Xi'an Jiaotong University, Xi'an, P. R. China |
| |
Abstract: | A new strategy is reported to fabricate Cu@MxOy (M = Cu, Mn, Co, Fe) nanocable arrays using five‐fold twinned copper (Cu) nanowire (NW) arrays as starting materials, to promote both the cycling stability and high rate capability of MxOy as anodes for LIBs. Conductive Cu NW arrays were synthesized on Cu foil via chemical vapor deposition (CVD), followed by the oxidation of their surface so as to form Cu@Cu2O nanocable arrays. The thickness of the active material (Cu2O) on the Cu NW arrays can be tuned from 20 nm to 160 nm by simply controlling the oxidation time. Based on this accurate control, the optimal coating thickness of Cu2O was determined to be around 35 nm. Additionally, the Cu2O active material shell can be easily transformed to other metal oxides with even higher specific capacities via a “coordinating etching” strategy based on Pearson's principle, resulting in Cu@MxOy nanocable arrays (M = Mn, Co, Fe). When applied as electrodes for LIBs, these 3D electrodes show long cycle lives (over 300 cycles) and high rate capabilities. |
| |
Keywords: | nanowires nanocables lithium‐ion batteries current collectors |
|
|