2018
DOI: 10.1149/2.0951807jes
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Improved Cycling Performance of Intermetallic Anode by Minimized SEI Layer Formation

Abstract: Electrochemical properties of bismuth composite electrode are investigated as potential negative electrode for lithium ion batteries. The electrode shows severe capacity decay typically observed in the case of alloy-based materials, using a conventional carbonate-based electrolyte solution. The electrode maintained only 10 % of the theoretical capacity after 25 cycles of lithiation/delithiation process. The electrode shows poor coulombic efficiency of < 90% during the initial 15 cycles. On the other hand, the … Show more

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Cited by 15 publications
(20 citation statements)
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“…The EQCM result of the LiBH 4 solution quantitatively proves the pseudo-SEI-free model, which we proposed in our previous paper. 31 In the case of LiPF 6 /EC-DEC, the mass increase of the copper electrode begins at a surprisingly high electrode potential of 2.3 V vs. Li during the initial cathodic sweep. The mass increase of the electrode is observed at the same electrode potential we identify the cathodic current peak.…”
Section: Resultsmentioning
confidence: 99%
“…The EQCM result of the LiBH 4 solution quantitatively proves the pseudo-SEI-free model, which we proposed in our previous paper. 31 In the case of LiPF 6 /EC-DEC, the mass increase of the copper electrode begins at a surprisingly high electrode potential of 2.3 V vs. Li during the initial cathodic sweep. The mass increase of the electrode is observed at the same electrode potential we identify the cathodic current peak.…”
Section: Resultsmentioning
confidence: 99%
“…Characteristic absorption peaks in the FTIR spectra (Figure S9) remain unchanged after the introduction of LiNO 3 and CuF 2 , indicating that LiNO 3 additives are readily soluble without any destruction of the solvent structure. However, the intensity of the absorption peaks at 1803 (C=O in EC), 1772 (C=O in DEC), 1196 (C−O in EC), and 1166 cm −1 (C−O in DEC) decrease notably, implying that the concentrations of those organic functional groups is reduced . Therefore, a fraction of solvent molecules participate in the solvation with additional cations or anions, forming a novel solvation structure in LiNO 3 ‐conatining electrolytes.…”
Section: Figurementioning
confidence: 99%
“…[16] Thedissolution chemistry of LiNO 3 in carbonate electrolyte,and its contribution to formation of the SEI, are strongly associated with the solvation structure of electrolytes.Fourier transform infrared (FTIR) and nuclear magnetic resonance (NMR) techniques,a sw ell as molecular dynamics (MD) simulations,w ere applied to investigate the solvation structure of E-LiNO 3 .Characteristic absorption peaks in the FTIR spectra ( Figure S9) remain unchanged after the introduction of LiNO 3 and CuF 2 ,i ndicating that LiNO 3 additives are readily soluble without any destruction of the solvent structure.H owever,t he intensity of the absorption peaks at 1803 (C = Oi nEC), 1772 (C = OinD EC), 1196 (C À OinE C), and 1166 cm À1 (C À OinDEC) decrease notably,implying that the concentrations of those organic functional groups is reduced. [20] Therefore,afraction of solvent molecules participate in the solvation with additional cations or anions, forming an ovel solvation structure in LiNO 3 -conatining electrolytes.…”
mentioning
confidence: 99%
“…Fourier Transform Infrared Spectroscopy (FTIR) is a widely used technique that identifies chemical bonds. It is also capable of being used In situ to monitor the changes of SEIs [101] . While FTIR only identifies chemical bonds and is more suitable for organic compounds, X‐ray Photoelectron Spectroscopy (XPS) gives more detailed information about the elemental composition as well as the oxidation state, making it ideal for inorganic components [102] .…”
Section: Characterization Of Artificial Seimentioning
confidence: 99%