Publication | Open Access
Binder-free Ge nanoparticles–carbon hybrids for anode materials of advanced lithium batteries with high capacity and rate capability
88
Citations
25
References
2012
Year
EngineeringBottom-up SynthesisSelf-assembled Ge-polymer HybridsNanostructured PolymerChemistryHigh CapacityCarbon-based MaterialCarbon AerogelsMaterials ScienceBattery Electrode MaterialsAdvanced Electrode MaterialCarbon MatricesLithium-ion BatteryEnergy StorageSolid-state BatteryPorous CarbonLi-ion Battery MaterialsNanomaterialsRate CapabilityElectrochemical Energy StorageBatteriesAnode MaterialsHighly-dispersed Ge NanoparticlesAdvanced Lithium Batteries
We present a facile synthetic route toward binder-free, highly-dispersed Ge nanoparticles in carbon matrices using one-step pyrolysis of self-assembled Ge-polymer hybrids. 3-Dimensionally arranged Ge-carbon exhibits remarkably enhanced cycling properties and rate capability compared with carbon sheathed Ge lacking organization.
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