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Porous organic polymer/RGO composite as high performance cathode for half and full sodium ion batteries
Ist Teil von
Journal of power sources, 2017-03, Vol.343, p.424-430
Ort / Verlag
Elsevier B.V
Erscheinungsjahr
2017
Link zum Volltext
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
Redox-active organic polymers are promising cathode electrodes owing to the advantages of open and flexible frame-works, renewability and environmental friendliness. Sodium salt of poly (2, 5-dihydroxy-p-benzoquinonyl sulfide)/RGO (Na2PDHBQS/RGO) composite has been fabricated via a convenient route and applied as a high performance and stable cathode for sodium ion batteries. The Na2PDHBQS/RGO was investigated in ether-based electrolyte, which demonstrated better electrochemical performances (228, 214, 203, 193, 172 and 147 mAh g−1 at 0.1, 0.2, 0.4, 0.8, 2 and 4C, respectively) than that in traditional ester-based ones. The high specific capacity, excellent cycle stability and reversibility of Na2PDHBQS/RGO may be attributed to the special porous structure, enhanced electronic conductivity by the introduction of RGO and fast sodium ion and electron diffusion rate in ether-based electrolyte. In addition, the Na2PDHBQS/RGO cathode has been assembled with disodium terephthalate (Na2TP) anode to compose a full cell for the first time, which presents an initial reversible capacity of 210 mAh g−1 at 0.1C.
Novel porous Na2PDHBQS/RGO composite has been prepared and investigated as a cathode for sodium ion batteries in ether-based electrolyte with excellent cycle stability and rate performances. The full cell of Na2PDHBQS/RGO-Na2TP delivers an initial reversible capacity of 210 mAh g−1, indicating its promising potential for practical applications. [Display omitted]
•Poly (2, 5-dihydroxy- p-benzoquinonyl sulfide)/RGO was used for SIBs.•The polymer/RGO composite showed higher capacity than individual polymer.•The polymer demonstrated better stability than the sodium salt of the monomer.•Fast ion and electrons diffusion rates was obtained in ether-based electrolyte.