4.8 Article

The significance of detecting imperceptible physical/chemical changes/reactions in lithium-ion batteries: a perspective

期刊

ENERGY & ENVIRONMENTAL SCIENCE
卷 15, 期 6, 页码 2329-2355

出版社

ROYAL SOC CHEMISTRY
DOI: 10.1039/d2ee01020h

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资金

  1. National Natural Science Foundation of China [U21A20170, 52073161]
  2. Ministry of Science and Technology of China [2019YFE0100200, 2019YFA0705703]
  3. Guangdong Provincial Key Research and development plan [2020B090920001]
  4. Innovation Team of Universities of Guangdong Province [2020KCXTD011]
  5. Engineering Research Center of Universities of Guangdong Province [2019GCZX002]
  6. Guangdong Key Laboratory for Hydrogen Energy Technologies [2018B030322005]
  7. Tsinghua University Initiative Scientific Research Program [2019Z02UTY06, 2019THFS0132]

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This paper emphasizes the significance of high-precision measurements in Li-ion batteries and proposes a combined approach using electrochemical and material measurements to gain insights into the battery's performance and lifespan.
The lifetime of Li-ion batteries (LIBs) is highly dependent on the imperceptible physical/chemical changes/reactions that occur on/between the electrodes and electrolyte. Therefore, reliable and repeatable high-precision detection of the imperceptible changes/reactions is extremely significant. High precision electrochemical measurements, such as high-precision coulombic efficiency, isothermal heat flow, and leakage current, can indicate imperceptible parasitic reaction and predict the practical working status of batteries and the battery life. However, the exact imperceptible physical/chemical changes/reactions inside the battery and battery damage remain unknown. Thus, high-precision material characterization techniques, such as in situ synchrotron radiation techniques in particular, which can demonstrate the structural evolution of materials dynamically during battery working are much needed. High-precision electrochemical measurements and material measurements are used to compare the two departments of a battery hospital metaphorically, and combining these two diagnoses is the best consultation for the battery. This paper is the first to present high-precision measurements from both levels of electrochemical science and materials science of LIBs. The aim of this work is to offer detailed and timely insight into the application of high-precision measurements for battery performance and material analysis, thus benefitting and promoting the further development of LIBs/battery systems.

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