Chemically bubbled hollow Fe<sub>x</sub>O nanospheres anchored on 3D N-doped few-layer graphene architecture as a performance-enhanced anode material for potassium-ion batteries
Qiwei Tan(Advanced Materials and Technologies (Slovenia)), Xuanhui Qu(University of Science and Technology Beijing), Donglin He(Advanced Materials and Technologies (Slovenia)), Mingli Qin(Advanced Materials and Technologies (Slovenia)), Yang Li(Qingdao University), Ping Li(Advanced Materials and Technologies (Slovenia)), Kun Han(Advanced Materials and Technologies (Slovenia)), Zhiwei Liu(University of Science and Technology Beijing), Fuqiang An(Advanced Materials and Technologies (Slovenia)), Wang Zhao(Advanced Materials and Technologies (Slovenia))
Cited by 84
Related Papers
High temperature wear performance of laser-cladded FeNiCoAlCu high-entropy alloy coating
|Applied Surface Science|2018|337
Kraft Lignin-Based Rigid Polyurethane Foam
|Journal of Wood Chemistry and Technology|2012|215
Environmentally friendly waterborne polyurethane nanofibrous membranes by emulsion electrospinning for waterproof and breathable textiles
|Chemical Engineering Journal|2021|188
One-pot synthesis of graphene/hydroxyapatite nanorod composite for tissue engineering
|Carbon|2013|178
Recent Progress on Self‐Healable Conducting Polymers
|Advanced Materials|2022|155