Effects of silver nanoparticle on electrochemical performances of poly(o-phenylenediamine)/Ag hybrid composite as anode of lithium-ion batteries

Effects of silver nanoparticle on electrochemical performances of poly(o-phenylenediamine)/Ag hybrid composite as anode of lithium-ion batteries

In the present work, the poly(o-phenylenediamine)/Ag (PoPD/Ag) hybrid composite with the microrod morphology was prepared by in situ chemical oxidation method, and then composite electrodes of PoPD/Ag (PVDF) and PoPD/Ag (sodium alginate) were prepared by using PVDF and sodium alginate as electrode b...

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Bibliographic Details
Published in:Journal of solid state electrochemistry Vol. 24; no. 4; pp. 1007 - 1015
Main Authors: Su, Chang, Han, Bing, Ma, Jiaojiao, Guo, Pengju, Xu, Lihuan
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-04-2020
Springer Nature B.V
Subjects:
Analytical Chemistry
Anodes
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Condensed Matter Physics
Electrical resistivity
Electrochemistry
Electrode materials
Electrodes
Energy Storage
Hybrid composites
Lithium
Lithium-ion batteries
Morphology
Nanoparticles
Original Paper
Oxidation
Performance enhancement
Phenylenediamine
Physical Chemistry
Polymers
Rechargeable batteries
Silver
Sodium
Sodium alginate
Special effects
Lithium-ion batteries
Conductivity
Poly (o-phenylenediamine)
Sodium alginate
Sliver nanoparticles
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Summary:In the present work, the poly(o-phenylenediamine)/Ag (PoPD/Ag) hybrid composite with the microrod morphology was prepared by in situ chemical oxidation method, and then composite electrodes of PoPD/Ag (PVDF) and PoPD/Ag (sodium alginate) were prepared by using PVDF and sodium alginate as electrode binders, respectively. As explored as the anode of lithium ion batteries, the redox-active PoPD in the hybrid composite, compared to the pure PoPD, demonstrated the remarkably improved electrochemical performances with superior high capacity and good rate capability and cycling stability, due to the improved intrinsic electrical conductivity of PoPD via the introduced Ag nanoparticles in the polymer. As the sodium alginate was chosen as the functional electrode binder, PoPD/Ag (sodium alginate) exhibited the initial charge/discharge-specific capacity of 1452.9/2317.7 mAh g −1 , and after the 100th cycles, the developed discharge capacity for PoPD/Ag (sodium alginate) reached to 1389.9 mAh g −1 , which was evidently higher than that of PoPD. Its stable and representative discharge-specific capacities were 1291, 1044.9, 856.7, 762.5 mAh g −1 at the current rate of 50, 100, 200, and 500 mAh g −1 , respectively, which were obviously superior to that of PoPD and PoPD/Ag (PVDF), indicating that sodium alginate as binder has the special effects on the electrochemical characteristics of PoPD, which benefited to the capacity release step by step during the charge/discharge process. The works would provide significant exploration for the preparation of high-performance poly (aromatic amine) polymer as the electrode materials.
ISSN:1432-8488
1433-0768
DOI:10.1007/s10008-020-04580-8