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Xiong, J., Dupre, N., Mazouzi, D., Guyomard, D., Roue, L. & Lestriez, B. (2021) Influence of the Polyacrylic Acid Binder Neutralization Degree on the Initial Electrochemical Behavior of a Silicon/Graphite Electrode. ACS Appl. Mater. Interfaces, 13 28304–28323. 
Added by: Richard Baschera (2021-07-16 07:20:45)   Last edited by: Richard Baschera (2021-07-16 07:24:43)
Type de référence: Article
DOI: 10.1021/acsami.1c06683
Numéro d'identification (ISBN etc.): 1944-8244
Clé BibTeX: Xiong2021
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Catégories: INTERNATIONAL, ST2E
Créateurs: Dupre, Guyomard, Lestriez, Mazouzi, Roue, Xiong
Collection: ACS Appl. Mater. Interfaces
Consultations : 6/54
Indice de consultation : 4%
Indice de popularité : 1%
Liens URLs     https://doi.org/10.1021/acsami.1c06683
Résumé     
The role of the physicochemical properties of the water-soluble polyacrylic acid (PAA) binder in the electrochemical performance of highly loaded silicon/graphite 50/50 wt % negative electrodes has been examined as a function of the neutralization degree x in PAAH1–xLix at the initial cycle in an electrolyte not containing ethylene carbonate. Electrode processing in the acidic PAAH binder at pH 2.5 leads to a deep copper corrosion, resulting in a significant electrode cohesion and adhesion to the current collector surface, but the strong binder rigidity may explain the big cracks occurring on the electrode surface at the first cycle. The nonuniform binder coating on the material surface leads to an important degradation of the electrolyte, explaining the lowest initial Coulombic efficiency and the lowest reversible capacity among the studied electrodes. When processed in neutral pH, the PAAH0.22Li0.78 binder forms a conformal artificial solid electrolyte interphase layer on the material surface, which minimizes the electrolyte reduction at the first cycle and then maximizes the initial Coulombic efficiency. However, the low mechanical resistance of the electrode and its strong cracking explain its low reversible capacity. Electrodes prepared at intermediate pH 4 combine the positive assets of electrodes prepared at acidic and neutral pH. They lead to the best initial performance with a notable areal capacity of 7.2 mA h cm–2 and the highest initial Coulombic efficiency of around 90%, a value much larger than the usual range reported for silicon/graphite anodes. All data obtained with complementary characterization techniques were discussed as a function of the PAA polymeric chain molecular conformation, microstructure, and surface adsorption or grafting, emphasizing the tremendous role of the binder in the electrode initial performance.
  
Notes     
Publisher: American Chemical Society
  
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