AI Article Synopsis
- Potato starch acts as a natural carbohydrate binder that promotes strong bonds with silicon particles, which is beneficial for lithium-ion battery performance.
- Maleic anhydride modification of potato starch enhances its stability and effectiveness in these batteries, as indicated by various spectroscopy and analysis techniques.
- The results show promising battery cycling performance with a capacity of 1950 mAh/g, alongside favorable structural changes observed in the modified starch.
Article Abstract
Potato starch is a natural carbohydrate binder. Starch has hydroxyl groups that can promote interaction with silicon particles using multifaceted hydrogen bonds. Maleic anhydride esterified potato starch can produce a binder that maintains the cycle stability of lithium-ion batteries. Fourier-transform infrared spectroscopy spectra show wavelengths of 1776 cm and 1855 cm. Thermal gravimetric analysis curves decreased in weight percent by 80 % at 286 °C. Carbon-13 nuclear magnetic resonance spectra show high peaks at 3.37 ppm, 3.65 ppm, 4.56 ppm, 5.09 ppm, and 6.22 ppm. Scanning electron microscope images show that the morphological change in esterified starch was due to the increased length of starch and the maleic anhydride grafted onto the starch granules. The cyclic voltammetry curve shows that the reduction peak is around 0.16 V, and the oxidation peak is around 0.38 V and 0.56 V. Nyquist plots show a small half circle, indicating that the electrode's solid-electrolyte interphase layer is low. The cycling performance shows a capacity of 1950 mAh/g.
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| http://dx.doi.org/10.1016/j.ijbiomac.2024.136407 | DOI Listing |
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