In-situ constructing 3D graphdiyne as all-carbon binder for high-performance silicon anode
2018
Abstract The main issue of Si anode is the large volume variations during alloying/dealloying processes, which severely causes the disintegration in the pre-designed conductive and
mechanical networksand the interfacial contact between the
current collectorand Si particles; moreover, it can hardly be overcome economically. Here, the growth methodology of ultrathin graphdiyne
nanosheetsis scalably developed for in-situ constructing the 3D all-carbon conductive and
mechanical networksand firstly enhancing the interfacial contact between
current collectorand Si anode via chemical bonding. Seamlessly hold by the ultrathin graphdiyne
nanosheets, the disintegrations of the silicon anodes in the conductive networks and the interfacial contact are effectively retarded; as a result, the silicon electrode shows impressive enhancements in term of the capacity (2300 mA h g –1 ), and long-term stability for high-energy-density battery (1343 W h l –1 ). Such method shows great promises for realizing the commercial-level applications of Si anode.
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